This document analyzes the technological profile of the red ceramic industry in Alagoas State, Brazil. It studies the equipment used at different stages of the production process and identifies existing technological levels. The methodology includes questionnaires with ceramic industry entrepreneurs and bibliographic research. The results indicate there are different technological levels and the existence of cost differentials. Four key stages of production are identified: extraction of raw materials, shaping of parts through molding/extrusion, and drying and firing thermal processes. The analysis characterizes the technological profile by considering the equipment used and technological levels present.
Ceramic Matrix Composites Market Expected to Be Biggest Emerging Market by 2025minutmr
The increased application for CMCs in electrical power generation, aerospace, and maritime propulsion is projected to increase the demand for ceramic matrix composites to a great extent over the coming period.
Ceramic Matrix Composites Market Expected to Be Biggest Emerging Market by 2025minutmr
The increased application for CMCs in electrical power generation, aerospace, and maritime propulsion is projected to increase the demand for ceramic matrix composites to a great extent over the coming period.
The Information Communication and Technology industry is made up of enterprises concerned with the design, manufacture, installation, development, support and management of computer-based information systems (both software and hardware). The rapid expansion of electronic technologies within the global TELECOM industry has been accompanied by an explosion of automation applications that are redefining the way we perceive and experience communication, entertainment and security in our personal and professional environments. Convenience is now a function of the extent to which electronic appliances and gadgets are „online‟ and accessible through land and wireless networks. Information flow is expected on demand -constant, reliable, accurate and accessible. Such changes have understandably raised expectations with regards to the how effectively we function, in the places we live and work. No where have the effects of this new technology been felt as powerfully as in the global real estate industry.
Computational Aerodynamic Prediction for Integration of an Advanced Reconnais...IJERA Editor
In this paper a computational aerodynamic prediction to support the aeromechanical integration of an advanced reconnaissance pod on a 5th generation fighter type aircraft is presented. The aim of the activity was to compare the aerodynamic characteristics of the new pod to a previous one already cleared on the same aircraft fleet, given verified inertial and structural similarity. Verifying the aforementioned aerodynamic similarity without involving extensive flight test activity was a must, to save time and to reduce costs. A two steps approach was required by the Certification Authority to verify, initially, the performance data compatibility in terms of aerodynamic coefficients of the old pod with the new one, in order to allow performance flight manual data interchangeability (a quantitative comparison was required); afterwards, a qualitative assessment was conducted to verify the absence of unsteadiness induced by the introduction in the external structure of the new pod of an auxiliary antenna case. Computational results are presented both for Straight and Level Un-accelerated Flight and Steady-Sideslip flight conditions at different Angles of Attack.
Design and Structuring of a Multiprocessor System based on TransputersIJERA Editor
In this paper the Authors present the design of a high performance transputer based fault-tolerant multiprocessor system for critical applications such as aircraft control, nuclear power station control, satellite applications etc. Fault-tolerant building blocks designed with potential for real time processing. The systematic architecture, regularity and recursiveness enables the system to be more fault-tolerant. Real-time applications have to function correctly even in the presence of faults. Link failure of the network is deeply analysed with reliability analysis.
Investigating the Performance of NoC Using Hierarchical Routing ApproachIJERA Editor
The Network-on-Chip (NoC) model has appeared as a revolutionary methodology for incorporatingmany number of intellectual property (IP) blocks in a die. As said by the International Roadmap for Semiconductors (ITRS), it is must to scale down the device size. In order to reduce the device long interconnection should be avoided. For that, new interconnect patterns are need. Three-dimensional ICs are proficient of achieving superior performance, resistance against noise and lower interconnect power consumption compared to traditional planar ICs. In this paper, network data routed by Hierarchical methodology. We are analyzing total number of logic gates and registers, power consumption and delay when different bits of data transmitted using Quartus II software.
Study and Development of Temperature & Humidity monitoring system through Wir...IJERA Editor
Wireless sensor networks have become an integral part of any developing country as it is being used nowadays as the primary monitoring system in various applications. The wireless sensor networks eliminate the hazards associated with the wiring systems and make data measurement and monitoring process much easier and cost effective. The decentralized architecture of the wireless sensor network and its flexibility of deployment make wireless networks most suitable for various process plants, industries and remote & rural communication. In this work, applications of wireless sensor network is carried out on online measurement and monitoring of reaction chamber, furnace etc, which is to be measured in the industries.
Study of Linear and Non-Linear Optical Parameters of Zinc Selenide Thin FilmIJERA Editor
Thin film of Zinc Selenide (ZnSe) was deposited onto transparent glass substrate by thermal evaporation technique. ZnSe thin film was characterized by UV-Visible spectrophotometer within the wavelength range of 310 nm-1080 nm. The Linear optical parameters (linear optical absorption, extinction coefficient, refractive index and complex dielectric constant) of ZnSe thin film were analyzed from absorption spectra. The optical band gap and Urbach energy were obtained by Tauc’s equation. The volume and surface energy loss function of ZnSe thin film were obtained by complex dielectric constant. The Dispersion parameters (dispersion energy, oscillation energy, moment of optical dispersion spectra, static dielectric constant and static refractive index) were calculated using theoretical Wemple-DiDomenico model. The oscillation strength, oscillator wavelength, high frequency dielectric constant and high frequency refractive index were calculated by single Sellmeier oscillator model. Also, Lattice dielectric constant, N/m* and plasma resonance frequency were obtained. The electronic polarizibility of ZnSe thin film was estimated by Clausius-Mossotti local field polarizibility. The non-linear optical parameters (non-linear susceptibility and non-linear refractive index) were estimated.
A Synchronizing Devicefor Power Electronic ConvertersIJERA Editor
In this paper we introduce a synchronizing device for power electronic converters with single-phase or threephase
AC input voltage. The voltage synchronizing transformer in this device has been replaced by a current
transformer and a double galvanic isolation has been realized by means of optical media. Results from computer
simulation and experimental studies have been brought out.
Performance Analysis of Adaptive DOA Estimation Algorithms For Mobile Applica...IJERA Editor
Spatial filtering for mobile communications has attracted a lot of attention over the last decade and is cur-rently considered a very promising technique that will help future cellular networks achieve their ambi-tious goals. One way to accomplish this is via array signal processing with algorithms which estimate the Direction-Of-Arrival (DOA) of the received waves from the mobile users. This paper evaluates the per-formance of a number of DOA estimation algorithms. In all cases a linear antenna array at the base station is assumed to be operating typical cellular environment.
Structural Weight Optimization of Aircraft Wing Component Using FEM Approach.IJERA Editor
One of the main challenges for the civil aviation industry is the reduction of its environmental impact by better fuel efficiency by virtue of Structural optimization. Over the past years, improvements in performance and fuel efficiency have been achieved by simplifying the design of the structural components and usage of composite materials to reduce the overall weight of the structure. This paper deals with the weight optimization of transport aircraft with low wing configuration. The Linear static and Normal Mode analysis were carried out using MSc Nastran & Msc Patran under different pressure conditions and the results were verified with the help of classical approach. The Stress and displacement results were found and verified and hence arrived to the conclusion about the optimization of the wing structure.
Design and Implementation of Automatic Street Light Control Using Sensors and...IJERA Editor
Solar Photovoltaic panel based street lighting systems are becoming more common these days. But the limitation with these ordinary street light systems is that it lacks intelligent performance. It is very essential to automate the system so that we can conserve energy as well as to maximize the efficiency of the system. In this paper a new method is suggested so as to maximize the efficiency of the street lighting system and to conserve the energy usage the LED lights sensors. Here automation of street lights is done by LDR sensor. Intensity of led street lights can be controlled by IR sensor and pulse width modulation.
A Design Technique To Reduce Nbti Effects From 5t Sram CellsIJERA Editor
This paper focuses on designing an NBTI tolerant system by addressing the major reason of NBTI especially the devices that consists of SOC. To address this issue a thorough study of 5T SRAM cells has been done. This paper is based on idea of switch capacitors and the fact that only few transistors are ON at any particular time. RD model is primary and base model that us used to describe NBTI and aging degradation in this paper The proposed technique improve read power by 8% and leakage power by 12.87%
Geotechnical Properties of Sabkha Soil in the southern part of Al-Khobar city...IJERA Editor
The geotechnical properties of sabkha soil covering most parts of the southern portion of Al-Khobar area –Saudia Arabia were determined. These soil have very low strength, low bearing capacity and high compressibility. The expected settlement is always above the recommended tolerable limits. The chemical analysis of both soil and water from sabkha flat shows a very high concentration of salts. These high concentrations of salts give rise to a very corrosive environment and therefore it is recommended to protect concrete and reinforcement by using sulphate resisting cement, pozzolanic materials, use of corrosion inhibitors and by applying suitable water proofing membranes . The properties determined during this study has a significant impact on both technical and economical values of each project and therefore, the outcome of the study is much important for planners and developers .
