Dr J D Bapat highlights some opportunities for research in the areas of cement manufacturing and application, namely alternate fuels, new cements, mineral admixtures. He also highlights some features of the training course offered for the professionals working in cement, concrete and construction industry.
El documento describe el diagrama de ojo, una herramienta para evaluar el desempeño de un sistema de transmisión de pulsos en banda base. Explica que superpone todas las realizaciones de la señal recibida para evaluar parámetros como la apertura del ojo, que define el intervalo de tiempo para muestrear sin errores, y la separación respecto del valor central para el instante de muestreo, que define la sensibilidad al ruido. Describe un experimento donde se observan los efectos del ruido del canal en un sistema cuaternario con diferentes
This marketing plan summary outlines the company's goals to increase market share and sales revenue over the next fiscal year. Key points include:
- The company aims to increase its market share from 17% to 19% and capture 25% of the growing North and East regions. It also wants to boost sales revenue 35% through new branding, pricing, and distribution strategies.
- Marketing strategies will position the company as the "Engineers' Choice" cement and include a new TV ad campaign, sales promotions, dealer boards, and sponsoring industry events.
- The budget allocates 1.25% of last year's sales revenue to marketing activities like advertising, sales commissions, and consumer promotions. It forecasts sales of
Slide show concrete_with_blended_cementDr J.D. Bapat
The slide show describes the proceedings of presentation made by Dr J D Bapat, during the technical meet organised by Birla Shakti Cement, at Belgaum and Hubli, in Karnataka, India. The subject was "Concrete with Blended Cement", with particular emphasis on application of Portland pozzolana cement (PPC) in concrete.
In India, majority of cement produced is of blended variety, with fly ash and blast furnace slag as the mineral admixtures used for blending. Blended cements production reduces clinker production thereby leading to conservation of natural resources and energy and also substantial reduction in the CO2 generation, which is a green house gas. The production of blended cements also leads to utilization of two major industrial wastes, coming from thermal power stations and the integrated steel plants. The application of blended cement in concrete imparts better strength and durability properties to the structure. Keeping these aspects in mind, the presentation illustrates the characteristics of two varieties of blended cements, new to Indian cement industry, namely Portland Limestone Cement (PLC) and Portland High Volume fly Ash Cement (PHFC).
Fly ash wikipedia, the free encyclopediaSourav Chanda
Fly ash is a byproduct of coal combustion. It comprises fine particles that rise with flue gases when coal is burned to produce electricity. Fly ash contains silicon dioxide, calcium oxide, and various trace elements that depend on the coal composition. It is generally captured by pollution control devices at coal power plants before being released. Around 43% of fly ash produced is recycled and used as a supplementary cementitious material in concrete production due to its pozzolanic properties. There are some health concerns about using concrete with fly ash, but it provides benefits like increased strength and protection from chemicals. When coal is burned, fly ash must be properly disposed of or recycled.
This document discusses the Hindustan Latex Limited (HLL) Lifecare company and its effluent treatment plant. HLL Lifecare operates two factories in Trivandrum, India - one in Peroorkada that produces condoms and one in Akkulam that produces other medical products. The effluent treatment plant at Peroorkada uses various tanks and processes like lime mixing, FeCl3 mixing, aeration, settling, and filtration to treat wastewater before recycling or disposal. Sludge from the treatment plant is dried on beds and could potentially be used to make bricks.
Practical project of 100 TPD domestic waste water treatment system for a colledge campus sewage reuse case. We use membrane bioreactor (MBR) to treat domestic waste water.
El documento describe el diagrama de ojo, una herramienta para evaluar el desempeño de un sistema de transmisión de pulsos en banda base. Explica que superpone todas las realizaciones de la señal recibida para evaluar parámetros como la apertura del ojo, que define el intervalo de tiempo para muestrear sin errores, y la separación respecto del valor central para el instante de muestreo, que define la sensibilidad al ruido. Describe un experimento donde se observan los efectos del ruido del canal en un sistema cuaternario con diferentes
This marketing plan summary outlines the company's goals to increase market share and sales revenue over the next fiscal year. Key points include:
- The company aims to increase its market share from 17% to 19% and capture 25% of the growing North and East regions. It also wants to boost sales revenue 35% through new branding, pricing, and distribution strategies.
- Marketing strategies will position the company as the "Engineers' Choice" cement and include a new TV ad campaign, sales promotions, dealer boards, and sponsoring industry events.
- The budget allocates 1.25% of last year's sales revenue to marketing activities like advertising, sales commissions, and consumer promotions. It forecasts sales of
Slide show concrete_with_blended_cementDr J.D. Bapat
The slide show describes the proceedings of presentation made by Dr J D Bapat, during the technical meet organised by Birla Shakti Cement, at Belgaum and Hubli, in Karnataka, India. The subject was "Concrete with Blended Cement", with particular emphasis on application of Portland pozzolana cement (PPC) in concrete.
In India, majority of cement produced is of blended variety, with fly ash and blast furnace slag as the mineral admixtures used for blending. Blended cements production reduces clinker production thereby leading to conservation of natural resources and energy and also substantial reduction in the CO2 generation, which is a green house gas. The production of blended cements also leads to utilization of two major industrial wastes, coming from thermal power stations and the integrated steel plants. The application of blended cement in concrete imparts better strength and durability properties to the structure. Keeping these aspects in mind, the presentation illustrates the characteristics of two varieties of blended cements, new to Indian cement industry, namely Portland Limestone Cement (PLC) and Portland High Volume fly Ash Cement (PHFC).
Fly ash wikipedia, the free encyclopediaSourav Chanda
Fly ash is a byproduct of coal combustion. It comprises fine particles that rise with flue gases when coal is burned to produce electricity. Fly ash contains silicon dioxide, calcium oxide, and various trace elements that depend on the coal composition. It is generally captured by pollution control devices at coal power plants before being released. Around 43% of fly ash produced is recycled and used as a supplementary cementitious material in concrete production due to its pozzolanic properties. There are some health concerns about using concrete with fly ash, but it provides benefits like increased strength and protection from chemicals. When coal is burned, fly ash must be properly disposed of or recycled.
