A composite material is made out of a mixture or a combination of two or more distinctly differing
materials which are insoluble in each other and differ in form or chemical composition. The technological and
commercial interest in composite material lies in their superior properties of strength-to-weight, stiffness-toweight,
fatigue and thermal expansion compared to metals. Extensive use of composite in application such as
rockets, satellites, missiles, light combat aircraft, advanced light helicopter and trainer air craft has shown that
India is on par with the advanced countries in the development and use of composites in this area.
Drilling is probably the most important conventional mechanical process and it is the most widely used
machining operation. Prediction of cutting forces for any set of cutting parameters is essential in optimal design
and manufacturing of products. It has been predicted that most of the problem associated with hole making
operation, such as drilling, can be attributed to the force generated during cutting operation. Many
developments and experiments are going on drilling of Sandwich composite for damage free drilling along with
the quality of the hole and the effect of tool geometry and tool material.
This paper aims at the comprehensive analytical and experimental investigation work done on the
composites material. The conclusion of the paper discusses the development and outlines the trends for the
research in this field.
Experimental Study of Mechanical Properties and Drilling Properties of Glass ...IJERA Editor
The use of glass fiber polymer composite materials are on the rise due to their special properties like high specific strength and stiffness, excellent corrosion resistant, high damping, low thermal expansion high factor toughness. Majorly it is used in the fields of aerospace and automobiles especially in defense use. Though, manufacturing of these of these laminates are easy to their required shapes but obtaining a drilling in the laminate poses difficulty, due to its anisotropic non homogeneous nature. The rate of rejection at the final stage due to non selection of right machining drill parameters which makes the researchers to find the optimal solution effectively. Sometimes rejection rate accounts up-to 60% and hole drilling being one of the last operations creates many problems, mainly delamination stress concentration and improper hole quality with impounding higher cost factor. This paper presents an investigation on aspects of various mechanical properties and drilling of Glass fibre Mat Composite. Drilling experiments was conducted to study the delamination factor and hole quality on GFRP composites. Also the study carried out for Tensile Strength, Hardness and Flexural Strength of Glass Fibre Composite
ER Publication,
IJETR, IJMCTR,
Journals,
International Journals,
High Impact Journals,
Monthly Journal,
Good quality Journals,
Research,
Research Papers,
Research Article,
Free Journals, Open access Journals,
erpublication.org,
Engineering Journal,
Science Journals,
Influence of Thrust, Torque Responsible for Delamination in drilling of Glass...IDES Editor
Glass fabric sandwich composites are potentially
growing materials which satisfies the low strength to weight
fraction, thermal conductivity, high strength and long
operational lifetime required for key engineering applications
especially in the field of Mechanical and Aerospace structures.
With their wide range of application, their manufacturing
and machinability characteristics are interesting to
investigate. Drilling is one of the prime manufacturing
processes used in assembly lines of components for fastening
and joining two components. In this study, Glass Fabric – Epoxy
/ Rigid polyurethane foam sandwich hybrid composite is drilled
in Arix VMC 100 CNC drilling machine using High Speed
Steel (HSS) drill bit of three different diameters of 6 mm, 8
mm and 10 mm. A L9 orthogonal array is setup to investigate
the result. Two main parameters that contribute to
delamination are thrust and torque. Thus in this
investigation, thrust and torque responsible for the effect of
delamination and hole quality is studied experimentally.
Scanning Electron Microscope (SEM) images are taken for
the drilled hole laminate to support the result.
Experimental Study of Mechanical Properties and Drilling Properties of Glass ...IJERA Editor
The use of glass fiber polymer composite materials are on the rise due to their special properties like high specific strength and stiffness, excellent corrosion resistant, high damping, low thermal expansion high factor toughness. Majorly it is used in the fields of aerospace and automobiles especially in defense use. Though, manufacturing of these of these laminates are easy to their required shapes but obtaining a drilling in the laminate poses difficulty, due to its anisotropic non homogeneous nature. The rate of rejection at the final stage due to non selection of right machining drill parameters which makes the researchers to find the optimal solution effectively. Sometimes rejection rate accounts up-to 60% and hole drilling being one of the last operations creates many problems, mainly delamination stress concentration and improper hole quality with impounding higher cost factor. This paper presents an investigation on aspects of various mechanical properties and drilling of Glass fibre Mat Composite. Drilling experiments was conducted to study the delamination factor and hole quality on GFRP composites. Also the study carried out for Tensile Strength, Hardness and Flexural Strength of Glass Fibre Composite
ER Publication,
IJETR, IJMCTR,
Journals,
International Journals,
High Impact Journals,
Monthly Journal,
Good quality Journals,
Research,
Research Papers,
Research Article,
Free Journals, Open access Journals,
erpublication.org,
Engineering Journal,
Science Journals,
Influence of Thrust, Torque Responsible for Delamination in drilling of Glass...IDES Editor
Glass fabric sandwich composites are potentially
growing materials which satisfies the low strength to weight
fraction, thermal conductivity, high strength and long
operational lifetime required for key engineering applications
especially in the field of Mechanical and Aerospace structures.
With their wide range of application, their manufacturing
and machinability characteristics are interesting to
investigate. Drilling is one of the prime manufacturing
processes used in assembly lines of components for fastening
and joining two components. In this study, Glass Fabric – Epoxy
/ Rigid polyurethane foam sandwich hybrid composite is drilled
in Arix VMC 100 CNC drilling machine using High Speed
Steel (HSS) drill bit of three different diameters of 6 mm, 8
mm and 10 mm. A L9 orthogonal array is setup to investigate
the result. Two main parameters that contribute to
delamination are thrust and torque. Thus in this
investigation, thrust and torque responsible for the effect of
delamination and hole quality is studied experimentally.
Scanning Electron Microscope (SEM) images are taken for
the drilled hole laminate to support the result.
A Review on Investigation of Tribological Behavior of Nanocoating for Piston ...IJLT EMAS
Nanocoating can help to improve performance and life
of automotive engine by reducing the wear between the engine
components. In this research have selected the proper material
for top piston ring and same material are to be selected for
preparation of pin for tribometer testing and material of cylinder
liner tested and fabricated the same material of tribometer disc.
Nanocoating by electroplated Chromium coating and Chromium
nitride using DLC method by PVD coating was done on
specimen pin and piston ring and this material which was used
tribometer testing.
Depleting fossil fuel resources, economic
competitiveness and environmental concerns has compelled to
explore newer avenues to improve efficiency of automotive
engines. Various techniques have been adapted to achieve this
goal.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Abstract In the last decades the composites have been widely used in the construction, automobile and aerospace industries. Among them,
Natural fiber composites are emerging as low cost, lightweight and superior alternatives to synthetic fiber composites. This study
related to the development of bio-degradable composites using Epoxy resin and Sisal/Jute fibers. The fibers are chemically
treated at different percentages of NaOH i.e.,3%, 6% and 9%. Tensile and flexural strength of the composites were determined
using UTM. The natural frequencies of the cantilever composite beam were determined analytically using Euler’s theory and
numerically using Ansys 15.0. From the results, the results agree close to each other.
Keywords: Sisal Fiber, Jute Fiber, Alkali Treatment, Modal Analysis.
Prepared a Glass Fiber Reinforced Plastic board and determined the optimal drilling conditions that would cause the least delamination using Design of Experiments.
Indirect Tensile Strength of Modified Bitumen Mixturedbpublications
The performance of flexible pavements depends on bituminous mixture and external factors such as traffic loading and weather conditions. Bitumen mixture is elastic, viscoelastic and plastic material where rate of traffic loading and weather conditions plays very significant role on its behavior .Conventional bitumen mixture is unable bear the present traffic volume and environmental conditions by considering this an attempt has been made to study the indirect tensile strength of modified bitumen mixture using cellulose fiber as a modifier. Higher tensile strength resist the cracks, fatigue and rutting which are common failure in the flexible pavements. For preparation of bituminous concrete mixture (BC) gradation has been taken as per MORTH (table no: 500-18) specification. Bitumen content is optimized at 5% and cellulose binder content has been varied such as 1%, 3% and 5% of total mix. Conducted different types of tests such as penetration, ductility, softening point and indirect tensile strength . It has been observed that the behavior of asphalt cement after adding the modifier differ from percentage to another, At 5% an ideal improvement to the fatigue and rutting resistance properties of the asphalt cement in terms of indirect tensile strength as compared with 1%,2% of modifier and conventional bitumen . The addition of 5% Cellulose is found more significant.