Determination of homogenous regions in the Tensift basin (Morocco).IJERA Editor
The aim of this study is to determine homogenous region in the Tensift basin within which the hydrological behavior is similar. In order to do this we used two methods: The Principal components analysis on the monthly precipitation registered at the 23 rainfall stations. This resulted in setting apart 4 groups of stations. The second method is analysis of land use map, geological map, pedagogical map, vegetation map and slope map of the studied area. This method allowed us to delineate 4 homogenous areas. The two methods yielded complementary results and the superposition of groups and regions obtained allowed us to retain 4 homogenous regions corresponding to 3 groups of stations.
Load Frequency Control of Multi Area System using Integral-Fuzzy ControllerIJERA Editor
The power system is interconnected to enhance the security and reliability. With large interconnected system, unexpected external disturbances, parameter uncertainties and the model uncertainties make big challenges for stability of system. Load Frequency Control (LFC) deals with the control of real power and frequency of the system. The LFC is used to reduce the transient deviations in the power system. It limits the frequency within limits and controls the tie-line exchange power. Various controllers are used for this purpose. Recently Artificial Intelligence Techniques such as Artificial Neural Network (ANN), fuzzy logic, Genetic Algorithm etc. are used for the designing of controllers. These controllers provide a faster response and are flexible to adjust according to system conditions. In this paper, I have designed integral controller which is conventional method for Load Frequency Control and Artificial Intelligence Technique based Fuzzy Logic controller to deal with the Load Frequency Control Problem for Multi-area System. The simulation of the system is done with MATLAB. These controllers provide a robust system which is more stable and reliable and helps the system to regain its normal state after any disturbance.
Design and Analysis of Flange CouplingIJERA Editor
The approach utilizes standard design equations of these couplings and links them together in computer software to determine the design parameters of the couplings. In general, most flange coupling is available in transformation system and automobile industries. A flange coupling usually applies to a coupling having two cast iron flanges. To achieve a require goal, a design of bolted unprotected flange coupling is modeled in to a cad package named Solid works. Furthered the finite element analysis module is created in ANSYS Workbench by using ANSYS Static Structural module which has a predefined process to obtain optimum results.
Analysis of multistoried braced steel space frame subjected to gravity and se...IJERA Editor
Steel structures are generally more flexible than other types of structure and lower in weight. Earthquake loads
are random in nature. It is difficult to predict them exactly. The action applied to a structure by an earthquake is
a ground movement with horizontal and vertical components. The horizontal movement is the most specific
feature of earthquake action because of its strength and because structures are generally better designed to resist
gravity than horizontal forces. These forces produce large stresses, strains, deformation and displacement
particularly in tall structures. To keep displacement within limit generally bracing is provided in steel structure. .
Bracings are generally used to increase lateral-stiffness, lateral- strength as well as lateral stability of the frame.
Variations in the column stiffness can influence the mode of failure and lateral stiffness of the bracing. In this
study steel frame is modeled and analyzed three Parts viz., (i) Model without Steel bracing (bare frame), (ii)
Model completely with fully braced steel frame („Cross‟ bracing), (iii) Model completely with fully braced steel
frame („Single diagonal‟ bracing).
Cloud computing is an Internet-based computing, whereby shared resources, software, and information are
provided to computers and other devices on demand. However, adopting a cloud computing paradigm may have
positive as well as negative effects on the data security of service consumers [1]. Cloud Computing is a term
used to describe both a platform and type of application. As a platform it supplies, configures and reconfigures
servers, while the servers can be physical machines or virtual machines. On the other hand, Cloud Computing
describes applications that are extended to be accessible through the internet and for this purpose large data
centers and powerful servers are used to host the web applications and web services. Authentication is one the
most important security primitive [6]. Password authentication is most widely used authentication mechanism.
Password provides security mechanism for authentication and protection services against unwanted access to
resource. In this paper, we applied a technique to preserve our password using graphical authentication.
An Ant colony optimization algorithm to solve the broken link problem in wire...IJERA Editor
Aco is a well –known metahuristic in which a colony of artificial ants cooperates in explain Good solution to a combinational optimization problem. Wireless sensor consisting of nodes with limited power is deployed to gather useful information From the field. In wireless sensor network it is critical to collect the information in an energy efficient Manner.ant colony optimization, a swarm intelligence based optimization technique, is widely used In network routing. A novel routing approach using an ant colony optimization algorithm is proposed for wireless sensor Network consisting of stable nodes illustrative example details description and cooperative performance test result the proposed approach are included. The approach is also implementing to a small sized hardware component as a router chip simulation result show that proposed algorithm Provides promising solution allowing node designers to efficiency operate routing tasks.
The Information Communication and Technology industry is made up of enterprises concerned with the design, manufacture, installation, development, support and management of computer-based information systems (both software and hardware). The rapid expansion of electronic technologies within the global TELECOM industry has been accompanied by an explosion of automation applications that are redefining the way we perceive and experience communication, entertainment and security in our personal and professional environments. Convenience is now a function of the extent to which electronic appliances and gadgets are „online‟ and accessible through land and wireless networks. Information flow is expected on demand -constant, reliable, accurate and accessible. Such changes have understandably raised expectations with regards to the how effectively we function, in the places we live and work. No where have the effects of this new technology been felt as powerfully as in the global real estate industry.
Computational Aerodynamic Prediction for Integration of an Advanced Reconnais...IJERA Editor
In this paper a computational aerodynamic prediction to support the aeromechanical integration of an advanced reconnaissance pod on a 5th generation fighter type aircraft is presented. The aim of the activity was to compare the aerodynamic characteristics of the new pod to a previous one already cleared on the same aircraft fleet, given verified inertial and structural similarity. Verifying the aforementioned aerodynamic similarity without involving extensive flight test activity was a must, to save time and to reduce costs. A two steps approach was required by the Certification Authority to verify, initially, the performance data compatibility in terms of aerodynamic coefficients of the old pod with the new one, in order to allow performance flight manual data interchangeability (a quantitative comparison was required); afterwards, a qualitative assessment was conducted to verify the absence of unsteadiness induced by the introduction in the external structure of the new pod of an auxiliary antenna case. Computational results are presented both for Straight and Level Un-accelerated Flight and Steady-Sideslip flight conditions at different Angles of Attack.
Design and Structuring of a Multiprocessor System based on TransputersIJERA Editor
In this paper the Authors present the design of a high performance transputer based fault-tolerant multiprocessor system for critical applications such as aircraft control, nuclear power station control, satellite applications etc. Fault-tolerant building blocks designed with potential for real time processing. The systematic architecture, regularity and recursiveness enables the system to be more fault-tolerant. Real-time applications have to function correctly even in the presence of faults. Link failure of the network is deeply analysed with reliability analysis.
Investigating the Performance of NoC Using Hierarchical Routing ApproachIJERA Editor
The Network-on-Chip (NoC) model has appeared as a revolutionary methodology for incorporatingmany number of intellectual property (IP) blocks in a die. As said by the International Roadmap for Semiconductors (ITRS), it is must to scale down the device size. In order to reduce the device long interconnection should be avoided. For that, new interconnect patterns are need. Three-dimensional ICs are proficient of achieving superior performance, resistance against noise and lower interconnect power consumption compared to traditional planar ICs. In this paper, network data routed by Hierarchical methodology. We are analyzing total number of logic gates and registers, power consumption and delay when different bits of data transmitted using Quartus II software.
Study and Development of Temperature & Humidity monitoring system through Wir...IJERA Editor
Wireless sensor networks have become an integral part of any developing country as it is being used nowadays as the primary monitoring system in various applications. The wireless sensor networks eliminate the hazards associated with the wiring systems and make data measurement and monitoring process much easier and cost effective. The decentralized architecture of the wireless sensor network and its flexibility of deployment make wireless networks most suitable for various process plants, industries and remote & rural communication. In this work, applications of wireless sensor network is carried out on online measurement and monitoring of reaction chamber, furnace etc, which is to be measured in the industries.
Study of Linear and Non-Linear Optical Parameters of Zinc Selenide Thin FilmIJERA Editor
Thin film of Zinc Selenide (ZnSe) was deposited onto transparent glass substrate by thermal evaporation technique. ZnSe thin film was characterized by UV-Visible spectrophotometer within the wavelength range of 310 nm-1080 nm. The Linear optical parameters (linear optical absorption, extinction coefficient, refractive index and complex dielectric constant) of ZnSe thin film were analyzed from absorption spectra. The optical band gap and Urbach energy were obtained by Tauc’s equation. The volume and surface energy loss function of ZnSe thin film were obtained by complex dielectric constant. The Dispersion parameters (dispersion energy, oscillation energy, moment of optical dispersion spectra, static dielectric constant and static refractive index) were calculated using theoretical Wemple-DiDomenico model. The oscillation strength, oscillator wavelength, high frequency dielectric constant and high frequency refractive index were calculated by single Sellmeier oscillator model. Also, Lattice dielectric constant, N/m* and plasma resonance frequency were obtained. The electronic polarizibility of ZnSe thin film was estimated by Clausius-Mossotti local field polarizibility. The non-linear optical parameters (non-linear susceptibility and non-linear refractive index) were estimated.