This document discusses the Hindustan Latex Limited (HLL) Lifecare company and its effluent treatment plant. HLL Lifecare operates two factories in Trivandrum, India - one in Peroorkada that produces condoms and one in Akkulam that produces other medical products. The effluent treatment plant at Peroorkada uses various tanks and processes like lime mixing, FeCl3 mixing, aeration, settling, and filtration to treat wastewater before recycling or disposal. Sludge from the treatment plant is dried on beds and could potentially be used to make bricks.
Practical project of 100 TPD domestic waste water treatment system for a colledge campus sewage reuse case. We use membrane bioreactor (MBR) to treat domestic waste water.
Utilization of Waste Paper Sludge in Construction IndustrySandeep Jain
This technical note is recapitulation of the work carried out by researchers round the globe on characterization of waste paper sludge based on physical, chemical and mineralogical properties, activation mechanisms, pozzolanic reactivity, reaction kinematics and durability; for its possible utilization in construction industry as supplementary cementitious material, mineral admixture, partial replacement of binders in concrete, raw material for clay brick manufacturing, production of ceramics, soil stabilization in road works, reduction in carbon-dioxide emission etc., in order to en-cash various socio-economic and environmental benefits.
Utilization of Sewage Sludge Ash in Construction MaterialsAmba Sasank
The document discusses utilizing sewage sludge ash in construction materials. It begins by introducing that sewage sludge obtained after treatment is currently used for landfills, soil conditioning, and fertilizer. The objectives are to effectively manage sludge by using incinerated ash in construction. Literature shows sludge ash can replace 20-40% of clay in bricks and a small ratio of ash can replace cement in concrete. The methodology examines collecting sludge, testing dried and incinerated sludge properties, and incorporating ash into bricks, concrete, and pavers. Preliminary results found the ash bricks absorb more water and concrete with 20-40% ash reached 16-18 MPa compressive strength. The document concludes that alternative
Physical and biological treatment of sewage lecture 1 of 2John Chakamba
Sewage treatment involves three main phases - pre-treatment, primary treatment, and secondary treatment. Pre-treatment screens out large solids. Primary treatment removes most solids but not dissolved organics, using sedimentation. Secondary treatment uses microorganisms to break down organics into simple compounds and uses sunlight to destroy pathogens, producing effluent safe for discharge. The sludge byproduct is further treated and can be used as fertilizer or disposed of through other methods.
This document lists 184 potential civil engineering project titles. The titles cover a wide range of topics related to rural and low-cost construction, including village sanitation systems, desilting of tanks, low-cost roofing materials, housing practices, water supply systems, groundwater studies, use of local and waste materials in construction, irrigation, and transportation.
An Introduction To Wastewater And Sludge PrinciplesOliver Grievson
The document provides an overview of wastewater and sewage sludge treatment processes. It discusses the history of sewage treatment in the UK from the 14th century to present day. It then describes the basic treatment processes including preliminary treatment to remove solids, primary settlement to separate liquids and solids, secondary biological treatment using trickling filters or activated sludge plants, and sludge handling which includes thickening, digestion, and dewatering processes.
Flash Industries is basically an environment friendly start up wherein we will be introducing the business of manufacturing Fly Ash Bricks with a view point of eliminating Fly Ash from the ecosystem as an environmental pollutant, which will provide huge benefits to organizations as well as to the environment.
The document discusses India's growing demand for power and the environmental issues caused by coal-fired thermal power plants. It proposes a solution to generate bricks from fly ash, lime and gypsum (FaL-G bricks) which would utilize waste, reduce emissions and provide economic benefits through carbon credits. FaL-G brick production would be promoted through partnerships between organizations and entrepreneurs.
The document discusses the design of a sewage treatment plant for Vellore Municipal Corporation, which has been upgraded to a corporation. The plant is needed to treat increasing sewage from population growth. The plant will treat sewage from the 10.54 square km area and 48 wards of Vellore Corporation over the next 30 years. The plant will include components like screening, grit removal, and secondary treatment to effectively treat sewage and meet effluent standards.
Fly ash is a byproduct of coal combustion in power plants. It consists of fine particles that rise with the flue gases and is one of the major air pollutants from combustion. Fly ash composition varies according to the parent coal but generally contains silicon dioxide, aluminum oxide, and iron oxide as major constituents. It is classified into Class C and Class F ash based on lime content. Fly ash has various applications including use in cement, soil stabilization, bricks, asphalt concrete, and embankments due to its pozzolanic properties. However, issues include potential groundwater contamination and difficulty using in winter due to slow setting times. Current fly ash utilization in India is around 25% but there is significant potential for
Dr j d bapat making of_sustainable_cement_and_concreteDr J.D. Bapat
Dr J D Bapat uploaded a paper recently published in , "International e-Conference on Sustainable Development in Concrete Technology ICSDCT 2021".
Cite this: J D Bapat, "Making of Sustainable Cement and Concrete", Proceedings of International e-Conference on Sustainable Development in Concrete Technology ICSDCT 2021, Department of Civil Engineering, D Y Patil College of Engineering, Akurdi, Pune, India, 19-21 August 2021, pp 6-10
For further details, visit: https://www.drjdbapat.com/
Cement based building_materials_icr_aug2020Dr J.D. Bapat
Cite this paper: J D Bapat, Kalpana Karthikeyan, "Cement Based Building Materials", Indian Cement Review, August 2020, pp 48-51
The work on the following cement-based building materials has been covered: dry mix mortar plaster (DMM), cement-based fly ash bricks, AAC blocks and micro-concrete for concrete repair work.
FEEDBACK ON Dr J D BAPAT'S TRAINING COURSE ON CONCRETE AT L&TDr J.D. Bapat
This is a summary feedback obtained by L&T, India, on the training programme by Dr J D Bapat on, "Durable Concrete with Mineral Admixtures", conducted at L&T's Leadership Development Academy, Lonavala, Maharashtra, India, on 6 April 2018
Orissa High Court Arbitration Centre RegistrationDr J.D. Bapat
Dr J D Bapat is an engineer arbitrator, mediator and domain expert. He is a fellow of Indian Council of Arbitration (FICA). This file is related to his registration as arbitrator at the arbitration centre of Hon. High Court of Orissa, Cuttack (India). Earlier, he has been registered as arbitrator at the arbitration centre of of the Hon. Punjab and Haryana High Court, Chandigarh (India).