Influence of Carbon & Glass Fiber Reinforcements on Flexural Strength of Epox...IJERA Editor
Hybrid composite materials are more attracted by the engineers because of their properties like stiffness and high specific strength which leads to the potential application in the area of aerospace, marine and automobile sectors. In the present investigation, the flexural strength and flexural modulus of carbon and glass fibers reinforced epoxy hybrid composites were studied. The vacuum bagging technique was adopted for the fabrication of polymer hybrid composite materials. The hardness, flexural strength and flexural modulus of the hybrid composites were determined as per ASTM standards. The hardness, flexural strength and flexural modulus were improved as the fiber reinforcement contents increased in the epoxy matrix material.
EXPERIMENTAL STUDY ON WEAR BEHAVIOUR OF SIC FILLED HYBRID COMPOSITES USING TA...IAEME Publication
The popularity of composite materials usage is increasing due to its superior strengthcharacters racing the traditional materials in strength to weight ratio. The developments of new
materials are on the anvil and are growing day by day. In this work, two-body abrasive wear testwith different loads and abrading distances were performed at room temperature by using a pin ona disk apparatus to determine the surface hardness strengthof SiC filled Glass fiber reinforced
with epoxy resin hybrid composites. The results showed that the wear volume increased withincreasing abrading distance and the specific wear rate decreased with increasing abradingdistance and increased with load for SiC particle filled Hybrid composites. Among the filled Hybridcomposites tested, composites with 10% SiC by weightshowed a better tribological behavior result.Also, a taguchi’s experimental design approach to make a parametric analysis of wear behavior of10% SiCG-J-E, 10%SiCG-S-E and 10% SiCG-R-E.hybrid composites werestudied. The systematicexperimentation leads to identificationofsignificantprocessparameters and material variablesthat predominantly influence the specific wear rate.
Mechanical and micro structural characterisation of Pure Al reinforced with S...BALA VENKATA SATYA PRAKASH
This paper deals extensively with the preparation of functionally grade material reinforced in layer wise manner with different reinforcements in order to serve the tough conditions in automobile industries
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
Mechanical Behavior of Polymer Matrix Composite Materials Reinforced With Cer...IJCMESJOURNAL
In the present work, the mechanical properties of PMC specimens with various types of ceramic reinforcements were investigated. The PMC specimens were reinforced with glass, carbon fibers and Kevlar. The effect of the % content of the reinforcement material in the matrix and the effect of the applied strain velocity (2,4,6 mm/min) were found to affect the mechanical properties of the specimens.
Strength Evaluation of Steel-Nylon Hybrid Fibre Reinforced ConcreteIJERA Editor
When fibres like steel, glass, polypropylene, nylon, carbon, aramid, polyester, jute, etc are mixed with concrete known as fibre reinforced concrete. To overcome the deficiencies of concrete; fibres are added to improve the performance of concrete. In this research hybrid reinforced concrete is made by using steel and nylon 6 fibres. The inclusion of both steel and nylon 6 fibres are used in order to combine the benefits of both fibers; structural improvements provided by steel fibers and the resistance to plastic shrinkage improvements provided by nylon fibers. So the aim of this project is to investigate the mechanical properties (compressive strength, flexure strength and split tensile strength) of hybrid fiber reinforced concrete under compression, flexure & tension. The total volume of fibre was taken 0.75 % of total volume of concrete. In this experimental work, four different concrete mix proportions were casted with fibres and one mix without fibres. Four different mix combinations of steel- nylon 6 fibres were 100-00%, 75-25%, 50-50% and 25-75%. Superplasticizer was used in all mixes to make concrete more workable. The results shown that compressive, split tensile and flexural strength of hybrid fibre reinforced concrete increase by increasing quantity of steel and nylon 6 fibres. The increase in compressive and tensile strength due to incorporation of steel fibre is greater than that of using nylon fibre. For the nylon 6 fibres, adding more fibres into the concrete has a limited improvement on splitting tensile strength. Inclusion of nylon 6 fibres along with steel fibres results in considerable improvement in flexural strength as compared to solo steel fibre.
Analysis of the Flexure Behavior and Compressive Strength of Fly Ash Core San...IJERA Editor
In this paper, commercially available Fly Ash and Epoxy is used for the core material, woven glass fabric as reinforcing skin material, epoxy as matrix/adhesive materials used in this study for the construction of sandwich composite. Analysis is carried out on different proportions of epoxy and fly ash sandwiched composite material for determining the flexural strength and compressive strength, three different proportions of epoxy and fly ash used for the study. Those are 65%-35% (65% by weight fly ash and 35% by weight epoxy resin) composite material, 60%-40% and 55%-45% composite material. 60%-40% composite material specimen shows better results in the entire test carried out i.e. Flexure and Compression. The complete experimental results are discussed and presented in this paper.
Experimental Determination of Mechanical and Vibration Properties of Epoxy ba...IJMERJOURNAL
ABSTRACT: The organic polymer composites filled with inorganic fillers became an important area of research and development in recent years due to their applications in various fields. The aim of the present work was to fabricate and evaluate the mechanical performance of epoxy polymer composites filled with 30% weight percentage of carbon fiber and 2%, 4%, 6%, 8% of Silicon Carbide. The samples were prepared by hand layup technique as this method was easy to fabricate and having low tooling cost and results in the good surface finishand then composites weretested by using UTM and ATALON FFT analyzer. The DEWESOFT software was used to obtain the frequency response functions of the samples. The variations in properties with respect to change in weight of silicon carbide were obtained and represented by graphs. The composite with 30% of carbon fiber and 8% of Sic have shown improved performance in terms of flexural strength, tensile strength, tensile modulus and higher natural frequency indicating high stiffness value.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Dynamics of sandwich composite plate with holeSubhajit Mondal
The dynamic characteristics of sandwich composite plates with holes at various locations are investigated
both experimentally and through numerical simulations. The critical parameters which affect the natural
frequencies of such plates with holes or cut-outs are the core and face sheet thicknesses, diameter and
location of the holes and aspect ratio of the plate. A rigorous parametric study has been conducted to
determine their interrelationship and presented in a concise manner. An experimental investigation
has been conducted in the beginning to get an idea about the variations of the above mentioned parameters.
The results can be utilized to determine the changes in dynamic characteristics of sandwich composite
plates with holes with specified diameters and locations. The methodology can also be useful to
control the dynamic responses of such plates by incorporating holes of chosen diameters at appropriate
locations. The results may be used to create design curves for satisfactory dynamic performances of sandwich
composite plate with holes
Damage tolerance study of honeycomb sandwich structureeSAT Journals
Abstract
Composite materials are essential component in today’s modern world. Structural sandwich construction is one of the first form of composite structures. In this study honeycomb sandwich structure which is a peculiar type of composite structure was investigated for crashworthiness. They are manmade structures with a honeycomb geometry. It consists of three elements ; Top face sheet, Core, Bottom face sheet. They are widely used in aerospace industry, marine, rail, automotive industry, in construction field as prefabricated partition walls, mezzanine floor, doors etc. The main objective of this study was to assess the damage tolerance of honeycomb sandwich structure based on serviceability and safety of the structure ie. to understand ability of structure to sustain defects safely until repair/replacement is performed. Damage tolerance study was performed to know with how much load this structure would safely withstand and also to know till how much load this structure would be made serviceable, if a damage is caused to it. Investigations were performed on both damaged and undamaged specimens by conducting. Four point bending flexure test and Edgewise compression test based on ASTM standards. Also finite element modeling of honeycomb sandwich structure was developed and analysis of the two experiments were performed in Ansys. Ultimate load, tensile and compressive stress values etc. obtained from the two experiments were compared for both damaged and undamaged specimen. Based on the results obtained it could be inferred that the load carrying capacity of honeycomb sandwich structure reduces, if a damage is caused to it but can perform its duty with reduced efficiency.
Experimental study of behaviour of poultry feather fiber a reinforcing mate...eSAT Journals
Abstract Currently, the abundant quantity of chicken feather produced annually by the poultry industry as a waste in worldwide, is a serious solid agricultural waste problem. The traditional disposal strategies of chicken feather were not environmental friendly. Exploitation of secondary application alone is not a solution to the problem of environmental; also it enhances the commercial value of feathers. In this study, a review on the behaviour of the chicken feather fibers was made to understand their usability as a reinforcing material for composite fabrication. Fibers of some critical length were estimated experimentally and calculated relative density. Tensile property of fiber, dimensional and strength of the quill was estimated. It was observed that, the quill diameters were varying with length, and all of them were not weighing same. Chemical resistivity and burning tests were conducted, and results were reported. Morphology of the nonwoven mats was studied.
Finite Elements Modeling and Analysis of Double Skin Composite PlatesIOSR Journals
Abstract: Double skin composite (DSC) is a form of “steel/concrete/steel” sandwich structure; the steel plates
are connected to a sandwiched concrete core with welded stud shear connectors. In the present paper, a finite
element model for Double Skin Composite (DSC) panels subjected to quasi-static loading is developed. A series
of quasi-static finite elements models are used to analyze deformation and energy absorption capacity of such
system, when perforated by rigid penetrator with conical nose shape. Pilot test model is used to investigate the
failure pattern in the composite panel. The obtained results are compared to the experimental results; good
agreements are obtained between finite element and previous experimental results. Results show that such
elements have great ability of absorbing energy when subjected to perforation due to ductility of lower plate
skin and vertical stiffness of lower shear studs.