A Synchronizing Devicefor Power Electronic ConvertersIJERA Editor
In this paper we introduce a synchronizing device for power electronic converters with single-phase or threephase
AC input voltage. The voltage synchronizing transformer in this device has been replaced by a current
transformer and a double galvanic isolation has been realized by means of optical media. Results from computer
simulation and experimental studies have been brought out.
Performance Analysis of Adaptive DOA Estimation Algorithms For Mobile Applica...IJERA Editor
Spatial filtering for mobile communications has attracted a lot of attention over the last decade and is cur-rently considered a very promising technique that will help future cellular networks achieve their ambi-tious goals. One way to accomplish this is via array signal processing with algorithms which estimate the Direction-Of-Arrival (DOA) of the received waves from the mobile users. This paper evaluates the per-formance of a number of DOA estimation algorithms. In all cases a linear antenna array at the base station is assumed to be operating typical cellular environment.
Structural Weight Optimization of Aircraft Wing Component Using FEM Approach.IJERA Editor
One of the main challenges for the civil aviation industry is the reduction of its environmental impact by better fuel efficiency by virtue of Structural optimization. Over the past years, improvements in performance and fuel efficiency have been achieved by simplifying the design of the structural components and usage of composite materials to reduce the overall weight of the structure. This paper deals with the weight optimization of transport aircraft with low wing configuration. The Linear static and Normal Mode analysis were carried out using MSc Nastran & Msc Patran under different pressure conditions and the results were verified with the help of classical approach. The Stress and displacement results were found and verified and hence arrived to the conclusion about the optimization of the wing structure.
Design and Implementation of Automatic Street Light Control Using Sensors and...IJERA Editor
Solar Photovoltaic panel based street lighting systems are becoming more common these days. But the limitation with these ordinary street light systems is that it lacks intelligent performance. It is very essential to automate the system so that we can conserve energy as well as to maximize the efficiency of the system. In this paper a new method is suggested so as to maximize the efficiency of the street lighting system and to conserve the energy usage the LED lights sensors. Here automation of street lights is done by LDR sensor. Intensity of led street lights can be controlled by IR sensor and pulse width modulation.
A Design Technique To Reduce Nbti Effects From 5t Sram CellsIJERA Editor
This paper focuses on designing an NBTI tolerant system by addressing the major reason of NBTI especially the devices that consists of SOC. To address this issue a thorough study of 5T SRAM cells has been done. This paper is based on idea of switch capacitors and the fact that only few transistors are ON at any particular time. RD model is primary and base model that us used to describe NBTI and aging degradation in this paper The proposed technique improve read power by 8% and leakage power by 12.87%
Geotechnical Properties of Sabkha Soil in the southern part of Al-Khobar city...IJERA Editor
The geotechnical properties of sabkha soil covering most parts of the southern portion of Al-Khobar area –Saudia Arabia were determined. These soil have very low strength, low bearing capacity and high compressibility. The expected settlement is always above the recommended tolerable limits. The chemical analysis of both soil and water from sabkha flat shows a very high concentration of salts. These high concentrations of salts give rise to a very corrosive environment and therefore it is recommended to protect concrete and reinforcement by using sulphate resisting cement, pozzolanic materials, use of corrosion inhibitors and by applying suitable water proofing membranes . The properties determined during this study has a significant impact on both technical and economical values of each project and therefore, the outcome of the study is much important for planners and developers .
Determination of homogenous regions in the Tensift basin (Morocco).IJERA Editor
The aim of this study is to determine homogenous region in the Tensift basin within which the hydrological behavior is similar. In order to do this we used two methods: The Principal components analysis on the monthly precipitation registered at the 23 rainfall stations. This resulted in setting apart 4 groups of stations. The second method is analysis of land use map, geological map, pedagogical map, vegetation map and slope map of the studied area. This method allowed us to delineate 4 homogenous areas. The two methods yielded complementary results and the superposition of groups and regions obtained allowed us to retain 4 homogenous regions corresponding to 3 groups of stations.
Load Frequency Control of Multi Area System using Integral-Fuzzy ControllerIJERA Editor
The power system is interconnected to enhance the security and reliability. With large interconnected system, unexpected external disturbances, parameter uncertainties and the model uncertainties make big challenges for stability of system. Load Frequency Control (LFC) deals with the control of real power and frequency of the system. The LFC is used to reduce the transient deviations in the power system. It limits the frequency within limits and controls the tie-line exchange power. Various controllers are used for this purpose. Recently Artificial Intelligence Techniques such as Artificial Neural Network (ANN), fuzzy logic, Genetic Algorithm etc. are used for the designing of controllers. These controllers provide a faster response and are flexible to adjust according to system conditions. In this paper, I have designed integral controller which is conventional method for Load Frequency Control and Artificial Intelligence Technique based Fuzzy Logic controller to deal with the Load Frequency Control Problem for Multi-area System. The simulation of the system is done with MATLAB. These controllers provide a robust system which is more stable and reliable and helps the system to regain its normal state after any disturbance.
Design and Analysis of Flange CouplingIJERA Editor
The approach utilizes standard design equations of these couplings and links them together in computer software to determine the design parameters of the couplings. In general, most flange coupling is available in transformation system and automobile industries. A flange coupling usually applies to a coupling having two cast iron flanges. To achieve a require goal, a design of bolted unprotected flange coupling is modeled in to a cad package named Solid works. Furthered the finite element analysis module is created in ANSYS Workbench by using ANSYS Static Structural module which has a predefined process to obtain optimum results.
Analysis of multistoried braced steel space frame subjected to gravity and se...IJERA Editor
Steel structures are generally more flexible than other types of structure and lower in weight. Earthquake loads
are random in nature. It is difficult to predict them exactly. The action applied to a structure by an earthquake is
a ground movement with horizontal and vertical components. The horizontal movement is the most specific
feature of earthquake action because of its strength and because structures are generally better designed to resist
gravity than horizontal forces. These forces produce large stresses, strains, deformation and displacement
particularly in tall structures. To keep displacement within limit generally bracing is provided in steel structure. .
Bracings are generally used to increase lateral-stiffness, lateral- strength as well as lateral stability of the frame.
Variations in the column stiffness can influence the mode of failure and lateral stiffness of the bracing. In this
study steel frame is modeled and analyzed three Parts viz., (i) Model without Steel bracing (bare frame), (ii)
Model completely with fully braced steel frame („Cross‟ bracing), (iii) Model completely with fully braced steel
frame („Single diagonal‟ bracing).
Cloud computing is an Internet-based computing, whereby shared resources, software, and information are
provided to computers and other devices on demand. However, adopting a cloud computing paradigm may have
positive as well as negative effects on the data security of service consumers [1]. Cloud Computing is a term
used to describe both a platform and type of application. As a platform it supplies, configures and reconfigures
servers, while the servers can be physical machines or virtual machines. On the other hand, Cloud Computing
describes applications that are extended to be accessible through the internet and for this purpose large data
centers and powerful servers are used to host the web applications and web services. Authentication is one the
most important security primitive [6]. Password authentication is most widely used authentication mechanism.
Password provides security mechanism for authentication and protection services against unwanted access to
resource. In this paper, we applied a technique to preserve our password using graphical authentication.
An Ant colony optimization algorithm to solve the broken link problem in wire...IJERA Editor
Aco is a well –known metahuristic in which a colony of artificial ants cooperates in explain Good solution to a combinational optimization problem. Wireless sensor consisting of nodes with limited power is deployed to gather useful information From the field. In wireless sensor network it is critical to collect the information in an energy efficient Manner.ant colony optimization, a swarm intelligence based optimization technique, is widely used In network routing. A novel routing approach using an ant colony optimization algorithm is proposed for wireless sensor Network consisting of stable nodes illustrative example details description and cooperative performance test result the proposed approach are included. The approach is also implementing to a small sized hardware component as a router chip simulation result show that proposed algorithm Provides promising solution allowing node designers to efficiency operate routing tasks.
The manufacturing process of copper foil involves electrolysis or rolling, with each method providing specific advantages. The electrolytic method includes dissolving copper in an electrolyte solution and passing an electric current through the solution, which causes the copper to deposit onto a rotating drum, forming a foil.
Introduction of the company ,Market structure ,Cost structure, Substitutes and complement goods , Major current and past reasons for variation in demand and supply,Regression analysis for past 10 years ,Forecast variable ‘sales’
Chemical Specifications for Raw Materials Used in The Kufa Cement Industry in...Jameel Tawfiq
This paper aims to provide background information on raw materials included in the cement industry that have chemically examined. The raw materials entering the factory examined, which include stone, crude oil, iron dust, sand, and gypsum, as it found that the total carbonate ratio is 89 percent as a weight ratio and the sulfide is smaller or equal to 1 percent as a weight ratio, and the magnesium carbonate is smaller or equal to 3 percent. For iron dust with sand, the total carbonates of the mixture were smaller or equal to 85 percent, and magnesium carbonate was smaller or equal to 3 percent. Silica oxide also examined in the sand were the results of the examination were greater than 85 percent. For sulfide oxide smaller than 1 percent, as well as for iron dust, the proportion of oxide Ferric is higher than 55 percent, the percentage of alumina oxide is less than 10 percent, silica oxide is less than 20 percent, as well as for crude oil, as it contains less than 4 percent of sulfide oxide, as well as primary and secondary gypsum examination, and it found that sulfide oxide is greater than 31 percent if the gypsum is Secondary and greater than 42 percent if the gypsum is primary. Materials are non-soluble smaller than 8 percent if it was secondary gypsum and less than 5 percent if the primary gypsum. Where these models examined and analyzed, and the storage location of the models examined were determined.