Dr j d bapat_arbitrator_punjab_haryana_high_court_registrationDr J.D. Bapat
Dr J D Bapat is an engineer arbitrator and domain expert. He is a fellow of Indian Council of Arbitration (FICA). This file is related to his approval as arbitrator at Punjab and Haryana High Court at Chandigarh.
Dr J D Bapat_Academic_Adviser_Expertise_SummaryDr J.D. Bapat
The Table summarises the expertise earned by Dr J D Bapat, as Academic Adviser, Since 1975 onward. It gives a summary of his experience in reputed national industrial research organisation, very senior position in the industry, as professor and administrator in highly reputed university and as a development professional consultant.
This is a presentation made by Dr J D Bapat, during his talk on the "Durability of Concrete", on the Foundation Day of Indian Concrete Institute, Pune Centre, India. The presentation includes the role played by the mineral admixtures in imparting the strength and durability to concrete. It also mentions different mechanisms of the deterioration of concrete.
Dr. J.D. Bapat has over 43 years of experience in engineering education, including industrial research and development, university teaching and administration, and industry consulting. He offers his services to educational institutions in areas such as teaching, research, laboratory development, industry partnerships, quality accreditation, teaching and faculty development, student skills, and dispute resolution. His website provides more information on his qualifications and experience in engineering education.
Dr J D Bapat_ICA Empanelment and Fellowship (FICA) Dr J.D. Bapat
Dr J D Bapat is a life member of Indian Council of Arbitration (ICA). He has been conferred with the fellowship of ICA (FICA) and also empanelled as arbitrator under the category of 'Engineers'
Dr J D Bapat: Indian Council of Arbitration: Life MembershipDr J.D. Bapat
Arbitration is settlement of a dispute (whether of fact, law, or procedure) between parties to a contract by a neutral third party (the arbitrator) without resorting to court action. Dr J D Bapat has been awarded life membership of Indian Council of Arbitration (ICA). Dr J D Bapat is also an engineer. Hence he can play effective role in settlement of disputes, related to technical and commercial aspects, in the engineering field. Especially, with his vast experience in the areas of cement manufacturing, cement machinery manufacturing, concrete and higher education, Dr Bapat can now effectively participate in the arbitration activities, for the settlement of disputes outside the court, in these areas.
This is an invitation for panel discussion on Durability of Concrete Structures. The event is organised by Ambuja Cement Knowledge Centre and ICI, Pune, on 28 May 2016.
This is a slide show of an event where Dr J D Bapat made a presentation on "Introduction to Non-Destructive Testing". The event was the National Conference on "Recent Advances in Testing of Materials, NDT & Numerical Modeling " 19 March 2016, organised by Pravara Rural Engineering College, Loni, Maharashtra, India. Dr Bapat was invited as the Chief Guest and the keynote speaker. The presentation covered different methods of non-destructive testing and their application in the industry.
Dr. J D Bapat gave a presentation at a workshop on concrete mix design organized by Sanjivani College of Engineering. The presentation discussed the durability of concrete when using mineral admixtures like fly ash. Over 120 students and faculty attended the workshop and asked questions about topics like internal curing, converting rice husk to ash, translucent concrete, and reasons for stickiness when fly ash replacement is high. Dr. Bapat also announced a two-day training course on durable, high performance cement and concrete with mineral and chemical admixtures regularly held in Pune and other locations.
Utilization of Waste Paper Sludge in Construction IndustrySandeep Jain
This technical note is recapitulation of the work carried out by researchers round the globe on characterization of waste paper sludge based on physical, chemical and mineralogical properties, activation mechanisms, pozzolanic reactivity, reaction kinematics and durability; for its possible utilization in construction industry as supplementary cementitious material, mineral admixture, partial replacement of binders in concrete, raw material for clay brick manufacturing, production of ceramics, soil stabilization in road works, reduction in carbon-dioxide emission etc., in order to en-cash various socio-economic and environmental benefits.
Utilization of Sewage Sludge Ash in Construction MaterialsAmba Sasank
The document discusses utilizing sewage sludge ash in construction materials. It begins by introducing that sewage sludge obtained after treatment is currently used for landfills, soil conditioning, and fertilizer. The objectives are to effectively manage sludge by using incinerated ash in construction. Literature shows sludge ash can replace 20-40% of clay in bricks and a small ratio of ash can replace cement in concrete. The methodology examines collecting sludge, testing dried and incinerated sludge properties, and incorporating ash into bricks, concrete, and pavers. Preliminary results found the ash bricks absorb more water and concrete with 20-40% ash reached 16-18 MPa compressive strength. The document concludes that alternative
Physical and biological treatment of sewage lecture 1 of 2John Chakamba
Sewage treatment involves three main phases - pre-treatment, primary treatment, and secondary treatment. Pre-treatment screens out large solids. Primary treatment removes most solids but not dissolved organics, using sedimentation. Secondary treatment uses microorganisms to break down organics into simple compounds and uses sunlight to destroy pathogens, producing effluent safe for discharge. The sludge byproduct is further treated and can be used as fertilizer or disposed of through other methods.
This document lists 184 potential civil engineering project titles. The titles cover a wide range of topics related to rural and low-cost construction, including village sanitation systems, desilting of tanks, low-cost roofing materials, housing practices, water supply systems, groundwater studies, use of local and waste materials in construction, irrigation, and transportation.
An Introduction To Wastewater And Sludge PrinciplesOliver Grievson
The document provides an overview of wastewater and sewage sludge treatment processes. It discusses the history of sewage treatment in the UK from the 14th century to present day. It then describes the basic treatment processes including preliminary treatment to remove solids, primary settlement to separate liquids and solids, secondary biological treatment using trickling filters or activated sludge plants, and sludge handling which includes thickening, digestion, and dewatering processes.
Flash Industries is basically an environment friendly start up wherein we will be introducing the business of manufacturing Fly Ash Bricks with a view point of eliminating Fly Ash from the ecosystem as an environmental pollutant, which will provide huge benefits to organizations as well as to the environment.
The document discusses India's growing demand for power and the environmental issues caused by coal-fired thermal power plants. It proposes a solution to generate bricks from fly ash, lime and gypsum (FaL-G bricks) which would utilize waste, reduce emissions and provide economic benefits through carbon credits. FaL-G brick production would be promoted through partnerships between organizations and entrepreneurs.