A Review on Investigation of Tribological Behavior of Nanocoating for Piston ...IJLT EMAS
Nanocoating can help to improve performance and life
of automotive engine by reducing the wear between the engine
components. In this research have selected the proper material
for top piston ring and same material are to be selected for
preparation of pin for tribometer testing and material of cylinder
liner tested and fabricated the same material of tribometer disc.
Nanocoating by electroplated Chromium coating and Chromium
nitride using DLC method by PVD coating was done on
specimen pin and piston ring and this material which was used
tribometer testing.
Depleting fossil fuel resources, economic
competitiveness and environmental concerns has compelled to
explore newer avenues to improve efficiency of automotive
engines. Various techniques have been adapted to achieve this
goal.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Abstract In the last decades the composites have been widely used in the construction, automobile and aerospace industries. Among them,
Natural fiber composites are emerging as low cost, lightweight and superior alternatives to synthetic fiber composites. This study
related to the development of bio-degradable composites using Epoxy resin and Sisal/Jute fibers. The fibers are chemically
treated at different percentages of NaOH i.e.,3%, 6% and 9%. Tensile and flexural strength of the composites were determined
using UTM. The natural frequencies of the cantilever composite beam were determined analytically using Euler’s theory and
numerically using Ansys 15.0. From the results, the results agree close to each other.
Keywords: Sisal Fiber, Jute Fiber, Alkali Treatment, Modal Analysis.
Prepared a Glass Fiber Reinforced Plastic board and determined the optimal drilling conditions that would cause the least delamination using Design of Experiments.
Indirect Tensile Strength of Modified Bitumen Mixturedbpublications
The performance of flexible pavements depends on bituminous mixture and external factors such as traffic loading and weather conditions. Bitumen mixture is elastic, viscoelastic and plastic material where rate of traffic loading and weather conditions plays very significant role on its behavior .Conventional bitumen mixture is unable bear the present traffic volume and environmental conditions by considering this an attempt has been made to study the indirect tensile strength of modified bitumen mixture using cellulose fiber as a modifier. Higher tensile strength resist the cracks, fatigue and rutting which are common failure in the flexible pavements. For preparation of bituminous concrete mixture (BC) gradation has been taken as per MORTH (table no: 500-18) specification. Bitumen content is optimized at 5% and cellulose binder content has been varied such as 1%, 3% and 5% of total mix. Conducted different types of tests such as penetration, ductility, softening point and indirect tensile strength . It has been observed that the behavior of asphalt cement after adding the modifier differ from percentage to another, At 5% an ideal improvement to the fatigue and rutting resistance properties of the asphalt cement in terms of indirect tensile strength as compared with 1%,2% of modifier and conventional bitumen . The addition of 5% Cellulose is found more significant.
Influence of Carbon & Glass Fiber Reinforcements on Flexural Strength of Epox...IJERA Editor
Hybrid composite materials are more attracted by the engineers because of their properties like stiffness and high specific strength which leads to the potential application in the area of aerospace, marine and automobile sectors. In the present investigation, the flexural strength and flexural modulus of carbon and glass fibers reinforced epoxy hybrid composites were studied. The vacuum bagging technique was adopted for the fabrication of polymer hybrid composite materials. The hardness, flexural strength and flexural modulus of the hybrid composites were determined as per ASTM standards. The hardness, flexural strength and flexural modulus were improved as the fiber reinforcement contents increased in the epoxy matrix material.
EXPERIMENTAL STUDY ON WEAR BEHAVIOUR OF SIC FILLED HYBRID COMPOSITES USING TA...IAEME Publication
The popularity of composite materials usage is increasing due to its superior strengthcharacters racing the traditional materials in strength to weight ratio. The developments of new
materials are on the anvil and are growing day by day. In this work, two-body abrasive wear testwith different loads and abrading distances were performed at room temperature by using a pin ona disk apparatus to determine the surface hardness strengthof SiC filled Glass fiber reinforced
with epoxy resin hybrid composites. The results showed that the wear volume increased withincreasing abrading distance and the specific wear rate decreased with increasing abradingdistance and increased with load for SiC particle filled Hybrid composites. Among the filled Hybridcomposites tested, composites with 10% SiC by weightshowed a better tribological behavior result.Also, a taguchi’s experimental design approach to make a parametric analysis of wear behavior of10% SiCG-J-E, 10%SiCG-S-E and 10% SiCG-R-E.hybrid composites werestudied. The systematicexperimentation leads to identificationofsignificantprocessparameters and material variablesthat predominantly influence the specific wear rate.
Mechanical and micro structural characterisation of Pure Al reinforced with S...BALA VENKATA SATYA PRAKASH
This paper deals extensively with the preparation of functionally grade material reinforced in layer wise manner with different reinforcements in order to serve the tough conditions in automobile industries
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
Mechanical Behavior of Polymer Matrix Composite Materials Reinforced With Cer...IJCMESJOURNAL
In the present work, the mechanical properties of PMC specimens with various types of ceramic reinforcements were investigated. The PMC specimens were reinforced with glass, carbon fibers and Kevlar. The effect of the % content of the reinforcement material in the matrix and the effect of the applied strain velocity (2,4,6 mm/min) were found to affect the mechanical properties of the specimens.
Strength Evaluation of Steel-Nylon Hybrid Fibre Reinforced ConcreteIJERA Editor
When fibres like steel, glass, polypropylene, nylon, carbon, aramid, polyester, jute, etc are mixed with concrete known as fibre reinforced concrete. To overcome the deficiencies of concrete; fibres are added to improve the performance of concrete. In this research hybrid reinforced concrete is made by using steel and nylon 6 fibres. The inclusion of both steel and nylon 6 fibres are used in order to combine the benefits of both fibers; structural improvements provided by steel fibers and the resistance to plastic shrinkage improvements provided by nylon fibers. So the aim of this project is to investigate the mechanical properties (compressive strength, flexure strength and split tensile strength) of hybrid fiber reinforced concrete under compression, flexure & tension. The total volume of fibre was taken 0.75 % of total volume of concrete. In this experimental work, four different concrete mix proportions were casted with fibres and one mix without fibres. Four different mix combinations of steel- nylon 6 fibres were 100-00%, 75-25%, 50-50% and 25-75%. Superplasticizer was used in all mixes to make concrete more workable. The results shown that compressive, split tensile and flexural strength of hybrid fibre reinforced concrete increase by increasing quantity of steel and nylon 6 fibres. The increase in compressive and tensile strength due to incorporation of steel fibre is greater than that of using nylon fibre. For the nylon 6 fibres, adding more fibres into the concrete has a limited improvement on splitting tensile strength. Inclusion of nylon 6 fibres along with steel fibres results in considerable improvement in flexural strength as compared to solo steel fibre.
Analysis of the Flexure Behavior and Compressive Strength of Fly Ash Core San...IJERA Editor
In this paper, commercially available Fly Ash and Epoxy is used for the core material, woven glass fabric as reinforcing skin material, epoxy as matrix/adhesive materials used in this study for the construction of sandwich composite. Analysis is carried out on different proportions of epoxy and fly ash sandwiched composite material for determining the flexural strength and compressive strength, three different proportions of epoxy and fly ash used for the study. Those are 65%-35% (65% by weight fly ash and 35% by weight epoxy resin) composite material, 60%-40% and 55%-45% composite material. 60%-40% composite material specimen shows better results in the entire test carried out i.e. Flexure and Compression. The complete experimental results are discussed and presented in this paper.
Experimental Determination of Mechanical and Vibration Properties of Epoxy ba...IJMERJOURNAL
ABSTRACT: The organic polymer composites filled with inorganic fillers became an important area of research and development in recent years due to their applications in various fields. The aim of the present work was to fabricate and evaluate the mechanical performance of epoxy polymer composites filled with 30% weight percentage of carbon fiber and 2%, 4%, 6%, 8% of Silicon Carbide. The samples were prepared by hand layup technique as this method was easy to fabricate and having low tooling cost and results in the good surface finishand then composites weretested by using UTM and ATALON FFT analyzer. The DEWESOFT software was used to obtain the frequency response functions of the samples. The variations in properties with respect to change in weight of silicon carbide were obtained and represented by graphs. The composite with 30% of carbon fiber and 8% of Sic have shown improved performance in terms of flexural strength, tensile strength, tensile modulus and higher natural frequency indicating high stiffness value.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Dynamics of sandwich composite plate with holeSubhajit Mondal
The dynamic characteristics of sandwich composite plates with holes at various locations are investigated
both experimentally and through numerical simulations. The critical parameters which affect the natural
frequencies of such plates with holes or cut-outs are the core and face sheet thicknesses, diameter and
location of the holes and aspect ratio of the plate. A rigorous parametric study has been conducted to
determine their interrelationship and presented in a concise manner. An experimental investigation
has been conducted in the beginning to get an idea about the variations of the above mentioned parameters.