Concrete bricks are durable and versatile building materials utilized in various architectural and infrastructure projects. These bricks are manufactured by mixing cement, sand, aggregates, and water, resulting in a hardened product with excellent compressive strength and resistance to weathering.
The rising demand for cement based paints from the construction industry is driving the cement based paints market. They protect the surface from severe climatic conditions, such as heat, humidity, rain, salt atmosphere near seashores, etc.
Read more: https://www.syndicatedanalytics.com/cement-based-paint-manufacturing-plant-project-report
Top Ten Companies in Technical and Advanced Structural CeramicsReportLinker.com
REPORT HIGHLIGHTS-The North American market for technical and advanced structural ceramics was $3.2 billion in 2010 and $3.4 billion in 2011. This value is expected to increase to $4.4 billion in 2016, a compound annual growth rate (CAGR) of 5.1% between 2011 and 2016.-Bioceramics, the largest segment constituting 64% of the 2011 total technical and advanced ceramics market, should continue to hold that much of the market over the next five years.-The advanced armor and military market is expected to show slower growth than in the recent past due to the gradual U.S. disengagement from Iraq and Afghanistan.SCOPE OF THE REPORTThe qualitative and quantitative judgments in this report represent a valuable contribution to the knowledge of leading companies in advanced and structural ceramic materials, components, processing techniques, applications and markets.
Demand across Construction and Packaging Industries to Help GCC Molded Plasti...Paresh Choudhary
The GCC molded plastics market will expand at a healthy CAGR of 8.3% over the period between 2015 and 2023, and rise from a valuation of US$7.19 bn in 2014 to US$14.22 bn by 2023. In terms of volume, the GCC molded plastics market stood at 2.82 Mn tons in 2014.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
NO1 Uk best vashikaran specialist in delhi vashikaran baba near me online vas...Amil Baba Dawood bangali
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Study of The Technological Profile of The Red Ceramic Industry of Alagoas
1. B. P. D. C. P. de Oliveira et al. Int. Journal of Engineering Research and Applications www.ijera.com
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Study of The Technological Profile of The Red Ceramic Industry
of Alagoas
Bruna Pinto de Cerqueira Pedrosa de Oliveira*, Luciana Peixoto Santa Rita**,
Eliana Maria de Oliveira Sá***, Reynaldo Rubem Ferreira Júnior****
*( Federal University of Alagoas – UFAL, Brazil; FIEA-Federation of the State of Alagoas Industries)
** Federal University of Alagoas – UFAL, Brazil)
***( Federal University of Alagoas – UFAL.; FIEA – Federation of the State of Alagoas Industries; FACIMA –
Faculty of Maceió city, Brazil,)
****(Federal University of Alagoas – UFAL, Brazil.)
ABSTRACT
The red ceramic industry in Brazil is a sector that is growing every year, characterized by the production of
ceramic tiles as brick, tile, ceramic blocks, which basically uses, as main raw material, the clay. Due to the
constant evolution of mechanization and production increase, plus the emergence of new companies, it is clear
that processing techniques as well as technological modernization are key to achieving a higher performance
segment of red ceramic process thus winning, this way, the market, about terms of competitiveness and
productivity. This time, watching these aspects, the present study aims to analyze the technological landscape of
the production process of the Red Ceramic Industry in Alagoas State, with regard to equipment used in the
manufacturing steps, checking for the possibility of existing technological levels these industries in Alagoas in
its production process, analyzing these, aiming thus conduct a study of the technological profile of the Red
Ceramic Industry. The methodology will support the field research through questionnaires with entrepreneurs as
well as qualitative bibliographic nature, with content analysis. Thus, the data surveys have indicated the
existence of technological levels for this segment, mapping the characteristics of the productive process and its
technological profile in the State of Alagoas and can verify in a few steps a possible disharmony. Therefore, by
the the analysis of the data allowed the highlight of four steps to the red ceramic production process, these being
the extraction of raw materials, the conformation of parts by molding and extrusion, and thermal processes
through the final stages of drying and burning, considering the existence of technological levels by analyzing the
study of technological profile, with regard to equipment used in the production process of state Red Ceramic
Industries.
Keywords: Disharmony, equipment, technology, Production process, red ceramic.
I. Introduction
The red ceramic industry or structural ceramics
is a big growth in the national and state market,
characterized by the production of ceramic artifacts
used in the construction sector such as brick, tile,
ceramic blocks, using basically as the main raw
material, the clay.
It is observed that with the constant evolution of
mechanization and the production increase, plus the
emergence of new companies, processing techniques,
and technological modernization are key to achieving
a better performance in the production of red ceramic
process thus winning the market, in the terms of
competitiveness and productivity.
Given the production growth over the several years,
are the technological changes that favor increased
production and competitive advantage. May, this
way, find different existing technological levels
among firms that make up the industry structure,
pointing to the existence into the industry, of cost
differentials of production and profit margins from
the technology employed.
Considering these aspects, this study aimed to
analyze the technological landscape of the production
of the Red Ceramic Industry process in the State of
Alagoas, with regard to equipment used in the
manufacturing steps in order to conduct a study of the
technological profile, characterizing and identifying
technological levels found, and whether they are or
not in harmony, in addition to a brief analysis on the
national scene and local industry for the most
productive regions of red ceramic.
For the identification and characterization of the
technological profile of the ceramic industry in the
state of Alagoas was used the methodology of field
research by collecting data by questionnaires with 22
red ceramic industries of the state, selected because
of the updated industrial register through lists
provided by the registration of the Federation of
Industries of the State of Alagoas (AL FIEA-)[1], as
RESEARCH ARTICLE OPEN ACCESS
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well as registration data provided by the Union of
Industries of the State of Alagoas Ceramics
(SINDICER- AL)[2], order with a more qualitative
sense collection, rich in information.
Thus, the need to study the technological profile of
the sector under discussion was due to the need to
define the competitive capacity of industry
competition pattern within the state.
II. Technological profile
Win a good competitive performance is one of
the main goals of the companies in various
productive sectors. Therefore, it is necessary to use of
certain competitive strategies, as an example
implementation of technological differential with an
efficient production capacity to the detriment of
competitors.
Importantly, due to the constant changes and
developments in the market and the world today,
many companies need to be aligned with these
developments, the end of an adjustment and
monitoring of technological change to win the
market. Technology plays an important dominant role
in the well-developed and successful companies, this
is a productivity tool, however, these technological
issues are not often seen as a competitive advantage,
rarely are among the normal inputs for planning and
corporate development . Some companies remain in a
technology gap, technological changes arise and
many entrepreneurs remain in inertia, moving away
from the productive competitiveness.
The insertion of a variety of equipment, materials,
special techniques, modern processes define an
improved production quality and higher performance
consecutively increasing productivity. That is, the use
of these technological tools impacting positively on
competitive advantages and differentiating itself from
its competitors, also adding greater efficiency to
production activities, giving a growth as a whole. An
example is the change of manual materials for
machine tools, requiring not a task force of man, but,
the machine performance.
Currently, the instantaneous changes in the global
scenario of the economy and the entire industrial
market caused by technological innovation, either
through new version of equipment that appears,
changes, improves allow greater flexibility and more
efficient production. Given the fact, there is a need
for this technological adaptation influencing
companies in all industries and especially
construction, to adjust their technological change.
Thus, the segment of the ceramic technological
suitability of the industries in this sector is a
combination of constant evolution of the market and
a good infrastructure as well as the development
prospects of knowledge with regard to the
technological advances of the equipment used in the
production process, thus contributing to the success
of the organization, as the constant changes in the
industrial landscape.
III. History of the red ceramic industry
sector
From the origin of the ceramic word, this is
derived from the Greek "kerameikos" which means
"made of earth." Thus, the red ceramic is so called
because of its reddish pigmentation in the final
product, due to the type of raw material used for their
preparation.
Under the name of Red Ceramics, to include products
such as brick and its variations, constituting a group
of rustic products where the finish hardly occurs. It is
also known as structural ceramics because of use in
the building structure. The red or structural ceramic
industry is classified, according to the Brazilian
Institute of Geography and Statistics - IBGE, as the
manufacturing industry in the field of activities called
"non-metallic Transformation".
Red ceramic products have their development within
all people, whose lack of stone buildings was
constant. But it was the Romans who implemented
new techniques and improved manufacturing pottery
as industrial activity, through the growth of large
buildings of that time. The segment uses clay as the
main source of raw material producing structural
ceramic artifacts, building components, manufactured
by burning masses basically formed by mixing
common clays used by the segment as a source of
raw material products, and used in masonry.