The document discusses the design of a sewage treatment plant for Vellore Municipal Corporation, which has been upgraded to a corporation. The plant is needed to treat increasing sewage from population growth. The plant will treat sewage from the 10.54 square km area and 48 wards of Vellore Corporation over the next 30 years. The plant will include components like screening, grit removal, and secondary treatment to effectively treat sewage and meet effluent standards.
Fly ash is a byproduct of coal combustion in power plants. It consists of fine particles that rise with the flue gases and is one of the major air pollutants from combustion. Fly ash composition varies according to the parent coal but generally contains silicon dioxide, aluminum oxide, and iron oxide as major constituents. It is classified into Class C and Class F ash based on lime content. Fly ash has various applications including use in cement, soil stabilization, bricks, asphalt concrete, and embankments due to its pozzolanic properties. However, issues include potential groundwater contamination and difficulty using in winter due to slow setting times. Current fly ash utilization in India is around 25% but there is significant potential for
Dr j d bapat making of_sustainable_cement_and_concreteDr J.D. Bapat
Dr J D Bapat uploaded a paper recently published in , "International e-Conference on Sustainable Development in Concrete Technology ICSDCT 2021".
Cite this: J D Bapat, "Making of Sustainable Cement and Concrete", Proceedings of International e-Conference on Sustainable Development in Concrete Technology ICSDCT 2021, Department of Civil Engineering, D Y Patil College of Engineering, Akurdi, Pune, India, 19-21 August 2021, pp 6-10
For further details, visit: https://www.drjdbapat.com/
Cement based building_materials_icr_aug2020Dr J.D. Bapat
Cite this paper: J D Bapat, Kalpana Karthikeyan, "Cement Based Building Materials", Indian Cement Review, August 2020, pp 48-51
The work on the following cement-based building materials has been covered: dry mix mortar plaster (DMM), cement-based fly ash bricks, AAC blocks and micro-concrete for concrete repair work.
FEEDBACK ON Dr J D BAPAT'S TRAINING COURSE ON CONCRETE AT L&TDr J.D. Bapat
This is a summary feedback obtained by L&T, India, on the training programme by Dr J D Bapat on, "Durable Concrete with Mineral Admixtures", conducted at L&T's Leadership Development Academy, Lonavala, Maharashtra, India, on 6 April 2018
Orissa High Court Arbitration Centre RegistrationDr J.D. Bapat
Dr J D Bapat is an engineer arbitrator, mediator and domain expert. He is a fellow of Indian Council of Arbitration (FICA). This file is related to his registration as arbitrator at the arbitration centre of Hon. High Court of Orissa, Cuttack (India). Earlier, he has been registered as arbitrator at the arbitration centre of of the Hon. Punjab and Haryana High Court, Chandigarh (India).
Dr j d bapat_arbitrator_punjab_haryana_high_court_registrationDr J.D. Bapat
Dr J D Bapat is an engineer arbitrator and domain expert. He is a fellow of Indian Council of Arbitration (FICA). This file is related to his approval as arbitrator at Punjab and Haryana High Court at Chandigarh.
Dr J D Bapat_Academic_Adviser_Expertise_SummaryDr J.D. Bapat
The Table summarises the expertise earned by Dr J D Bapat, as Academic Adviser, Since 1975 onward. It gives a summary of his experience in reputed national industrial research organisation, very senior position in the industry, as professor and administrator in highly reputed university and as a development professional consultant.
This is a presentation made by Dr J D Bapat, during his talk on the "Durability of Concrete", on the Foundation Day of Indian Concrete Institute, Pune Centre, India. The presentation includes the role played by the mineral admixtures in imparting the strength and durability to concrete. It also mentions different mechanisms of the deterioration of concrete.
Dr. J.D. Bapat has over 43 years of experience in engineering education, including industrial research and development, university teaching and administration, and industry consulting. He offers his services to educational institutions in areas such as teaching, research, laboratory development, industry partnerships, quality accreditation, teaching and faculty development, student skills, and dispute resolution. His website provides more information on his qualifications and experience in engineering education.
Dr J D Bapat_ICA Empanelment and Fellowship (FICA) Dr J.D. Bapat
Dr J D Bapat is a life member of Indian Council of Arbitration (ICA). He has been conferred with the fellowship of ICA (FICA) and also empanelled as arbitrator under the category of 'Engineers'
Dr J D Bapat: Indian Council of Arbitration: Life MembershipDr J.D. Bapat
Arbitration is settlement of a dispute (whether of fact, law, or procedure) between parties to a contract by a neutral third party (the arbitrator) without resorting to court action. Dr J D Bapat has been awarded life membership of Indian Council of Arbitration (ICA). Dr J D Bapat is also an engineer. Hence he can play effective role in settlement of disputes, related to technical and commercial aspects, in the engineering field. Especially, with his vast experience in the areas of cement manufacturing, cement machinery manufacturing, concrete and higher education, Dr Bapat can now effectively participate in the arbitration activities, for the settlement of disputes outside the court, in these areas.
This is an invitation for panel discussion on Durability of Concrete Structures. The event is organised by Ambuja Cement Knowledge Centre and ICI, Pune, on 28 May 2016.
This is a slide show of an event where Dr J D Bapat made a presentation on "Introduction to Non-Destructive Testing". The event was the National Conference on "Recent Advances in Testing of Materials, NDT & Numerical Modeling " 19 March 2016, organised by Pravara Rural Engineering College, Loni, Maharashtra, India. Dr Bapat was invited as the Chief Guest and the keynote speaker. The presentation covered different methods of non-destructive testing and their application in the industry.
Dr. J D Bapat gave a presentation at a workshop on concrete mix design organized by Sanjivani College of Engineering. The presentation discussed the durability of concrete when using mineral admixtures like fly ash. Over 120 students and faculty attended the workshop and asked questions about topics like internal curing, converting rice husk to ash, translucent concrete, and reasons for stickiness when fly ash replacement is high. Dr. Bapat also announced a two-day training course on durable, high performance cement and concrete with mineral and chemical admixtures regularly held in Pune and other locations.
Four main low-carbon technologies for cement production are presented, namely (a) alternative fuels (AF) for kiln, (b) renewable energy alternatives, (c) increasing cement replacement by fly ash and blast furnace slag and (d) Portland limestone cement.