The results can be utilized to determine the changes in dynamic characteristics of sandwich composite
plates with holes with specified diameters and locations. The methodology can also be useful to
control the dynamic responses of such plates by incorporating holes of chosen diameters at appropriate
locations. The results may be used to create design curves for satisfactory dynamic performances of sandwich
composite plate with holes
Damage tolerance study of honeycomb sandwich structureeSAT Journals
Abstract
Composite materials are essential component in today’s modern world. Structural sandwich construction is one of the first form of composite structures. In this study honeycomb sandwich structure which is a peculiar type of composite structure was investigated for crashworthiness. They are manmade structures with a honeycomb geometry. It consists of three elements ; Top face sheet, Core, Bottom face sheet. They are widely used in aerospace industry, marine, rail, automotive industry, in construction field as prefabricated partition walls, mezzanine floor, doors etc. The main objective of this study was to assess the damage tolerance of honeycomb sandwich structure based on serviceability and safety of the structure ie. to understand ability of structure to sustain defects safely until repair/replacement is performed. Damage tolerance study was performed to know with how much load this structure would safely withstand and also to know till how much load this structure would be made serviceable, if a damage is caused to it. Investigations were performed on both damaged and undamaged specimens by conducting. Four point bending flexure test and Edgewise compression test based on ASTM standards. Also finite element modeling of honeycomb sandwich structure was developed and analysis of the two experiments were performed in Ansys. Ultimate load, tensile and compressive stress values etc. obtained from the two experiments were compared for both damaged and undamaged specimen. Based on the results obtained it could be inferred that the load carrying capacity of honeycomb sandwich structure reduces, if a damage is caused to it but can perform its duty with reduced efficiency.
Experimental study of behaviour of poultry feather fiber a reinforcing mate...eSAT Journals
Abstract Currently, the abundant quantity of chicken feather produced annually by the poultry industry as a waste in worldwide, is a serious solid agricultural waste problem. The traditional disposal strategies of chicken feather were not environmental friendly. Exploitation of secondary application alone is not a solution to the problem of environmental; also it enhances the commercial value of feathers. In this study, a review on the behaviour of the chicken feather fibers was made to understand their usability as a reinforcing material for composite fabrication. Fibers of some critical length were estimated experimentally and calculated relative density. Tensile property of fiber, dimensional and strength of the quill was estimated. It was observed that, the quill diameters were varying with length, and all of them were not weighing same. Chemical resistivity and burning tests were conducted, and results were reported. Morphology of the nonwoven mats was studied.
Finite Elements Modeling and Analysis of Double Skin Composite PlatesIOSR Journals
Abstract: Double skin composite (DSC) is a form of “steel/concrete/steel” sandwich structure; the steel plates
are connected to a sandwiched concrete core with welded stud shear connectors. In the present paper, a finite
element model for Double Skin Composite (DSC) panels subjected to quasi-static loading is developed. A series
of quasi-static finite elements models are used to analyze deformation and energy absorption capacity of such
system, when perforated by rigid penetrator with conical nose shape. Pilot test model is used to investigate the
failure pattern in the composite panel. The obtained results are compared to the experimental results; good
agreements are obtained between finite element and previous experimental results. Results show that such
elements have great ability of absorbing energy when subjected to perforation due to ductility of lower plate
skin and vertical stiffness of lower shear studs.
Natural Fibre Sandwich Composite Panels-Analysis, Testing and CharacterisationIOSR Journals
The paper deals about the development, comparison, testing and analysis of composite materials and
sandwich composite panels. In this paper we have carried out testing of mechanical and physical properties of
coir composites, SMC laminate, Bamboo Composite, Cement bonded wooden particle composite. Then we have
used SMC Laminate on coir composite so as to increase its strength. Also we have carried out tensile test for
bamboo composite, coir composite, cement bonded composite. Then we have compared the values of these
composites. Water absorption test and flame test of coir composite, Bamboo composite has been carried out, so
as to find out the mechanical and physical properties of composite materials. Finally, Bending test and Analysis
of sandwich composite panels has been carried out for bamboo-EPS sandwich panel and Bison-EPS sandwich
panel to understand the characteristics of sandwich composite panels.
STUDY OF MECHANICAL PROPERTIES OF NATURAL FIBRE COMPOSITEIAEME Publication
In the present work an attempt has been made to fabricate a natural fibre reinforced plastic composite using sisal and jute fibres. 20% sisal,10% jute,10% starch,40% epoxy (araldite AY-103) and 20% hardener is used to fabricated
FRP composite. The composite is fabricated by simple hand lay method. Mechanical properties are tested and found satisfactory. Water absorption test of the composite is tested as per ASTM standard. It is observed that material is light in weight with sufficient strength and of low cost which
make it suitable for many engineering applications
Study of properties of banana fiber reinforced compositeseSAT Journals
Abstract Natural fiber composites are nowadays being used in various engineering applications to increase the strength and to optimise the weight and the cost of the product. Various natural fibres such as coir, sisal, jute, coir and banana are used as reinforcement materials. In this paper both treated and untreated banana fiber are taken for the development of the hybrid composite material. The untreated banana fiber is treated by sodium hydroxide to increase the wettability. The untreated banana fiber and sodium hydroxide treated banana fiber are used as reinforcing material for both Epoxy resin matrix and Vinyl ester resin matrix. Coconut shell powder is used along with both untreated and treated banana fiber as a reinforcing material. In this process the banana fiber is treated with 5% of sodium hydroxide for one hour and the specimen is fabricated by hand moulding process. The mould used for fabricating the hybrid composite material is made up of aluminium with a debonding agent applied on the inner side. The banana fiber content is kept constant to 30% of weight fraction of entire composite material. The variation in mechanical properties are studied and analyzed. Here, the tensile strength has calculated by universal testing machine, impact strength has calculated by pendulum impact tester and flexural strength has calculated by universal testing machine with flexural test arrangement of the specimen. Then the treated and untreated specimens are analyzed and compared through Scanning Electron Microscope to study about its adhesion between fiber and resin matrix and surface morphology. Keywords: Natural Fiber Composites, Mechanical Properties, Surface morphology
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DNC.
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A review of Carbon Nanotube Reinforced Aluminium Composite and Functionally ...IJMER
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should have good qualities like light weight, high strength and corrosion resistance with economic
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developments in materials engineering. Gradual but continuous variation in composition and structure
over volume, results in corresponding changes in the properties of material in contrast to homogeneous
mixing of CNT in case of composite. FGM promises to be more suitable in the future. This paper focuses
on brief review of CNT reinforced Aluminium composite and FGM application in aerospace.
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The paper deals with the fabrication and flexural property studies of 3D Spacer fabrics with
three different stiffener height, i.e., 5mm, 10mm and 15mm. The specimens were fabricated over two
bidirectional woven fabric surfaces of glass fiber reinforced composite face sheet which were
mechanically connected with vertical threads. An innovative stitching technique was used. The flexural
strength and deflection of fabricated specimens were determined through three point bending test (ASTM
C 393-62). A significant increase in flexural rigidity was observed when it compared with other panels,
and found it is highest for 3D Spacer fabric with stiffener height 3415mm. Also, the results proved that
flexural strength of 3D Spacer fabric increases with respect to the height of the stiffener. Also the results
were compared with simply glued sandwich composite of thickness 15mm and found a significant
improvement in flexural strength of 3D spacer fabric composite compared to glued composite.
Study of Surface Roughness Characteristics of Drilled Hole in Glass Fiber Rei...IJERA Editor
Now-a-days glass fiber-reinforced plastics (GFRP) are always applicable in variety of engineering applications.
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composite materials is very difficult due to its heterogeneity and the number of troubles like as surface
delamination during machining affects uniqueness of the material and the machining parameters. Present paper
focuses the experimental details to find out delamination factor on GFRP composite laminates by using
Taguchi‟s DOE L9 orthogonal array. The main objective of the present work is to optimize the process
parameters in the drilling of GFRP composite using Taguchi DOE and to find the significance of each process
parameter using ANOVA. As far as the effect of input factors are considered, the factors drilled material and
spindle speed both have nearly predominant influence on the delamination factor of drilled holes on GFRP
composite by using CNC milling process.
Study of Surface Roughness Characteristics of Drilled Hole in Glass Fiber Rei...IJERA Editor
Now-a-days glass fiber-reinforced plastics (GFRP) are always applicable in variety of engineering applications.