Thus, the main products originated from red ceramic
are: brick, structural ceramic blocks, slabs and tiles.
The solid bricks used in foundations, walls and
pillars; As well as the ceramic sealing blocks or
hollow bricks, used to fill walls structured in concrete
and small works; The structural ceramic blocks, used
for most grandiose works such as building Slabs, for
the assembly of precast slabs, along with the beams
of reinforced concrete. The tiles are used for roofs,
virtually all regions of the country, offering wide
range of conformations and technical characteristics,
by reason of market requirement.
The manufacturing process of originating products of
the ceramic is well known and is dominated by many
ancient civilizations such as China, Babylon and
Greece Hellenic some seven thousand years.
(SECTME, 1990)[3]. In mid-1549, with the arrival of
Thomas de Souza to Brazil, the production of
ceramic artifacts for the construction of houses is
strongly encouraged, with a view to the growth and
development of more designed and organized cities.
In 1575 there are traces of the use of tiles to form the
village that was to become the city of São Paulo.
According to data from the annual non-metallic
mineral red ceramic industry (2010, p. 63) [4] "first
major factory the ceramics of Brazil was founded in
São Paulo in 1893, four French, natural brothers of
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Marseille, with the name "Merchants Sacoman
Frères" later changed to "Ceramic Sacoman SA",
which ended its activities in 1956. The name of the
tiles known as "French" or "Marseilles" is due to the
origin of entrepreneurs. "
Thus, it is observed that the red ceramic industries in
Brazil have evolved, but still have to improve in the
past, due to a number of market and cultural factors.
Unlike the European market, many Brazilian
companies continue with the handcrafted production
process, producing on a small scale, obtaining low
profitability in the business, and therefore having
trouble investing in automation of the production
process having a great threat due to the suitability and
distance from technological developments to meet
the market.
IV. Red ceramic industry sector
panorama
The industrial landscape of companies, be these
micro or small size is growing, having a great
significance role in the economy and society, through
the distribution of income, for the absorption of hand
labor and meaningful participation in Gross Domestic
Product (GDP). Meanwhile, despite the great
expansion in some sectors, certain small businesses
offer a low technological and organizational
development, which may lead to your advances
competitive, productive, and its own survival.
This situation reflects in part the above segment of
the ceramic unaccompanied the upgrades over the
years with regard to technological innovation and the
development of the organization, thereby achieving
productivity lag behind other sectors. So many of
these companies, make up an organizational system
even family, having a craft and manual production
process and an archaic infrastructure, with the aid of
low-efficiency equipment for the production of final
products.
In general there is a predominance of micro family
businesses and small and medium businesses using
traditional production processes is used mostly just
for the experience, not scientific, there is a very large
deficiency of skilled labor, mechanization and
technological advances and solutions focused on
competitiveness. In this context, the clay industry
needs support through the deployment of advanced
techniques already in the technological question of
production equipment for the development of the
sector, in order to avoid a decline and a segment gap,
thanks to advances competitive market that are being
imposed.
In compliance with the panorama of the ceramic
industry in Brazil, there is the red or structural
ceramics industry integrates the processing of non-
metallic1
minerals industries as part of the set of
supply chains that make up the complex construction,
or is, segment basis for building, forming the
foundation of every enterprise.
According to the National Association of the Ceramic
Industry - Anicer, the geographical location of plants
is determined primarily by two factors: the location
of the deposit (due to the large amount of raw
material processed) and proximity to consumer
centers (according to the costs of transport). The
segment income tends to remain at the production
sites with economic and significant impact. The main
products are bricks, bricks and structural, natural
colored tiles, packing elements, pipes, floors and
other materials that make up over 90% of the
masonry and roofing used in the country (BNB,
2012)[5].
According to the data of Anicer, O number of red
ceramic companies is approximately 7,400 there is a
trend of increased participation of larger enterprises
in domestic production. Initiatives of the business
sector led Anicer and state associations and in
partnership with SEBRAE [6] and SENAI have
implemented changes in the industry in recent years.
It showed that the segment increased by 70% of
companies qualified in the Sector Program of quality-
PSQ of ceramic blocks and 57% of qualified
companies of ceramic tiles. (BNB, 2012[5]).
In 2010, according to the Anicer Brazil had the same
amount of company approximately 7,400 red ceramic
companies, of which about 1% had earned
certification from partnership between Anicer,
SEBRAE and SENAI[6]. In this sense, as set forth
above that percentage of qualification has increased
and the growth of the construction industry in 2012
of 3.6% has given the red ceramic industry this very
promising outlook.
The Brazil, as well as countries Spain, Italy and
China are major producers of ceramic artifacts.
According to the Statistical Yearbook 2012
Nonmetallic Transformation Sector, compared to
developed countries, such as Spain, one of the largest
red ceramic producers in Europe and the US,
consumption and production in Brazil put the country
as one of the world's largest, behind only China and
1
The non-metallic minerals industry is characterized
as a "native" industry of the region, with a distinctly
family-run structure, particularly in the red ceramic
segment, where the presence of micro and small
potteries is still important. This is an industry that
relies on the exploitation of deposits with the
presence of large number of micro and small
enterprises, including informal conditions (BNB -
2010).
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India, however Brazil has its production directed
mostly for their own consumption.
According to data from the Ministry of Mines and
Energy (MME)[7] the production obtained in 2013
was about 90 billion parts produced very positive
effect allowing the growth of graphic civil. O
construction 1 presents data indicating that there was
in 2008 accumulated to 2012 a growth of 76 to 90
billion pieces in the Brazilian production of blocks
and bricks as tiles, producing 27 billion and 63
billion tiles bricks and blocks in 2012, according to
Ministry of Mines and Energy (MME / 2013)[8].
Graph 1 - Brazilian production of red ceramic
(Billions of pieces) 2012.
Source: Adapted, Ministry of Mines and Energy
(2013)
Graph 2, still building on the date of the Ministry of
Mines and Energy (MME / 2013)[9], shows the
distribution of per capita consumption of the
Brazilian ceramic industry products, there is a higher
concentration in the southeastern and southern
regions, with 65.2% market share, followed by the
northeast with 22.5%. Virtually all Brazilian
production is consumed by the domestically market,
which, the already pointed out is a feature of this
sector. This Explains why the distribution of
production at the level is much like the regional
consumer market in the three main regions: Southeast
accounts for 42.2%; the south by 23%; and the
northeast by 22.5%.
Graph 2 Distribution (%) of the Brazilian
consumption per region and per capita 2012
Source: Adapted, Ministry of Mines and Energy
(2013)
The ceramics produced in Brazil are distributed in
order of importance, in the Southeast, South and
Northeast, especially Santa Catarina, Rio grande do
sul, Rio Grande do Norte, Bahia and Pernambuco.
The third largest red ceramic producing region of the
country is the Northeast and has the largest producing
states in descending order: Bahia, Ceará, Rio Grande
do Norte and Pernambuco.
It is observed this industry is present throughout most
of the Northeast, due to the large concentration
privileged by the proximity of the source of raw
material, ie, the existing clay deposits in this region.
This segment being inserted into the group of the
main traditional industries in the Northeast.
The ceramic industry in Alagoas manufactures
bricks, tiles, blocks and tiles, especially for the
production of ceramic bricks and blocks. Currently,
there are 31 small formalized and associated
companies to the Union of Industries Ceramics in
Alagoas (Sindicer)[2]. Together, serve approximately
40% of the local market demand. By the
characteristics of the product, in the state, the ceramic
produced is consumed domestically by construction
segments and retail construction.
Most of the companies that comprise this segment it
is micro family businesses, or small and medium,
using generally technologically simple production
processes. On the other hand, uses a small number
processes with more current technologies, such as
semi-automatic loading and unloading systems and
tunnel ovens. They are scattered throughout the state,
there are large concentrations of this type of industry
due mainly to the availability of raw materials.
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V. Steps in the process of red ceramic
production
To help define the Technological Profile of the
Red Ceramic Industry (ICV) of Alagoas is very
important to study the stages of the production
process of the ceramic and their technological levels.
Processes for the manufacture of various ceramic
segments resemble partially or totally. These
processes may differ depending on the type of
workpiece or material desired, thereby comprising a
general procedures for preparation of the raw
material and the mass forming parts, heat treatment
and in some cases the finish.
In a clear and concise manner the basic steps of the
red ceramic industry production process are divided
into four, and displaying throughout the study in
detail. These steps are divided into four: a)
extraction; b) mixing / molding; c) drying and d)
firing. Ceramic materials are generally manufactured
from the composition of two or more materials, as
well as additives and water or other means. Even in
the case of the ceramic, for which no clay is used as a
raw material, two or more types of clays with
different characteristics in their composition, existing
in that case the dosage of raw materials and additives,
to be followed with mass accuracy formulations
previously established.