The following futuristic trends are highlighted:
(a) Alternative Fuels
(b) Limestone Conservation
(c) Cement and Concrete
(d) CO2 Sequestration with Microalgae
Cement and Concrete: Promise of Fly AshDr J.D. Bapat
The presentation made by Dr J D Bapat illustrates the importance of fly ash utilisation. The slides depict how fly ash is used in cement and concrete to improve its strength and durability.
ICI-JDB Certificate of Training in Durability of Concrete (C-TDC) Dr J.D. Bapat
The duration and content of course is tailor-made to suit the requirement of participants. It can organised at Pune (India) or other place in India or abroad.
The course relates to how durability of concrete is achieved by properly incorporating mineral admixtures in cement and concrete. It includes the aspects related to the manufacturing and processing, physical characteristics, chemical and mineralogical composition, quality control of the mineral admixture and the reported experiences as well as the
provisions of national Standards on its addition to
cement and concrete. The course includes, group discussions, videos and question-answer sessions.
Useful for engineers working at construction site and interested in learning optimum utilisation of mineral admixtures for strength and durability. Marketing engineers, who frequently face customer queries regarding benefits of blended cement or admixtures. Engineers working on product development. Students/researchers interested in pursuing studies in the
area.
DURABLE CONCRETE WITH MINERAL ADMIXTURES: TRAINING COURSE IN MALAYSIA: BY Dr ...Dr J.D. Bapat
The objective of the training programme is to impart deeper knowledge about the contribution of mineral admixtures in improving strength and durability of concrete. It should equip the practicing engineer make better choice of the type and quality of mineral admixture in concrete mix to optimize the cost on one hand, and build structures with greater reliability, on the other. The engineers on site, with the knowledge on the impact of environmental factors that are responsible for distress and deterioration of structures, shall be in a position to take appropriate preventive measures.
WHO SHOULD ATTEND
Engineers working at construction site and interested in learning optimum utilisation of mineral admixtures for strength and durability.
Marketing engineers working with cement, concrete and admixture industry, which frequently face customer queries regarding benefits of blended cement or admixtures.
Engineers working on product development.
Students/researchers interested in pursuing studies in the area.
Dr J D Bapat, the author of this slide show, has nearly four decades experience in research and development, teaching, training and consultancy. Based on his experience as the head of engineering institutions, he has prepared this slide show to show how the quality of engineering institutions could be substantially improved, following systems approach to the quality management. The focus is on improving the overall quality and building the image of the institution, developing the infrastructure, faculty and the students.
The benefits are seen in terms of accreditation, certification, organised campus, better infrastructure, quality faculty with high motivation, good students seeking admission, good university results with rank-holders, placements in reputed organisations and revenue generation through sponsored research, consultancy, testing and training.
AI for Legal Research with applications, toolsmahaffeycheryld
AI applications in legal research include rapid document analysis, case law review, and statute interpretation. AI-powered tools can sift through vast legal databases to find relevant precedents and citations, enhancing research accuracy and speed. They assist in legal writing by drafting and proofreading documents. Predictive analytics help foresee case outcomes based on historical data, aiding in strategic decision-making. AI also automates routine tasks like contract review and due diligence, freeing up lawyers to focus on complex legal issues. These applications make legal research more efficient, cost-effective, and accessible.
Null Bangalore | Pentesters Approach to AWS IAMDivyanshu
#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
- Basics of IAM in AWS
- Implementing IAM Policies with Least Privilege to Manage S3 Bucket
- Objective: Create an S3 bucket with least privilege IAM policy and validate access.
- Steps:
- Create S3 bucket.
- Attach least privilege policy to IAM user.
- Validate access.
- Exploiting IAM PassRole Misconfiguration
-Allows a user to pass a specific IAM role to an AWS service (ec2), typically used for service access delegation. Then exploit PassRole Misconfiguration granting unauthorized access to sensitive resources.
- Objective: Demonstrate how a PassRole misconfiguration can grant unauthorized access.
- Steps:
- Allow user to pass IAM role to EC2.
- Exploit misconfiguration for unauthorized access.
- Access sensitive resources.
- Exploiting IAM AssumeRole Misconfiguration with Overly Permissive Role
- An overly permissive IAM role configuration can lead to privilege escalation by creating a role with administrative privileges and allow a user to assume this role.
- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
- Steps:
- Create role with administrative privileges.
- Allow user to assume the role.
- Perform administrative actions.
- Differentiation between PassRole vs AssumeRole
Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
VARIABLE FREQUENCY DRIVE. VFDs are widely used in industrial applications for...PIMR BHOPAL
Variable frequency drive .A Variable Frequency Drive (VFD) is an electronic device used to control the speed and torque of an electric motor by varying the frequency and voltage of its power supply. VFDs are widely used in industrial applications for motor control, providing significant energy savings and precise motor operation.
Digital Twins Computer Networking Paper Presentation.pptxaryanpankaj78
A Digital Twin in computer networking is a virtual representation of a physical network, used to simulate, analyze, and optimize network performance and reliability. It leverages real-time data to enhance network management, predict issues, and improve decision-making processes.
Embedded machine learning-based road conditions and driving behavior monitoringIJECEIAES
Car accident rates have increased in recent years, resulting in losses in human lives, properties, and other financial costs. An embedded machine learning-based system is developed to address this critical issue. The system can monitor road conditions, detect driving patterns, and identify aggressive driving behaviors. The system is based on neural networks trained on a comprehensive dataset of driving events, driving styles, and road conditions. The system effectively detects potential risks and helps mitigate the frequency and impact of accidents. The primary goal is to ensure the safety of drivers and vehicles. Collecting data involved gathering information on three key road events: normal street and normal drive, speed bumps, circular yellow speed bumps, and three aggressive driving actions: sudden start, sudden stop, and sudden entry. The gathered data is processed and analyzed using a machine learning system designed for limited power and memory devices. The developed system resulted in 91.9% accuracy, 93.6% precision, and 92% recall. The achieved inference time on an Arduino Nano 33 BLE Sense with a 32-bit CPU running at 64 MHz is 34 ms and requires 2.6 kB peak RAM and 139.9 kB program flash memory, making it suitable for resource-constrained embedded systems.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
Use PyCharm for remote debugging of WSL on a Windo cf5c162d672e4e58b4dde5d797...shadow0702a
This document serves as a comprehensive step-by-step guide on how to effectively use PyCharm for remote debugging of the Windows Subsystem for Linux (WSL) on a local Windows machine. It meticulously outlines several critical steps in the process, starting with the crucial task of enabling permissions, followed by the installation and configuration of WSL.