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delamination during machining affects uniqueness of the material and the machining parameters. Present paper
focuses the experimental details to find out delamination factor on GFRP composite laminates by using
Taguchi‟s DOE L9 orthogonal array. The main objective of the present work is to optimize the process
parameters in the drilling of GFRP composite using Taguchi DOE and to find the significance of each process
parameter using ANOVA. As far as the effect of input factors are considered, the factors drilled material and
spindle speed both have nearly predominant influence on the delamination factor of drilled holes on GFRP
composite by using CNC milling process.
Optimization of Submerged Arc Welding Parameters for Joining Dissimilar Mater...IOSRJMCE
Submerged arc welding process is very important component in many industrial organizations. The research on factors controlling weld bead profile in SAW process is essential to high quality welding procedures. Quality is very important element in today’s manufacturing world. Experiments are conducted using SAW process parameters viz. welding current, arc voltage and welding speed on dissimilar materials of 10 mm thickness to study these parameters on weld bead width and weld bead hardness. The experiments are designed using L8 orthogonal array considering two factors and three levels.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
IMPROVEMENT IN SURFACE QUALITY WITH HIGH PRODUCTION RATE USING TAGUCHI METHOD...IAEME Publication
Metal matrix composites possess significantly improved properties including high specific strength, damping capacity, specific modulus and wear resistance compared to unreinforced alloys.There has been an increasing interest in composites containing low density and low cost reinforcements with good properties. Among these reinforcements SiC is found to be chemically compatible with aluminum forming a sufficiently strong bond with the matrix. There are several
methods of manufacture of MMCs. Of these, the stir casting method is very popular due to its unique mixing property.
International Journal of Engineering Research and Applications (IJERA) is a team of researchers not publication services or private publications running the journals for monetary benefits, we are association of scientists and academia who focus only on supporting authors who want to publish their work. The articles published in our journal can be accessed online, all the articles will be archived for real time access.
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Evaluation the Effect of Machining Parameters on MRR of Mild SteelIJSRD
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Evaluation the Effect of Machining Parameters on MRR of Mild SteelIJSRD
Turning metal removal is the removal of metal outside diameter of a rotating cylindrical workpiece. As it is used to reduce the diameter. of the work piece generally to a specified dimension and to produce a smooth finish on the metal. Often, the work piece is turned so that the sections have different diameters. As is the machining operation that produces cylindrical. In its basic form, it can be defined as an outer surface machining: Based on the findings of the Pilot study, actual experimentation work will be designed and input machining parameters and their values finalized. The results are expected to show that the response variables (output parameters) strongly influenced by the control factors (input parameters). So, the results which are obtained after experimentation analyzed and modeled for their application in manufacturing industry It is concluded that for MRR be maximum factor Cutting speed has to be at high level 3, Feed has to be at high level & D.O.C has to be at high level.
Application of Taguchi Method to Study the Effect of Saw Parameters on Nickel...IJERA Editor
Submerged arc welding is most widely used in industries and research organizations. In this work the effect of of various parameters on Nickel element transfer was studied. L9 Orthogonal array was used & three factors Welding Current, Arc Voltage, Welding Speed were taken. Test material was AISI SS 304 plates. It is concluded that welding current is the most significant factor for the transfer of Nickel element to the weld metal. It is also concluded that with an increase in the value of arc voltage & welding speed Nickel element shows a decreasing trend
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
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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.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
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Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
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Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
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• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
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Experimental and Analytical Investigation of Drilling of Sandwich Composites: A Review
1. IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE)
e-ISSN: 2278-1684,p-ISSN: 2320-334X, Volume 6, Issue 6 (May. - Jun. 2013), PP 40-52
www.iosrjournals.org
www.iosrjournals.org 40 | Page
Experimental and Analytical Investigation of Drilling of
Sandwich Composites: A Review
Patil A.A.1
, Shende M.D.2
1
(Department of Mechanical Engineering, SND COE YEOLA NASHIK)
2
(Department of Mechanical Engineering, SND COE YEOLA NASHIK)
Abstract: A composite material is made out of a mixture or a combination of two or more distinctly differing
materials which are insoluble in each other and differ in form or chemical composition. The technological and
commercial interest in composite material lies in their superior properties of strength-to-weight, stiffness-to-
weight, fatigue and thermal expansion compared to metals. Extensive use of composite in application such as
rockets, satellites, missiles, light combat aircraft, advanced light helicopter and trainer air craft has shown that
India is on par with the advanced countries in the development and use of composites in this area.
Drilling is probably the most important conventional mechanical process and it is the most widely used
machining operation. Prediction of cutting forces for any set of cutting parameters is essential in optimal design
and manufacturing of products. It has been predicted that most of the problem associated with hole making
operation, such as drilling, can be attributed to the force generated during cutting operation. Many
developments and experiments are going on drilling of Sandwich composite for damage free drilling along with
the quality of the hole and the effect of tool geometry and tool material.
This paper aims at the comprehensive analytical and experimental investigation work done on the
composites material. The conclusion of the paper discusses the development and outlines the trends for the
research in this field.
Keywords: Drilling, Delamination, Delamination factor, thrust force, Design of Experiment, Taguchi
Analysis, ANOVA
I. Introduction:
Engineering materials are evolving faster and the choice is wider than ever before. Many an industry
has transformed significantly over the past few decades. This is mainly because of the advancement in materials,
processes, and computational capabilities. Advanced high – tech industries adopted new materials and
processes; replacement of mild steel with high strength steel, lighter non – ferrous alloys, such as aluminum and
magnesium alloys, plastics, and composites. Many industries developing high strength, low weight materials for
wide applications such as composite materials.
There are many parameters that will affect the drilling of composite material. Many researchers have
done the experiments and analytical work to get the quality hole. By evaluating these experiments they
provided the design function which increase the efficiency of the process and reduce the undesirable
features. The feed rate and speed along with the thrust force is the most important factor which affects the
delamination in drilling. Researchers provided feasible and effective methods for evaluating of drilling induced
delamination factor in drilling of composite material. Present paper gives the review of the some researchers
work on drilling of composite material and work on Sandwich composite material.
II. Work on Drilling of CFRP Composites
C. C. Tsao [1] analyzed the Taguchi method for drilling quality associates with core drill. The thrust
force and surface roughness of core drill with drill parameters (grit size of diamond, thickness, feed rate and
spindle speed) in drilling Carbon Fiber Reinforcement Plastic (CFRP) laminates was experimentally
investigated. Composite material for drilling was fabricated using autoclave molding. A L27 (3
13
)
orthogonal array and signal-to-noise (S/N) were employed to analyze the effect of drill parameters. Using
Taguchi method for design of a robust experiment the interaction among factors is also investigated. For
thrust force, thickness and feed rate are the most significant factors and for surface roughness, the feed rate
and spindle speed are the most significant factors in drilling CFRP laminates as experimentally and analytically
obtained. In general high speed and low drilling feed rate are recommended for the production of delamination
free and good surface finish holes in epoxy composites.C.C. Tsao et al. [2] presented a prediction and
evaluation of delamination factor of Carbon Fiber Reinforced Plastic (CFRP) in use of twist drill, candle
stick drill, and saw drill. The experiment was conducted to study delamination factor under various cutting
condition. They established the correlation between feed rates, spindle speed and drill diameter with induced
2. Experimental and Analytical Investigation of Drilling of Sandwich Composites: A Review
www.iosrjournals.org 41 | Page
delamination in a CFRP laminate based on Taguchi‟s method and the analysis of variance (ANOVA). In order
to observe the influence degree of control factors (feed rate, spindle speed and drill diameter) Taguchi method
is considered. Namely a L9 (3
4
) orthogonal array was employed. An ultrasonic C-Scan is used to examine
drilling induced delamination. The original and binary images were taken from the ultrasonic C-Scan as
shown in figure 2.1. Based on the binary images, the drilling delamination factor is determined by the ratio of
maximum diameter (Dmax) of the delamination zone to the hole diameter (D). The value of the delamination
factor (Fd) can be expressed as follows,
Fd=Dmax/D ………….
Where the unit of Dmax and D is the pixel
Figure 2.1: Ultrasonic C-Scan showing the extent of drilling-induced delamination for different drills (feed rate,
0.01 mm/rev; spindle speed, 1000 rpm; drill diameter, 8 mm).(a) twist drill (b) candle stick drill (c) saw drill. [2]
Delamination factor with ultrasonic C-Scan is shown in figure 2.2. They resulted as feed rate and drill diameter
are seen to make the largest contribution to the overall performance and the candle stick drill and saw drill
cause a smaller delamination factor than twist drill.