So the first step in the production process of red
ceramic is the extraction of raw materials
characterized by mining activities and clay pottery in
storage yard, preparing the dough to be used for the
production of ceramic artifacts. However, it is
important to mention that this first step of the process
is used only for a limited group of companies, or
enterprises that have these clay deposits themselves.
For those without the deposits, the output is receiving
from suppliers of the raw clay material by mixing the
massapê clay and red clay. For companies who
receive the clay mass of third parties, mass check one
it is necessary to avoid possible materials that may
damage equipment of the following steps and even
the quality of the ceramic pieces.
After preparation of the mixture consisting of various
types of clay, water and waste, is the formation of
mass and run the second stage mixing / molding. The
raw material undergoes a process initially preparation
(combination of fat to lean clay) and then forming, or
shaping pasta in the form of the desired product, and
there are several methods to form the ceramic parts
being the most widely used pressing, extruding and
cutting.
The production of a good ceramic mass is essential to
acquire a high-quality product, thereby reducing
losses and improving process performance. It is
important to note that because there is a great
diversity of types of clay can lead to problems in the
mix, it implies different combinations of clay paste
(black clay) and sandy (red clay). The lack of balance
in this dosage should, depending on the excess or
lack of plasticity in the clay paste, leading to
difficulties in molding, drying and firing. In this
sense, Anselmo Boschi (1980)[10] states that:
The mixture of plastic clay (black clay) with
degreaser (red clay) initiates the ceramic mass
preparation process. The proportion (dosage,) of the
mixture depends, exclusively, on the type of clay
used. This is because there are rich in clays and clay
minerals in poor sandy skeleton (called fat), whereas
no other rich and poor sandy clay minerals skeleton
(called lean). The excess of fatty plasticity clays
difficult the molding parts, because of the high
degree of adhesion thereof as well as the duration of
this drying process because, if forming a surface
layer (dry) which shrinks very closing the pores and
not allowing the continued dewatering. This causes
deformations and ruptures in the product. The
solution to this problem consists of reducing the
plasticity of the clay, by mixing with materials that
are rich in sandy skeleton, such as red mud. Thus, the
combination of fat and lean clay depends on the
plasticity of the first level.
This step, as well as other steps influence product
quality and productivity of the company, need is a
good mix of clay mass in order to obtain a quality
product, avoiding possible deformations and breaks
in pieces the next drying steps and burning. The
folder forming process itself does not present major
complications, however, are needed some care to
avoid discontinuities in the surface of the parts.
Hence, after being properly mixed, the clay mass
takes the shape of the product - the tile and / or brick,
etc.. - through the molding operation. Thus, to form
the ceramic products the most widely used methods
include: pressing, and extrusion.
Extrusion is a widely used method conformation
where a rigid plastic mass is "pushed" through a
nozzle to form a continuous section bar, used to
produce complex shapes like bricks and covers for
slabs. The machine used is a vacuum extruder also
known as "cowshed", where the plastic mass is
placed therein being compressed and forced by a
piston or auger through the nozzle with a given
format. As a result one gets an extruded column
cross-section in the shape and size desired
consecutively, this column is cut, thereby obtaining
pieces such as hollow bricks, blocks, pipes and other
regular shape products.
The extrusion may be an intermediate stage of the
formation process, followed after cutting the extruded
column, pressing as it is the case for most of the tiles.
In the method of pressing, is used whenever possible
granular masses and low moisture content. There are
several types of press used, such as friction, hydraulic
and hydraulic-mechanical and may be mono or dual
action and still have vibration devices, vacuum and
heating.
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For many applications isostatic presses are employed,
whose system differs from the others. The granulated
mass with nearly 0% moisture is placed in a rubber
mold or other polymeric material, which is then
sealed and placed in a chamber containing a fluid
which is compressed and therefore exert a strong
pressure evenly in the mold.
Thus, the conformation of the parts is based on the
cut that can be made with manual or automatic
cutters being used to give the desired product size.
The cut pieces may be removed manually or
automatically. After cut, by visual inspection, the
pieces are selected and sent to the drying industry.
Have defective parts are reintroduced into the stock
preparation stage.
Upon completing the process of forming of the
pieces, the process begins, which is of great
importance for obtaining sum and the ceramic
products, since this depends on the development of
the ultimate properties of the ceramic products,
comprising the final steps of drying and firing of the
production process. After finishing the training
process, the parts mostly still wet with the presence
of water, from the preparation of the dough.
According Viera (2003)[11] "The objective of drying
is to remove water used in the forming step,
necessary to obtain a plastic mass."
Thus, not to cause deformation and even cracks in
parts, there is a need to remove this water is left to
slowly and gradually, resulting in the drying stage,
third stage of the production chain. The drying step
has two very different technological stages: natural
drying and artificial. Natural drying, through
greenhouses and artificial drying through dryers.
Natural drying is that performed in sheds with canvas
cover or not being understood less productivity
because of a major delay for drying the parts, being
much slower and empirical, with duration of around 7
days, according to which can occur situations that
cause the appearance of tensions and cracks because
of not control the temperature, preventing the burning
of parts. However, it has a low cost compared to the
artificial drying.
Already the artificial drying has greater agility and
productivity through the use of dryers with
temperature control when the latter is restricted to
large enterprises, and can also be accomplished
through the greenhouse. In the case of artificial
drying, are also observed three technological stages,
through an intermittent process, semi-continuous and
continuous in this sense Ferreira Jr, through their
studies have to clarify with relevant notes about these
three cases:
The flash dryer is carried out in still cameras,
which have fans which draw hot gases from pipelines
drawing the kiln and after mixing them with the
ambient air temperature control, are injected in those
chambers. However, it is considered either
intermittent transport of the pieces cowshed as well
as for the dryer to the furnace, after drying, is
manual: made by workers with hand trucks aid. The
semi-continuous dryer differs from the first to have
automatic load, leading the pieces into the static
chambers, leading to changes in the structure of the
chambers that are replaced racks moving on rails.
Continuous dryer has the same static chambers of the
previous level, however, has automatic loading of
both the cowshed vacuum into the dryer as this into
the tunnel kiln. (FERREIRA, JR. 1990)[12]
Moreover, in the drying phase there is a need for
more careful attention and parts, as "number of
variables must be taken into account, such as the
nature of the raw material, the dough preparation
process, the form and the size of the product, the heat
source, the casting method, the weather, etc. ".
(Ferreira Jr. 1990)[12]. Another factor is that
compliance after the step of drying the ceramic parts
are more prone to cracks and shocks, necessitating a
more careful handling even at the time of transport to
another stage of the production process.
The stage of completion is burning, the last phase of
the production of ceramic pieces. In this step, also
known as sintering, the heat causes chemical and
structural transformations in the clay mass,
transforming the raw features in ceramic properties
(resistance, color, etc.), and these parts acquire their
final properties.
After the drying step, the ceramic pieces are
subjected to a further heat treatment with
predominantly high temperatures for most of the
products is between 800 ° C to 1700 ° C. Intermittent,
continuous or semi-continuous furnaces are used. In
this firing step changes also occur depending on the
weight of components, such as weight loss,
development of new crystalline phases, glassy phase
formation and welding of the grains.
Thus, the product has dried the drying step is led to
an oven, thus performed in continuous firing furnace
(tunnel) or semi continuous (Hoffmann) or the kilns
(paulistinha, Caieira, crown, carboy) at temperatures
800 to 1000th according to the kind of product,
through the preheating stage (up to 200 ° C), low heat
(between 200 ° C and 600 ° C) and high heat (600 °
C to the maximum firing temperature), temperature
and cooling support.
Due to these temperatures, it is necessary utmost care
and attention, as well as drying, so as not to cause a
risk and loss of product due to any deformation due
to uneven exposure or increased temperature. Thus,
on these changes, it can be said that: requires the
need.
[...] Burning of course take place complex
transformations that require the heating up and
cooling a characteristic gait for each product.
Moreover, performing these transformations requires
a certain time, which means prolonged maintenance
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of high temperature. Thus, driving a ceramic burning
requires a thorough study in all its details. (Norton,
1973).[13]
With this, the furnaces are modified according to the
size and how is harnessed the heat, the duration may
be longer or shorter to oven the pieces, burn them and
take them out oven after cooled. To determine the
burning characteristics of two key factors are: the
product to be burned and the type of oven. The
flashing oven operates in load periodic cycle, burns
and discharge, are divided into: Caieira oven,
paulistinha oven(rectangular), dome oven, metal
furnace and wagon oven. The Caieira oven features
rudimentary design and low thermal efficiency,
having a single chamber or furnace at the bottom next
to the pieces to be burned. The flue gases leave the
furnace through the top, which features a protective
of tiles. In general, the total firing cycles are of the
order of 4 to 6 days.
The second intermittent furnace, paulista furnace, is
rectangular with side burners, widely used for firing
tiles, however, is uneconomic and difficult to operate.