The guide then proceeds to explain how to set up the SSH service within the WSL environment, an integral part of the process. Alongside this, it also provides detailed instructions on how to modify the inbound rules of the Windows firewall to facilitate the process, ensuring that there are no connectivity issues that could potentially hinder the debugging process.
The document further emphasizes on the importance of checking the connection between the Windows and WSL environments, providing instructions on how to ensure that the connection is optimal and ready for remote debugging.
It also offers an in-depth guide on how to configure the WSL interpreter and files within the PyCharm environment. This is essential for ensuring that the debugging process is set up correctly and that the program can be run effectively within the WSL terminal.
Additionally, the document provides guidance on how to set up breakpoints for debugging, a fundamental aspect of the debugging process which allows the developer to stop the execution of their code at certain points and inspect their program at those stages.
Finally, the document concludes by providing a link to a reference blog. This blog offers additional information and guidance on configuring the remote Python interpreter in PyCharm, providing the reader with a well-rounded understanding of the process.
Use PyCharm for remote debugging of WSL on a Windo cf5c162d672e4e58b4dde5d797...
Opportunities for research in cement & building materials
1. OPPORTUNITIES FOR RESEARCH
IN
CEMENT & BUILDING MATERIALS
Dr J D BAPAT
DEPARTMENT OF TECHNOLOGY (DOT)
SAVITRIBAI PHULE PUNE UNIVERSITY
17 OCTOBER 2014
2. WHY AM I TALKING ABOUT
CEMENT & BUILDING MATERIALS
STARTED CARRIER AS SCIENTIST AT
NATIONAL COUNCIL FOR CEMENT AND
BUILDING MATERIALS (NCB), NEW DELHI,
39 YEARS BACK (1975)
RESEARCHED IN AREAS OF ENERGY,
ENVIRONMENT, USING INDUSTRIAL &
AGRICULTURAL WASTES IN CEMENT &
CONCRETE
STILL CONTINUE TO WORK IN THE AREA
3. RAW MATERIALS & FUELS
LIMESTONE & CLAY AS THE SOURCE
OF CALCIUM, SILICON, ALUMINUM &
IRON
MOSTLY MINERAL COAL IN FINELY
GROUND FORM
4. ALTERNATIVE SOLID FUELS
• REFUSE DERIVED FUEL (RDF), TIRE-DERIVED FUEL
(TDF), MEAT & BONE MEAL (MBM), WASTE WOOD,
SEWAGE SLUDGE, PAPER & PLASTICS
• FEEDING THROUGH ROTARY KILN OR MIXING WITH
RAW MATERIALS
• REQUIRES NEW COMBUSTION EQUIPMENT OR
MODIFICATION OF EXISTING KILN SYSTEMS
• ALTERNATIVE FUELS INFLUENCE PROCESS STABILITY
& PRODUCT QUALITY
• DEPOSIT FORMATIONS IN THE ROTARY KILN
MATERIAL INLET END, KILN RISER DUCT & LOWER
CYCLONE STAGES
• CLINKER QUALITY MAY ALSO BE AFFECTED BY
MINOR COMPOUNDS FROM FUEL ASHES OR FROM
UNBURNED CARBON LEAVING ROTARY KILN WITH
CLINKER
6. REPLACING PORTLAND
CEMENT
PRODUCTION OF ONE t OF PORTLAND CEMENT
EXPELS ALMOST EQUAL MASS OF CO2 IN
ATMOSPHERE
CEMENT INDUSTRY CONTRIBUTES 5% OF THE
TOTAL ANTHROPOGENIC CO2 EMISSIONS
GLOBALLY
MINERAL ADMIXTURES (MA) REPLACE CEMENT &
AFFECT REDUCTION IN CO2 EMISSION
THEY ARE INDUSTRIAL & AGRICULTURAL
WASTES
VOLUME OF THESE WASTES CURRENTLY
PRODUCED WORLDWIDE EXCEEDS THEIR
UTILIZATION
7. RICE HUSK ASH (RHA)
RH IS PRESENTLY CONSIDERED AS
AGRICULTURAL WASTE & USED AS FUEL,WHERE
ITS POZZOLANIC VALUE LIES UNUTILIZED
ABUNDANT AVAILABILITY OF RH IN RICE
PRODUCING COUNTRIES PROVIDES HUGE SCOPE
TO RECOVER ITS HEAT VALUE TO GENERATE
POWER & TO USE RHA PRODUCED IN CEMENT &
CONCRETE
LARGE-SCALE APPLICATION OF RHA IN THE
CONSTRUCTION INDUSTRY REQUIRES INDUSTRIAL
& ECONOMIC POLICY PLANNING
8. RICE HUSK ASH (RHA)
PHYSICAL & MINERALOGICAL CHARACTERISTICS OF RHA:
AMORPHOUS SILICA, SURFACE AREA, GRINDABILITY & CARBON CONTENT,
DEPEND UPON TEMPERATURE, ENVIRONMENT & DURATION OF COMBUSTION
SURFACE SILANOL (SI-OH) SITES IN THE AMORPHOUS SILICA
RESPONSIBLE FOR THE POZZOLANIC ACTIVITY OF RHA
TO OBTAIN SILICA IN AMORPHOUS FORM, COMBUSTION TEMPERATURE
REMAINS IN 500°C–700°C, WITH OPTIMUM TIME DURATION APPROPRIATE FOR
THE PROCESS, TO OBTAIN RHA WITH LOW CARBON CONTENT, HIGH SURFACE
AREA & MAXIMUM GRINDABILITY
MODERN FLUIDIZED OR CYCLONIC BED PROCESSES PRODUCE RHA WITH
ABOVE 85% AMORPHOUS SILICA AND VERY LOW CARBON CONTENT IN RANGE