Figure 2.2: Scheme of the delamination factor with ultrasonic C-Scan [2]
C. C. Tsao [3] investigated the effect of drilling parameters (diameter ratio, feed rate and spindle speed)
on delamination by various step core drill. Three step core drills (step-core-twist drill, step-core-candlestick
drill and step-core-saw drill) in drilling of carbon/epoxy composite material have been investigated. The
Taguchi method with orthogonal array of L18 (2 * 3
7
) and signal-to-noise ratio was selected to realize the
effect of drilling parameters. He given the experiment results are for inside geometry saw drill can be drilled
with lower delamination during the first drilling cycle. The drilling induced-delamination of various step-
core drill increases with decreases in diameter ratio and spindle speed and increase in feed rate. He obtained
good correlation predictive equations of various step-core drills on delamination by employing multi-variables
regression. K. T. Voisey et al. [4], worked on fiber swelling during laser drilling of carbon fiber composite.
Three types of carbon fibers were used in them work: T300, high modulus (HM) andP100fibers.Scanning
electron microscopy (SEM) and Raman spectroscopy have been used to investigate the effect of fiber
type on the extent of laser-induced fiber swelling. It has been established that extensive swelling only
occurred with low modulus, poly acrylo-nitrile (PAN)-based fibers. Based on Raman spectra obtained from
both as-received and laser drilling fibers, the swelling mechanics is attributed to simultaneous structural
rearrangement and rapid, heating induced volatilization of impurities. C. Tsao [4] experimentally investigated
the thrust force of step drill with drilling parameters (step angle, stage ratio, feed rate and spindle speed) in
drilling carbon fiber reinforced plastic (CFRP) laminates. Linear regression analysis (Taguchi method) and
radial basis function network (RBFN) used to predict of thrust force Produced by step drill. In Taguchi
methodology L27 (3
13
) orthogonal array used for checking interaction among the factors and signal-to-noise
ratios used for calculation each control factor. For adopting the input-output mapping the RBFN system is used.
3. Experimental and Analytical Investigation of Drilling of Sandwich Composites: A Review
www.iosrjournals.org 42 | Page
Results were obtained are thrust force increases with feed rate, and decreases with spindle speed, that is to get
higher thrust force without delamination requires a low feed rate and high spindle speed. The conformation
test was also carried out. In the test, RBFN has been shown to be a better predictive model than multi-variable
linear regression analysis. Following figure shows the Comparison of thrust force between prediction and
experiment
Fig. 2.3 Comparison of thrust force between prediction and experiment.
C. C. Tsao [5], worked on thrust force and delamination of core-saw drill during drilling of carbon fiber
reinforced plastics (CFRP). To obtain smaller-the-better characteristics he optimized the drilling parameters
using Taguchi method. From Taguchi methodology, in order to observe the degree of influence for drilling
parameters (diameter ratio, feed rate and spindle speed) in drilling CFRP laminates, a L18(2*3
7
) orthogonal
array and signal-to-noise (S/N) were employed. The experiment carried out by Tsao, shows that the
feed rate and spindle speed are the main parameters among the three control factors that influence the thrust
force and delamination. The effect of diameter ratio was relatively insignificant. A small feed rate was shown to
produce low thrust force in drilling, which can reduce the extent of induced delamination. P.Rahme et al. [5],
proposed operating procedure to reduce different defects generated by drilling thick carbon epoxy plate at the
entry, on the wall and on the hole exit. Defects came in experiment are tearing of the layers at hole entry. On
the wall defects are tearing of fibers in packets and matrix, degradation of the matrix and crosswise cracking by
shearing in different layers. Defects at hole exit are bending of fibers and tearing & breaking of the fibers.
Several solution are given to avoid this delamination as evinced in the tests and experimental observation;
drilling with support shim reduces delamination on exit and introduced a fiberglass woven significantly limits
propagation of cracks, while optimum drill geometry and feed rate selection enhances the quality of the hole.Y
Quan et al. [6], experimentally investigated drilling temperature of drilled hole wall of CFRP composites by
means of inserted thermocouples. The effect of work piece thickness, drill diameter and material, drill rotation
rate and feed on the drilling temperature were analyzed. The investigation results indicate: the thicker the work
piece, the higher the drilling temperature will be; drill diameter has no obvious effect on drilling temperature,
but drill materials‟ effect was significant; drill rotation rate and feed has complex and synthetically effect on
drilling temperature, that is, drilling temperature depends on both of material removal rate and cutting
time. Usually cutting temperature in the drilling of thin CFRP laminates will be below 250
o
C, which
has no notable effect on drills‟ performance, but mat affect drilled hole quality.
III. Work on Drilling of GFRP Composites
S. Arul et al. [7] investigated the effect of tool material on dynamics of GFRP composites. Drilling
trials have been carried out on glass fiber reinforced plastics (GFRP) with plain high speed steel (HSS), TiN
coated HSS and tipped tungsten carbide drills. Found that most of the defects in drilling of composites are
due to thrust force experienced by the work piece. They done thrust modeling (evaluation of critical thrust) and
founded out effect of tool material on thrust, effect of tool material on flank wear, effect of tool material on
hole shrinkage and delamination factor. Figure 3.1 illustrated the relative hole quality between the tool
material. It can be seen that the stress whitening layer around the exit of the hole increases with the number of
holes drilled. As seen in figure, lower order shrinkage can be seen in the case of the tipped tungsten carbide
drills. In drilling with HSS and TiN coated HSS, increases of thrust and delamination factor around 30 holes,
indicate that 30 is the limiting number of holes to be drilled while with cemented tungsten carbide drill 50 is the
limiting number of holes to be drilled for defect tolerancing. Coating of drills does not give much improvement
4. Experimental and Analytical Investigation of Drilling of Sandwich Composites: A Review
www.iosrjournals.org 43 | Page
in drilling performance. Tipped carbide drills performed better than HSS.
Figure 3.1: The relative hole quality [7]
Birhan Isik et al. [8] presented a new comprehensive approach to select cutting parameters for damage factor
in drilling of glass fiber reinforced polymer (GFRP) composite material. The influence of drilling on
surface quality of woven GFRP plastic composite material was investigated experimentally. Damage factor
was investigated based on hole entrance and exit. Deformation at the hole entrance and exit were observed
by MITUTOYO TM-500 digital indicator microscope. Damage factor (DF) was determined by the ratio of
maximum deformation diameter to the hole diameter. Analysis of variance (ANOVA) test was applied to the
experimental results. From the experiment they resulted as increasing of cutting speed increases DF at both
hole entrance and exit. Increasing of feed increases DF at hole exit and decrease DF at hole entrance.
Increasing of point angle increases DF at both hole entrance and exit. Delamination, chipping and spalling
damage mechanism were observed in drilling chopped and continuous winding composites. Figure 3.2 illustrate
the Peel-up and Push-up delamination at entry and exit of the drilling of FRP laminates.
Figure 3.2: Delamination at hole entrance (a) and exit (b) when drilling FRP laminates [8]
J. Campos Rubio et al. [9], worked on High speed machining to realize high performance drilling of glass fiber
reinforced plastics (GFRP) with reduced damage. Results presented suggest that the adjusted delamination
factor is more sensitive to the machining parameters (spindle speed and feed rate) than the
conventional delamination factor. Cutting temperature is elevated with spindle speed, thus promoting the
softening of the matrix and inducing less delamination. For larger material removal rates associated with
minimal delamination, higher spindle speed should be used when drilling GFRP. Following figure shows the
effect of feed speed on the conventional (Fd) and adjusted (Fda) delamination factor using „„Brad & Spur‟‟ drill
WN R FK when high speed drilling at 40000rpm
.
Fig.3.3 The effect of feed speed on the conventional (Fd) and adjusted (Fda) delamination factor using „„Brad &
5. Experimental and Analytical Investigation of Drilling of Sandwich Composites: A Review
www.iosrjournals.org 44 | Page
Spur‟‟ drill WN R FK when high speed drilling at 40 000 rpm.
Jose Mathew et al. [10], experimentally investigated the effect of geometry of a trepanning tool on thrust and
torque during the drilling of uni-directional glass fiber- reinforced plastic (UD-GFRP). Investigation was aimed
at exploring the possibility of reducing the thrust and torque by using the concept of trepanning. An
optimum geometry o f t h e t r e p a n n i n g t o o l f o r d r i l l i n g G F R P m a t e r i a l s was
obtained. Experiments are carried out with the analytical methods. This trepanning tool produced about 50%
less thrust and about 10% less torque as compared to twist drills. The holes were found to be of good and
acceptable quality. The investigations have revealed that the performance of the trepanning tool is superior to
that of conventional twist drills in terms of thrust, torque and hole quality. Figure 3.4 shows comparison of the
hole quality produced by the trepanning tool and twist drill.
Figure 3.5: comparison of the hole quality produced by the trepanning tool and twist drill (GFRP, 4-mm thick
UD laminated; tool diameter 10 mm; cutting speed 50 m/min; feed 0.2 mm/rev): (a) hole quality at entry with
trepanning tool; (b) hole quality at entry with twist drill; (c) hole quality at exit with trepanning tool; and (d)
hole quality at exit with twist drill) [10].