In return there, to observe the cost / benefit of this
oven. For good parts, more focus on the monitoring
and distribution of heat is necessary, constantly
keeping the speed of burning, since a high or low
temperature may eventually jeopardize some ceramic
pieces is in its color or even different resistances even
in the same lot. The vault batch furnace is one of the
best for tiles, despite lower quality and productivity.
Another negative appearance of this oven is not
speed information and oven temperatures at which
these temperatures is often quite high, reaching a
possibility of burning the pieces.
The metal flashing oven comprises a rectangular
metal box on wheels supported on the suspended
ceiling inside. Unlike the other kilns, your drawing is
done in reverse, with its floor in two areas of drawing
screens gases. At the moment the oven completes the
combustion process, it moves toward the other
screen, where the material piled on the screen need
not be downloaded. During what would be another
step in the oven would be discharged, is now being
held the next stage of burning, providing greater
flexibility, the increased production speed, reducing
the time and hand oven discharge work, making that
is direct shipment of the furnace material for the
truck. Its firing cycle changes from 4 to 5 days.
On the other hand, the Hoffman furnace semi-
continuous, has good productivity, despite a higher
cost of construction. Divided into several wells or
interconnected chambers (chambers 90 to 120) for a
center channel collector of exhaust gases or otherwise
attached to the furnace chimney, with natural or
forced draft. This burning operation occurs in each
chamber, once at a time, where the heat from the
burning chamber is relocated in parts to the chamber
beside, preheating the charge of the next chamber,
which then also come into phase burns. After heating
to the desired temperature, for the cooling of the
following discharge phase, being held in chambers
with air, which when heated, serves as combustion
air to enter the chamber at burning step. In general,
an oven Hoffmann, the cycle of a well takes about 40
hours, considering a period of 4 to 5 hours of direct-
fired heating for 15 hours and cooled for 20 hours.
The continuous operate in cycle of 24 hours / day,
without interruptions for loading or unloading parts.
The continuous furnaces is the tunnel that has a
technology and most advanced productivity of the
aforementioned, producing quality parts, however
requires a volume of continuous production and high
investment, where his firing cycle is usually 24-30
hours. They are complex, modern and efficient
furnaces and therefore require manpower trained for
operations. The conditions of temperature and
pressure throughout the oven gallery can be
monitored, thereby providing a more accurate control
of the burning process and better product quality and
finish.
This way, the firing step is the completion of the
production process of the ceramic, in which all the
steps are closely interconnected and influence the
performance of the entire production chain.
Completed these steps, the ceramic pieces are
removed from the oven, inspected and passed on to
the consumer, ending the production process of red
ceramic. However, it is important to note in some
cases the consumer desire itself, some parts require
additional processing given some features not
possible to be obtained during the manufacturing
process. This after-burning process receives a generic
name encompasses finish polishing, glazing,
pigmentation, among others, being routed after these
parts for sale.
6. Analysis of results
For in this way be defined the specifics of the
technological profile of ICV of Alagoas, it is used the
field research methodology to obtain data on the red
ceramic industries in the State of Alagoas through the
questionnaire with the responsible managers. In
addition, there were brief interviews with experts and
technical consultants of the goal with industry to
facilitate a greater understanding, perception and
notes with key aspects about the segment analysis.
Table 1 lists the companies surveyed are presented in
a total of 22 companies
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Table 1- Industries researched red ceramic and its municipalities
Source: Field study (2014)
Red ceramic industry City
Cerâmica Bandeira LTDA Capela
Cerâmica Esperança LTDA Matriz do Camaragibe
IR Martins Santana Palmeira dos índios
Comércio de Materail de Cconstrução Bezerra LTDA - ME Palmeira dos índios
A Caetano Silva ME Palmeira dos índios
Cerâmica Arapiraca LTDA Arapiraca
Nilson construções LTDA Arapiraca
Cerâmica ArablocoTDA Arapiraca
Nivaldo Ferreira de Lima ME Arapiraca
Cerâmica capelli LTDA Capela
E.F.V Silva Maragogi
Paixão e Carvalho LTDA Porto calvo
Cerâmica Mangazala LTDA Porto calvo
Cerâmica Manguaba LTDA Porto calvo
Cerâmica Camaragibe LTDA Passo de Camaragibe
Cerâmica A Alagoas Germano Fireman Rocha Murici
L. E. de Oliveira Costa- ME Boca da mata
Cerâmica do agreste Atalaia
R de Cássia da Costa cerâmica- ME Boca da mata
BC Barros cerâmica ME Boca da mata
JCP de almeida olaria Boca da mata
F.H. de Almeida Soariano São Miguel dos campos
As companies interviewed most have size Medium size 6 companies are small and 4 are potteries. Within the
products produced there is a predominance of the sealing block, the slab and the solid brick main ceramic
artifacts produced.Some stages of the production of the Red Ceramic Industry process (ICV) can be performed
both manually and mechanically, they are extracting, drying. The manual way is more used by potters because
the productive activity is more craft, with rudimentary equipment, as well as low productivity. On the other
hand, the major Ceramics possess a technology in its production process. Thus, of the 22 companies surveyed
18 of them perform the extraction of mechanized, as shown in Table 2.
Table 2 – Case extraction / Types of extraction
Source: Field study (2014)
Types Frequency (%)
Manual 4 18,18%
Mechanics 18 81,81%
From companies do a mechanized extraction, most uses of their equipment mainly the backhoe, bucket and
mechanical shovel. And for those who perform the extraction step manually, using equipment such as manual
picks and shovels.
The second stage of red ceramic production process is the step of forming the parts, to format ceramic artifacts
through processes such as pressing and extrusion, many are the equipment used for this phase, as shown in
Table 3 below.
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Table 3 - Process for the preparation / Equipment use
Source: Field study (2014)
Equipment Frequency (%)
Coffin feeder 12 54,50%
Disintegrator 10 45,50%
Homogenizer 2 9,10%
Mill 16 72,70%
Conveyor 17 77,30%
Electromagnet 3 36,40%
Beater 8 36,40%
Maromba will vacuum 12 54,50%
Automatic cutter 7 31,80%
Cooling Tower 7 31,80%
Extruder without vacuum 2 9,10%
Destorrador 3 13,60%
Manual cutter 2 9,10%
Cargo Automation 2 9,10%
In step of processing steps ceramics, it is observed in Table 3 that the conveyor belt is a highlight of equipment
used in most companies, with 77.30%, however this factor is explained due to its own manufacturing
companies, observation of this important reduction for visualization technology applied and the use of the
treadmill is not a differentiator equipment technological advancement. Moreover, the homogenizer is a device
which has a low utilization of the companies analysis 9.10%.
Table 4 - drying process / Drying types
Source: Field study (2014)
Types Frequency (%)
Natural 18 81,80%
Artificial open with dryer 0 0,00%
Artificial closed-dryer: Greenhouse5 22,70%
In the third step, the drying process has two very different technological levels: natural and artificial drying, the
latter may be by flash dryer, semi-continuous and continuous. Table 4 shows that about 81.80% of the
companies use natural drying sheds through with roofing tiles or canvas and about 22.70% have the kind of
artificial drying through the greenhouse.
Table 5- Process of burning / oven Types
Source: Field study (2014)
Types Frequency (%)
Intermittent 7 31,80%
Semi-Solid 14 63,00%
Continue 0 0,00%
In the last stage of the production process, the step of firing the ceramic pieces can prevail intermittent oven,
semi-continuous or continuous. Table 5 above shows that most companies focus their parts in semi-continuous
furnace with 63% in Second is the intermittent dryer with 31.80% and no company uses continuous dryer. Of
companies using the batch furnace there is a predominance of paulistinha oven(rectangular), dome, metalic and
wagon oven. As for the companies that use semi-continuous furnace is the predominance of the oven first type
Hoffman with center channel, and secondly oven type Hoffman without center channel and any type Hoffman
camera. And no company still operates with the technology of continuous tunnel type oven in the state of
Alagoas. Oven type this facilitating greater productivity and shorter period, however, the state does not have this
type of oven.
So with a more detailed analysis about the equipment used in red ceramic production stages, allows a greater
clarity and check for four technology levels in the production process for the preparation of parts of this segment
in Alagoas. That is, the process can provide both manual and naturally as in a fully automated level.
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These technological levels were identified as productivity (size) of the company and the equipment used in the
steps of the production process leading technological changes in the production structure. It is not the intention
of the boxes below suggests that the ceramic inserted in each profile have all the equipment listed in the tables,
but showing what types of equipment commonly found in the production process of ceramics identified in each
technological profile.
Considering the table 6 of the research, the first technological profile has a small production 7-14 tons per hour,
being made up of all equipment described in the table below. In general, companies that are in this profile 1 are
technologically in less developed level of the ceramic industry, developing products like massive brick 6 holes
and tiles, with low quality.