OF 1%–4%
NEED TO IDENTIFY A PROCESS TO MANUFACTURE RHA ON A SMALL SCALE
NEAR PADDY FIELDS & SUITABLE FOR ADOPTION IN THE RURAL AREAS
9. RICE HUSK ASH (RHA)
RHA, PRODUCED UNDER PROPER CONDITIONS, IS SOFT &
EASILY PULVERIZED TO DESIRED SIZE, FINER THAN CEMENT,
WITH PARTICLE SIZE < 10 MICRON & BET SURFACE AREA OF
20–40 m2/g, IN COMPARISON SF: > 15 M2/g
SILICA CONTENT (MOSTLY AMORPHOUS): 87-96%
UNLIKE SF OR FA, PARTICLES OF RHA ARE ANGULAR &
REMAIN POROUS EVEN AFTER SIZE REDUCTION
IMPROPERLY GROUND RHA EXHIBITS LOW POZZOLANIC
ACTIVITY & HIGH WATER REQUIREMENT DUE TO WATER
ABSORPTION BY POROUS PARTICLES
FINE PARTICLES OF RHA AFFECT REFINEMENT IN PORE
STRUCTURE OF CONCRETE
USE OF RHA IN CONCRETE CAN BE CONSIDERED AS SAFE FROM
TOXICITY POINT OF VIEW
CEMENT REPLACEMENT UP TO 30% REPORTED
11. PORTLAND LIMESTONE
CEMENT (PLC)
IMPROVED PARTICLE PACKING
PROVIDES NUCLEATION
SITES FOR HYDRATION
PRODUCTS
LS REACTS WITH
ALUMINATES IN
CEMENT TO FORM
CARBOALUMINATES
12. PORTLAND LIMESTONE CEMENT (PLC)
LIMESTONE REQUIREMENTS: EN STANDARDS
CALCIUM CARBONATE > 75%
TOTAL ORGANIC CARBON (TOC): MAX 0.5%
CLAY: MAX 1.2 g/100g
13. PORTLAND HIGH VOLUME
FLY ASH CEMENT (PHFC)
PHFC REFERS TO BLENDED CEMENT PRODUCED IN CEMENT PLANT,
WITH FA REPLACEMENT CEMENT >55%
AT PRESENT HIGH VOLUMES OF FA (>55%) ARE ADDED AS REPLACEMENT
OF CEMENT, AT RMC PLANTS, TO PRODUCE HIGH VOLUME FLY ASH
CONCRETE (HVFAC) (.) IT NECESSITATES ADDITIONAL STORAGE SILOS &
QUALITY CONTROL AT JOB SITE
PHFC IS ONE OPTION, INCREASING AMOUNT OF FA THAT CAN REPLACE
PORTLAND CEMENT (PC) FROM <20% IN CONVENTIONAL MIXES UP TO AS
HIGH AS 55%
PHFC CAN BE PRODUCED EITHER BY INTER-GRINDING FA WITH PC
CLINKER & GYPSUM OR BY BLENDING DRY FA WITH PC (.) SOMETIMES DRY
SUPER PLASTICISER IS ALSO INTERGROUND (.) PRODUCTION OF PHFC
USING INTER-GRINDING METHOD APPEARS MOST COST-EFFECTIVE &
PRACTICAL
REQUIRED TO SATISFY MINIMUM STRENGTH AS PER ASTM C1157, OF 10 &
17 MPa AT 3 & 7 DAYS RESPECTIVELY
14. PORTLAND HIGH VOLUME FLY ASH
CEMENT (PHFC)
CONCRETE WITH PHFC
RESULTS OF LABORATORY TRIALS ON PHFC WITH 55% FA*
FRESH CONCRETE: CONCRETE WITH PHFC REQUIRED MORE SP & AEA,
AS INTER-GRINDING INCREASED FINENESS
COMPRESSIVE STRENGTH: IRRESPECTIVE OF SOURCE & TYPE OF FA,
CONCRETE WITH PHFC DEVELOPED BETTER STRENGTH COMPARED TO
THAT PREPARED BY SEPARATE ADDITION OF CEMENT & UN-GROUND FA AT
MIXER
CHLORIDE RESISTANCE: INTER-GRINDING IMPROVED CHLORIDE
RESISTANCE OF CONCRETE
*Ref: “Development of high-volume fly ash blended cements”, Electric Power
Research Institute (EPRI), California, USA, 2001
15. PORTLAND HIGH VOLUME
FLY ASH CEMENT (PHFC)
PHFC IS FACTORY MADE WITH FA REPLACING CEMENT AT 55%
ADDING SP TO CLINKER AT FINISH GRINDING STAGE HELP REDUCE
GRINDING ENERGY & ALSO SOLVES COMPATIBILITY ISSUES AT
CONCRETING STAGE
INTER-GRINDING FA WITH GROUND CEMENT FOR FIXED TIME PERIOD
IMPARTS BETTER CONCRETE PROPERTIES
PHFC HAS VERY GOOD RESISTANCE TOWARDS CHLORIDE PENETRATION
16. NEW MINERAL ADMIXTURES
UNDER INVESTIGATION
ASH PRODUCED FROM BIOMASS
CORN COB ASH (CCA)
PALM OIL RESIDUE ASH (PORA)
SUGARCANE BAGASSE ASH (SBA)
WHEAT STRAW ASH (WSA)
WOOD WASTE ASH (WWA
SEWAGE SLUDGE ASH (SSA)
MUNICIPAL SOLID WASTE ASH (MSWA)
17. NEW MINERAL ADMIXTURES
UNDER INVESTIGATION
BIOMASS ASH
UP TO 20%, OF BIOMASS CONSISTS OF INORGANIC CONSTITUENTS, REFERRED AS ASH, WHICH
CANNOT BE CONVERTED TO ENERGY
POSSIBLE TO PRODUCE PFA WITH POZZOLANIC PROPERTIES, BURNING & PROCESSING BIOMASS
UNDER CONTROLLED CONDITIONS, EITHER THRU CO-FIRING WITH MINERAL COAL OR SEPARATELY
NECESSARY TO CONTROL THE CARBON, ALKALI, CHLORIDE & SULFATE CONTENT
IN ADDITION, LEACHING & TOXICITY PROPERTIES ALSO NEED TO BE TESTED BEFORE ITS USE IN
CONCRETE
POSSIBLE TO PRODUCE STRUCTURAL GRADE CONCRETE, PARTIALLY REPLACING CEMENT WITH
BIOMASS PFA TO THE EXTENT OF 20%–25%
WATER DEMAND, REQUIREMENT OF AIR ENTRAINING AGENT & SETTING TIME INCREASE WITH THE
APPLICATION OF SUCH PFA
DURABILITY PARAMETERS ALSO NEED TO BE TESTED, ON A CASE-TO-CASE BASIS
STRATEGIES FOR SUSTAINABLE MANAGEMENT OF BIOMASS ASH WILL HAVE TO BE WORKED OUT,
CONSIDERING DISPOSAL COST & VOLUME, INCREASING WORLDWIDE.