Figure 3.5 also shows from (a) to (d) the quality of holes at the entry and exit produced by the
trepanning tool and the twist drill. Fiber pullout was almost absent in trepanned holes. It can be seen that the
overall quality of the holes produced by trepanning tools is superior to those produced by the twist drills
under identical cutting conditions.
IV. Drilling of Metal Matrix Composite
S. Basavarajappa et al. [11], discussed the influence of cutting parameters (cutting speed and feed
rate) on drilling characteristics of hybrid metal matrix composite (MMCs). For studying they have taken
two hybrid metal matrix material Al2219/15SiCp (SiCp reinforced composite) and Al2219/15SiCp-3Gr (SiCp-
graphite reinforced composite). The composites are fabricated using stir casting method. The Taguchi design of
experiments and analysis of variance (ANOVA) are employed to analyze the drilling characteristics of these
composites. The experiment were conducted to study the effect of spindle speed and feed rates on feed force,
surface finish and burr height using solid carbide multifacet drills of 5 mm diameter. The result shows
that the dependent variables are greatly influenced by the feed rate rather than the speed for the both
composites. The ceramic-graphite reinforced composite has better machinibility than those reinforced with
SiCp composite. Figure 4.1 & 4.2 shows the response plot of the ANOVA Analysis for various factors.
Fig. 4.1- Response plots of the ANOVA analysis: (a) variation of surface finish vs. spindle speed and (b)
variation of surface Finish vs. feed rate.
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Fig. 4.2 – Response plots of the ANOVA analysis: (a) variation of burr height vs. spindle speed and (b)
variation of burr height vs. feed rate.
A. Noorul Haq et al. [12], presented optimization of drilling parameters namely cutting speed, feed rate and
point angle with the consideration of multi responses such as surface roughness, cutting force and torque on
drilling Al/SiC metal matrix composite. Experiments are conducted on LM25-based aluminium alloy reinforced
with green bonded Silicon Carbide of size 25 μm. Drilling test was carried out using TiN coated HSS twist
drill of 10 mm diameter under dry condition based on orthogonal array with gray relational analysis. A
gray relational grade is obtained from the gray analysis. Confirmation test was conducted to validate the
test result. The surface roughness, cutting force and torque values collected under different cutting
condition for various combination of drilling parameters and they predicted as gray relational analysis in the
Taguchi method for the optimization of multi response problems is very useful tool for predicting cutting
parameters in drilling of Al/SiC metal matrix composite. The best performance characteristics were obtained
with TiN coated HSS twist drill.
V. Modeling and Analysis in drilling of Composite
R. Vimal Sam Singh et al. [13] investigated the thrust force and torque developed during drilling of
Glass Fiber Reinforced Plastic (GFRP) composite according to the L27 orthogonal array experiments. They
developed Fuzzy rule based model for predicting thrust force and torque in drilling of GFRP composite. The
results indicated that the increase of spindle speed reduces the delamination in drilling of composite. The
reason being at higher cutting speed, the material removal action is high and it leads to low delamination on the
drilled composite plates which in turn reduces the thrust force and torque in drilling of composite material. The
increase of feed rate and drill diameter increases the thrust force and torque in drilling of composite material.
The increases of drill diameter and feed rate increases the contact between the work piece material and it leads
to high thrust force and torque. By keeping the low feed rate and drill diameter one can reduces the
delamination and torque in drilling of composite materials. Rule based fuzzy logic model can be effectively
used to predict the thrust force and torque in grilling GFRP composites. Following figure shows the variation of
test result.
Figure 5.1 Verification Test Results
Marta Fernandes et al. [14] investigated the force and torque produced during drilling of carbon fiber using a
one shot drill bit. It is also showed that how tool wear and thickness of the work piece affect the thrust force
and torque throughout the drilling process. The typical thrust forces and spindle torques produced during
drilling of carbon-epoxy composite using the one shot drill bit can be founded by dividing drilling process
into five drilling stages. In part II they developed the mathematical model which successfully estimates
maximum thrust force and torque to improve the quality of the hole in drilling of carbon composites using one
shot drill bit. Figure 5.2 shows the measured and estimated maximum thrust force.
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Fig.5.2 Measured and estimated maximum thrust force.
R. A. Kishore et al. [15], determined the optimal set of cutting parameters (cutting speed, the feed rate) and the
drill point geometry that result in the maximum residual tensile strength in drilled unidirectional Glass Fiber
Reinforced Epoxy composite using the Taguchi method. In Taguchi‟s methodology typical control factors
for the drilling of unidirectional glass fiber reinforced epoxy composite include drill point geometry, feed rate
and cutting speed. A L9 orthogonal array and signal-to-noise ratio were employed by Taguchi method. The
term signal represents the desirable component of the output characteristics, which is close to its specific target
value. The term noise represents the undesirable component and its measure of the variability of the output
characteristics. The Taguchi method uses the signal-to-noise ratio (S/N) to express the scatter around a target
value. The figure 5.3 shows relative effect of different parameters on residual tensile strength of the drilled glass
fiber reinforced composite laminates. It can be seen that all the three parameters (drill point geometry, feed rate
and cutting speed) have strong influence on residual strength of drilled composite. They established optimum
levels of the drill point geometry, the cutting speed and feed rate for getting maximum residual tensile strength
in drilled UD-GFRP laminates. They concluded that the drilling induced damage at higher cutting speeds
severely affects the residual tensile strength of drilled laminates. Conformation tests were also carried out to
verify the predicted optimal conditions. Values of estimation gain and conformation gain were found close each
other. Following figure shows the % contribution of process parameters on residual tensile strength
Figure 5.3: % contribution of process parameters on residual tensile strength [15]
V. N. Gaitonde et al. [16] presented the effect of process parameters (cutting speed, feed rate and point
angle) on delamination during high speed drilling of carbon fiber reinforced plastic (CFRP) composite.
The drilling experiment using cemented carbide (K20) twist drills were performed based on full
factorial design (FFD). They developed second order non-linear regression mathematical model
based on response surface methodology (RSM). The model developed was validated through analysis
of variance (ANOVA). It has been observed from analysis that high speed cutting plays a major role
in reducing damage at the entrance of hole and combination of low feed rate and point angle is also
essential in minimizing delamination during drilling of CFRP composite.
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Fig.5.4 -Interaction effect due to feed rate and point angle on delamination factor for a cutting speed of 120
m/min. (a) Response surface plot. (b) Contour plot.
Pierre Rahme et al. [17] developed an orthotropic analytical model in order to calculate the critical force of
delamination during drilling and numbers of hypotheses for loading are proposed. This critical axial load is
related to the delamination condition and the mechanical characteristics of the composite material machined. A
numerical model is also drawn up to allow for numerical validation of the analytical approach. Figure 5.5 gives
the view of orthotropic analytical model used for the drilling.
Figure 5.5: Orthotropic analytical model used when drilling [16]
Experiment was also carried out by using tapered sharpened twist drill. Comparative study was also done and
resulted that the model is helpful to control critical thrust force on delamination and to optimize cutting
condition and can be adapted to different cutter. Following figure shows the different loading models with
the experimental results.
Fig.5.6 Comparison of the different loading models with the experimental results
H. Ho-Cheng [18], presented analytical approach to study the delamination during drilling by water jet
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piercing. The analysis used fracture mechanics with plate theory to describe the mechanism of delamination.
The developed model predicts an optimal water jet pressure for no delamination as a function of hole depth and
material parameters (opening –mode delamination fracture toughness and modulus of elasticity). Because water
jet drilling, in spite of its advantage of no tool wear and thermal damage, often creates delamination in
composite laminates at bottom. The below figure shows water jet induced delamination at exit.Ho-Cheng
achieved good agreement with data obtained from water jet drilling of graphite epoxy laminate. He developed
mechanics of water jet induced delamination and obtained analytical approach for water pressure, which is
function of material properties and the uncut thickness, to avoid delamination. The predicted optimal
water jet pressure can be applied in a control scheme for maximizing the productivity of water jet drilling of
composite laminates. Figure 5.7 gives the water jet induced delamination at the exit of the hole while drilling.
Figure 5.7: Water jet induced delamination at exit [17]
VI. Effect of tool or cutting parameters on drilling of Composite
C.C. Tsao et al. [19] investigated the effect of eccentric twist drill and eccentric candle stick on
delamination in drilling of fiber reinforced material. Comprehensive delamination models for the delamination
induced by an eccentric twist drill and an eccentric candle stick drill in the drilling of composite material has
been constructed. The analytical results were obtained based on classical elasticity, linear elastic fracture
mechanics and energy conservation. He showed a lower critical thrust force results if an eccentric twist drill or
an eccentric candle stick drill is used for drilling so that a lower feed rate has to be used to prevent
delamination damage.following figure shows the Critical thrust force ratio between eccentric candle stick drill
and twist drill.