Table 6 Technological Profile 1- Production Line Small / Type A
Source: From the author
Steps Extraction Preparation Drying Burning
Equipment Picarretas Storage Silo Natural Oven intermittently Caieira
Shovels Horizontal mixer Oven intermittently Paulistinha
Transportation (animal traction) Maromba without Vacuum Oven intermittently Abóboda
Manual cutter
Carrier clay
Hourly production 7 à 14 t/h 7 à 14 t 7 à 14 t/h
Comments With a storage silo
Profile 1 equipment found in the extraction step are manual and archaic due to low productivity and lack of
technological equipment containing so, picks shovels and even the transport of parts through animals. In the
stage of preparation, by mixing and molding, the only mechanical equipment is the cowshed having mechanical
strength without vacuum laminator with a small cylinders coupled thereto, characterized by a low productivity
and demand for small building works, technologically level mechanized . All other equipment are in man's labor
force your engine. Drying is natural and in some cases held in small sheds, hindering an increase in production
due to climate change. Have furnaces are intermittent (Campaign, São Paulo and vault) and also small (with
burning capacity ranging between nine and fifteen thousand bricks, put into the furnace by).
From these technological informations, there is some proportionality between the units that make up the
different stages of the production process, both in capacity and in technological level, perceiving certain
alignment, technological harmony ceramics located in profile 1 operate in its production process, ie stable even
at a very low technical level.
Table 7 Technological -Profile 2 - Production Line Medium / Type B
Source: From the author
Steps Extraction Preparation Drying Burning
Equipmentos Dozer Coffin feeder Natural Intermittent oven - Metallic
Tipper Beater Artificial - Intermittent Intermittent oven - Wagon
Mill
Maromba will vacuum
Auto Cutter
Carrier clay
Hourly production 14 á 20 t/h 14 á 20 t/h 14 á 20 t/h
Comments With feeder coffin
Then Table 7 was analyzed the technological profile equipment 2 having an average output of 14 is 20 tons per
hour. Thus, this profile has a higher technological advancement compared to the profile 1 by the introduction of
vacuum equipment maromba (bounces forward and backward), increasing moderately productivity and quality
of the parts, a device which allows entry into the technological profile 2 . The profile 2 has a technologically
poor preparation in automation with the use of the maromba equipment such as vacuum (extruder vacuum),
coffin feeder, automatic cutter, as well as the conveyor belt, most of which has its own manufacturing. Drying is
used both naturally as artificial by intermittent dryer, developing in parts technology applied, since the burning
using metal kilns and wagon due to intermediate production capacity.
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Table 8 - Technological Profile 3 - Production Line Medium- Large / Type C
Source: From the author
The technological profile 3 is shown in the above table 8, whose productive capacity time ton and from 20 to 28
because of technological use of more equipment, producing an increase in the number of parts, with winter to
summer production due to drying is a method artificial. This advance in the automated development is
commonly found across a set of equipment used in the preparation step as can be seen above in facilitating
higher production of parts in a shorter time. Drying and burning already have a higher speed due to the increase
of production capacity, using this profile 3 artificial dryer semi-continuous and the stage of the Hoffman semi-
continuous burning oven.
Table 9 - Technological Profile 4 - Production Line Large / Type D
Source: From the author
Steps Extraction Preparation Drying Burning
Equipment Bulldozer Feeder feeder Artificial - Continuous Continuous Oven - Tunnel
Loader Disintegrator
Trucado truck Mill
Beater
Maromba Vacuum
Laminador- Refiner
Cargo Automation
Auto Cutter
Carrier with electromagnet
Hourly production 28 á 35 t/h 28 á 35 t/h 28 á 35 t/h
Comments With double lamination
The technological profile 4 presents ceramic products with a higher quality finish, due to the advanced
technological level of the equipment used in the stages of production of red ceramic, whose production is of
major companies with 28 to 35 t / h, as shown in Table 8 above . Some technologies are applied for greater
productivity and agility, so you can view the existence of equipment for that level: electromagnets, metering
feeder, automatic load. As well as a drying and firing more sophisticated and faster by the use of continuous
artificial hair of the continuous-tunnel kiln.
Thus, we identified the existence of four technological profiles in red ceramic industry in the state of Alagoas in
their production process. These levels guide up through the application of technology in their equipment
impacting the increased productivity of the ceramic pieces. Through these analyzes the data collected, as the
graph 3, of the 22 manufacturers of red ceramic existing in Alagoas, 7 companies operate in the profile
tecnológico1 already in the technological profile 2 4 companies operate. With the large majority of companies in
Alagoas potters working on the production line type C, ie the technological profile 3 and only one company in
the State operates in its production process in the profile 4.
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Graph 3 – Ceramic distribution technological profile in Alagoas
Source: Field Research (2014)
However, despite the classification of companies in their appropriate technological profiles as the production
process through the equipment used in these and productivity, it was found that there was a disharmony in the
stages of production company. This has been seen due some companies are used in a more advanced technology
in a production step and not in another, for example in the burning step is used as a more potent Hoffman semi-
continuous dryer, but on the other hand already in step drying not accompany this technology that level, the
absence of artificial dryer, using a natural drying, as shown in Table 10.
Thus, these disharmonies in production steps lead to technological incompatibility, impacting productivity,
considering that natural drying requires a longer period for completion of phase, reaching the other subsequent
steps. That is, a disharmony at the production by the absence of application technology compromises the whole
red ceramic production process. And this imbalance can be seen in all types of technological profiles found,
especially from 2 technological profile since the profile 1 is led to low productivity and lack of technological
equipments.
Table 10 - Red ceramic sample of companies in Alagoas by size and technological level of the production
process. Source: Field Research (2014)
Business Tools( Dryer type) Firing(furnace type) Production line
1 Artificial intermittent dryer Semi-continuous: Hoffman Average- large / Type C
2 Artificial with continuous dryer Semi-continuous: Hoffman Medium / Type D
3 Natural Semi-continuous: Hoffman Small / Type C
4 Natural Semi-continuous: Hoffman Small / Type C
5 Natural Semi-continuous: Hoffman Small / Type C
6 Artificial intermittent dryer Blinking: Vault Average- large / Type B
7 Natural Semi-continuous: Hoffman Medium / Type C
8 Natural Blinking: Vault Small / Type A
9 Natural Semi-continuous: Hoffman Small / Type C
10 Artificial intermittent dryer Blinking: Metallic Medium / Type B
11 Natural Semi-continuous: Hoffman Medium / Type C
12 Natural Semi-continuous: Hoffman Medium / Type C
13 Natural Semi-continuous: Hoffman Medium / Type C
14 Natural Semi-continuous: Hoffman Medium / Type C
15 Natural Blinking: Vault Medium / Type A
16 Artificial intermittent dryer Blinking: Metallic Medium / Type B
17 Natural Oven type not identified Pottery / Type A
18 Artificial intermittent dryer Blinking: Vault Medium / Type B
19 Natural Blinking: Paulistinha Pottery / Type A
20 Natural Oven type not identified Pottery / Type A
21 Natural Oven type not identified Pottery / Type A
22 Natural Semi-continuous: Hoffman Small / Type A
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The limitations of an economic cause certain
technological imbalances. However, despite lower
costs implementation of a natural drying, this
technology disharmony confronted with the
technology applied in other stages of the same
company has committed to the productivity of
ceramics, since they influence the other steps of the
production process . These economic and technical
aspects affect the lives of these ceramics in the
market, when they face their competitors.
Another factor that influences negatively with the
application of a low-tech as the case of natural
drying, when the ceramics that are not rigged with
artificial dryers, is the fact of the weather conditions
when they are forced to face a seasonality in
production, regardless market conditions.
In order to maximize optimization continuously in
the production process, an outlet for larger ceramics
that exhibit this kind of disharmony in their
technological profile is seeking to invest in building
more modern ovens as Platform or tunnel, allowing
harmony with the other steps and increased
production. Moreover, much of the ceramics in
Alagoas require the technological point of view
settings so they can operate throughout the year with
conditions to compete in the market.
VI. Conclusion
The steps of the implementation of coexistence
sometimes manuals, now automated in the same
company in the production process, whether small or
large it show the existence of technological standards
in the segment of the Red Ceramic Industry (ICV) in
Alagoas.
Thus, the ICV production process can be performed
more manual archaic form, as well as a more modern,
mechanized technology. The first form is the most
rudimentary is used to lower yields characterized by
the degree of roughness. The second is applied in
advanced ceramics and higher productivity, having
inside a technology in their equipment, because the
production of more elaborate ceramic pieces and with
a better finish. Thus, a technology used in the
production process ensures higher productivity and
greater competitiveness of the ceramic parts in the
market.
After the approaches and explanations of the steps of
the ceramic industry of the production process as
well as through the results obtained from the
questionnaires with the potters of Alagoas, were
identified the existence of four technological levels as
the technology involved in the steps equipment
production beyond the capacity.
The red ceramic companies in the State of Alagoas
despite having a positive technological level and
developed with technological advancement in their
equipment, where most potters companies were
identified in the technological profiles 2 and 3, have a
disharmony in their production stages, making it
difficult -If an increase in production due to
technological unevenness of the other steps of the
process, impacting on production capacity. That is,
there are still major challenges to overcome the
technological point of view so that they work in
harmony, setting up technologically with the entire
industry production cycle of red ceramic in the State
of Alagoas.
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