ASTM C618 PROHIBITS USE OF BIOMASS FLY ASH IN CONCRETE
EUROPEAN STANDARD ALLOWS CO-FIRING OF BIOMASS WITH COAL, UP TO 25% ON MASS BASIS
ON ACCOUNT OF WIDE RANGE OF BIOMASS RESOURCES & COMBUSTION CONDITIONS, UPPER LIMIT
HAS BEEN SPECIFIED FOR THE CONTENT OF ALKALI (5%), CHLORIDE (0.1%) & UNBURNED CARBON (5%).
18. NEW MINERAL ADMIXTURES UNDER
INVESTIGATION
SEWAGE SLUDGE ASH (SSA)
TREATMENT OF WASTEWATER GENERATES SLUDGE & ITS
INCINERATION PRODUCES SSA
ABOUT 300–400 kg ASH/t IS PRODUCED
SINCE SSA IS A WASTE MATERIAL, ATTENTION MUST BE PAID TO
ENVIRONMENTAL IMPACT, WHEN REUSED
IN CONCRETE, REDUCED WORKABILITY & INCREASED SETTING
TIME HAS BEEN REPORTED (.) NEGATIVE EFFECT CAN BE
COUNTERED USING SUPERPLASTICIZER (.) RESULTS ON
COMPRESSIVE STRENGTH ARE NOT UNIFORM
IN VIEW OF THAT, 10%–15% CEMENT REPLACEMENT MAY BE
TRIED, SUBJECT TO THE SATISFACTORY LEACHABILITY TESTS
19. NEW MINERAL ADMIXTURES UNDER
INVESTIGATION
MUNICIPAL SOLID WASTE ASH (MSWA)
MILLIONS OF TONS OF MSW IS PRODUCED GLOBALLY (.) INCREASED
ENVIRONMENTAL AWARENESS, CONTINUOUSLY INCREASING LANDFILL COSTS,
SCARCITY OF LANDFILL SITES & SLOW COMPOST PROCESS UNDERLINE NEED TO
TAKE INTO ACCOUNT ALTERNATIVE DISPOSAL METHODS
INCINERATION IS A COMMON TECHNIQUE & REDUCES SOLID WASTE BY MASS &
VOLUME, PROVIDES FOR ENERGY RECOVERY & LEADS TO COMPLETE DISINFECTION
TOTAL AMOUNT OF MSWA GENERATION RANGES FROM 4% TO 10% BY VOLUME
&15%–20% BY WEIGHT OF ORIGINAL QUANTITY OF WASTE & FLY ASH (OBTAINED
FROM THE DUST COLLECTION EQUIPMENT) AMOUNTS TO 10%–20% OF TOTAL ASH
PORTLAND CEMENT, BLENDED WITH PFA & BFS, CONTAINING UP TO 20% MSWA, IS
FOUND TO BE GOOD IN MECHANICAL PROPERTIES AS WELL AS FOR
IMMOBILIZATION OF LEAD & SULFATE BUT SOMEWHAT LESSER FOR ZINC &
CHLORIDE, INTO STABLE, LESS SOLUBLE COMPOUNDS (.) CAPACITY INCREASES
WITH HARDENING AGE
ALTHOUGH MSWA CAN BE ADDED TO CONCRETE AS A PARTIAL CEMENT
REPLACEMENT, THERE IS STILL SOME SCOPE FOR THE DEVELOPMENT, BEFORE IT
COULD BE EFFECTIVELY USED AS A MINERAL ADMIXTURE
20. FLY ASH IN CONCRETE:
ACKNOWLEDGEMENT
• I THANKFULLY ACKNOWLEDGE THAT WHILE MAKING
THIS PRESENTATION, I HAVE FREELY DRAWN UPON
THE INFORMATION PUBLISHED IN THE FOLLOWING
BOOK:
MINERAL ADMIXTURES IN CEMENT AND CONCRETE
AUTHOR: JAYANT D. BAPAT
PUBLISHER: CRC PRESS, TAYLOR & FRANCIS GROUP,
USA
21. TRAINING COURSE
CONTENTS
APPLICATION OF MINERAL ADMIXTURES:
FA, BFS, SF, MK RHA
APPLICATION OF CHEMICAL ADMIXTURES
& SUPER PLASTICISERS
HIGH PERFROMANCE CONCRETE:
HIGH STRENGTH, SCC, RCC, LIGHTWEIGHT,
PERVIOUS, HVFAC
GROUP DISCUSSIONS, CASE STUDIES &
VIDEOS
DETAILS: http://www.drjdbapat.com
22. TRAINING COURSE
WHO SHOULD ATTEND
ENGINEERS WORKING AT CONSTRUCTION
SITE
ENGINEERS WORKING WITH CEMENT,
CONCRETE INDUSTRY
ENGINEERS WORKING WTH MANUFACTURERS
AND SUPPLIERS OF CHEMICAL ADMIXTURES
AND MINERAL ADMIXTURES
ENGINEERS WORKING ON PRODUCT
DEVELOPMENT
STUDENTS/RESEARCHERS
DETAILS: http://www.drjdbapat.com
23. TRAINING COURSE
FLEXIBILITY
CONTENTS: CHOOSE AS PER YOUR
REQUIREMENT
DURATION: 1-2 DAYS
VENUE: PUNE OR YOUR HEAD OFFICE,
PLANT OR CONSTRUCTION SITE
DETAILS: http://www.drjdbapat.com
24. JOIN MY NETWORK
YOU ARE WELCOME TO JOIN ME
FACEBOOK: Jayant D Bapat
TWITTER: @cemcretecon & @drjdbapat
LINKEDIN: Dr J. D. Bapat
(email: jdbapat@yahoo.co.in)
EMAIL_1: consult@drjdbapat.com
EMAIL_2: consult.bapat@yahoo.com
URL: http://www.drjdbapat.com