Fig.6.1 Critical thrust force ratio between eccentric candle stick drill and twist drill.
By this model he has given the guide for drill design and tool regrinding, especially when the eccentric
ratio affect the critical thrust force.
C.C. Tsao et al. [20], studied analytically and experimentally that delamination in drilling can be
correlated to the thrust force of the drill. Early reference reported models of drilling-induced delamination,
however, the effect of chisel edge length and pilot hole diameter on delamination is rarely discussed.
Investigators have derived that with pre-drilled pilot hole, the delamination can be reduced significantly, and an
optimal range of diameter of the pilot hole associated with chisel edge length is also derived. Tsao compared
results of critical thrust force with pilot hole and without pilot hole which is shown in figure 6.2
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.
Figure 6.2 Comparison of the critical thrust force predicted by C.C. Tsao and H. Hocheng model with pilot hole
and by Hocheng and Dharan model without a pilot hole [20].
C. C. Tsao et al. [21] showed the delamination can be effectively reduced or eliminated by slowing
down the feed rate when approaching the exit and by using back-up plates to support and counteract the
deflection of the composite laminate leading to exit side delaminations. They predicted the effect of back up
plate on delamination in drilling of woven WFC200 fabric carbon fiber (made by autoclave molding) composite
material using saw drill and core drill. The critical drilling thrust force at the onset of delamination is
calculated and compared with that without backup. Figure 6.3 clearly indicates the effectiveness in use of
backup plate foe saw drill and core drill. They obtained theoretical results based on classical elasticity, linear
elastic fracture mechanics and energy conservation law. Results obtained by them are agreed with industrial
experience, that drill allows for larger critical thrust force can be operated at larger feed rate without
delamination damage.
Figure 6.3: Photograph of drilling-induced delamination for saw drill and core drill. (Spindle speed, 1000 rpm;
feed rate, 0.016 mm/rev) [21]
M. K. A Mohd Ariffin et al. [22], focused on an optimization of the drilling cutting process for the
composite sandwich panel. A glass fiber reinforced plastic (GFRP) sandwich part number of BMS 4-17 form
Boeing Corporation is used for testing. They provided machinist with a simple procedure in order to
minimize the damage events occurring during drilling process for composite material. A statistical approach is
used to analyze the experiment data and it is called as design of experiment (DOE). Design of experiment
(DOE) is a toll used to identify process regions that lead to superior product characteristics. Here, DOE was
used to investigate the effect of drill material and drilling process parameters such as cutting speed, fed rate and
drill hole quality. The result from the study shows that the minimum damage length is 0.05 mm and the
maximum is 0.44 mm which was done at 3000 rpm, feed rate of 80.2 mm/rev for HSS and spindle speed at 500
rpm, feed rate of 246.8 mm/rev using carbide tool respectively. Interaction between cutting speed and feed rate
are the most significant in controlling the level of damage during drilling process. On the other hand, the
interaction of cutting tool material and cutting speed are the most insignificant.
N. S. Mohan et al. [23], investigated process parameters (speed, feed rate, drill size and specimen
thickness) on cutting force and torque during drilling of glass fiber polyester reinforced composites. The
research outlined the Taguchi optimization methodology and ANOVA was used to study effect of process
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parameters on machining process. A series of experiments was conducted using TRIAC VMC CNC machining
center to relate the cutting parameters and material parameters on the cutting thrust and torque. From the
analysis of the Taguchi method results are indicated that among the all significant parameters, speed and drill
size are most significant influence on cutting thrust than the specimen thickness and feed rate. study of
response table indicated that the specimen thickness and drill size are the significant parameters of
torque. From the interaction among process parameters, thickness and drill size together is more dominant
factor than any other combination for the torque characteristic.
VII. Work On Sandwich Matrerial
Byoung Jung Kim et al. [24] investigated experimentally the load transfer characteristics of the partial
type insert for composite sandwich panels with respect to the insert shape. The static and dynamic pull out tests
of the composite sandwich panels composed of an aluminum honeycomb core, two laminates of carbon
fiber/epoxy composite and aluminum insert, were performed. From the experiments, the effect of the insert
shape on the mechanical characteristics of composite sandwich panels was evaluated.
Fig.7.1 Load–displacement curves related to dynamic pull out tests on composite Sandwich panels with various
shapes of inserts: (a) cylindrical shape, (b) circular I beam shape and (c) dumbbell shape.
A. Paolozzi et al. [25], presented study on frequency shifts induced by debonding damage in a carbon-fiber
reinforced plastic sandwich panel and widely interpreted. He compared with previously obtained numerical
results and that are satisfactory. Specifically, the possibility of assessing the extension of the debonded area is
experimentally verified. The validation of the numerical results also showed the possibility of determining the
damage location. Finally, very good agreement between numerical and experimental results is showed for the
cross-over between the first and the second bending models.
Giuseppe Demedio et al. [26], shows experimental investigation was carried out to estimate the static
and fatigue behavior of specimens made up from steel plates and sandwich composite panels joined together by
either blind or mechanical lock fasteners. A preliminary study was carried out in order to analyze the
drilling operation of sandwich panels to determine the best values of parameters to use for fasteners
installation. For all panels a common electric drill of 3000 rpm with an automatic drilling rate of 4 mm/min. and
27.5 mm/min. was used for GR/GL fibers and KEV fibers reinforced panels respectively. A Vidia conventional
drill has been successfully used in drilling panels even though their use is not commonly recommended for
composites. That results has to be ascribed the stiffening effect of the adhesive bonding core and skin
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that elimated fuzzing and delamination around the hole. A backup plate of steel was used during drilling to
reduce surface delamination and to keep the fibers from fraying. They performed a set of static tests on
specimens to evaluate the possible ageing effect on mechanical properties of sandwich panels. Figure 7.2 and
7.3 shows Load displacement curve related to pull –out fatigue test on specimen 101 & 103 Resp.
Figure 7.2 Load displacement curve related to pull –out fatigue test on specimen 101
Figure 7.3 Load displacement curve related to pull –out fatigue test on specimen 103
S.C. Sharma et al. [27] investigated the fatigue characteristics of polyurethane foam-cored (PUF) composite
sandwich structures using three-point bending tests carried out according to ASTM C 393. Three types of
specimens (epoxy/glass-PUF-epoxy/glass, polyester/glass-PUF-polyester/glass, and epoxy/glass-PUF-
polyester/glass) were considered for investigation. Experimental results indicated that degradation of stiffness
occurs due to debonding and sliding between the skin and the foam during fatigue cycles. Epoxy/glass-PUF-
epoxy/glass sandwich structures exhibited higher bending strength along with higher stiffness degradation than the
other two types of sandwich panels, due to higher initial fatigue loading. The lowest fatigue property has been
obtained for the polyester/glass-PUF-polyester/glass sandwich panel specimens. Better performance of the
epoxy/glass-PUF-epoxy/glass sandwich panels showed due to the superior properties of the outer thin skins. Most
of the specimens failed within the foam region and not at the skin level. This situation is possibly due to debonding
between the foam and the skin. The fatigue damage developed in the foam and skin has been investigated using
scanning electron microscopy.
A.C. Manalo et al. [28] investigated the flexural behavior of a new generation composite sandwich beams
made up of glass fiber-reinforced polymer skins and modified phenolic core material. The composite sandwich
beams was subjected to 4-point static bending test to determine their strength and failure mechanisms in the flat
wise and the edgewise positions. The results of the experimental investigated showed that the composite sandwich
beams tested in the edgewise position failed at a higher load with less deflection compared to specimens tested in
the flat wise position. Under flexural loading, the composite sandwich beams in the edgewise position failed due to
progressive failure of the skin while failure in the flat wise position is in a brittle manner due to either shear failure
of the core or compressive failure of the skin followed by debonding between the skin and the core. The results
showed that the analytical predictions and numerical simulations are in good agreement with the experimental
results.
VIII. Conclusion
The Conclusions of this review study are as follows
1. It is observed that lot of work has been done on drilling of composite material, the defect observed during
drilling as well as effect of various cutting parameters and drilling parameters on drilling.
2. It is also observed that various methodology and analyzing techniques are used to improve the quality of the hole
in drilling composite material, this leads to a very important area for manufacturing field to join structure.
3. Along with composite material the various works has done on the sandwich composite.
4. The debonding damage, fatigue behavior, static behavior, flexural behavior and characteristic of joining etc.
were studied for sandwich composite.
5. As various parameters of sandwich composite has been studied but seldom work done on drilling of sandwich
composite.
6. There is scope to study the Analytical and experimental investigation for the Drilling of Sandwich Composites.
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