The document provides information about the Institute of Chemical Technology (ICT), including that it is a deemed university located in Mumbai that offers undergraduate, postgraduate, and doctoral programs in fibres and textile processing technology, with details on faculty, courses, labs, student profiles, and events.
International Journal of Computer Networks & Communications (IJCNC) - Scopus...IJCNCJournal
The International Journal of Computer Networks & Communications (IJCNC) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Computer Networks & Communications. The journal focuses on all technical and practical aspects of Computer Networks & data Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced networking concepts and establishing new collaborations in these areas.
Suitable for: 1. Technical Personnel and Decision-Makers are encouraged to participate in this training. 2. DECISION MAKERS: Technical Directors, Managers, Purchasers. 3. TECHNICAL PERSONNEL: Lecturers, Technical Sales, Marketing, Failure Analysis, Research & Development, Quality Control and Assurance, Production Engineers or Technicians. The characteristic of surface and near-surface regions of materials can be characterised by various surface analysis techniques. Applications of many engineering materials are determined by the surface and near-surface structures. Therefore, the well being of this region is essential in order to obtain a pre-required condition for those materials to be applied for a specific application. Typically, failure of engineering products may be traced back to surface/near-surface contamination or surface reconstruction. In order to obtain more information related to the failure, in-sight of these regions need to be exposed. This course is outlined to introduce basic principles of surface science, which serve as an essential foundation to explain the operation concepts and applications of several important surface analysis techniques. Know-how of interpreting the analysis data is also explained in this “easy-to-follow” and “easy-to-understand” training course. With these and the support of brief but sufficient fundamental theories, skill of selecting a relevant technique with respect to its practical engineering usage will be covered. Ultimate goal for this course is to increase level of knowledge in making a correct technical decision to solve surface related issues and transform knowledge into applications.
International Journal of Computer Networks & Communications (IJCNC) - Scopus...IJCNCJournal
The International Journal of Computer Networks & Communications (IJCNC) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Computer Networks & Communications. The journal focuses on all technical and practical aspects of Computer Networks & data Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced networking concepts and establishing new collaborations in these areas.
Suitable for: 1. Technical Personnel and Decision-Makers are encouraged to participate in this training. 2. DECISION MAKERS: Technical Directors, Managers, Purchasers. 3. TECHNICAL PERSONNEL: Lecturers, Technical Sales, Marketing, Failure Analysis, Research & Development, Quality Control and Assurance, Production Engineers or Technicians. The characteristic of surface and near-surface regions of materials can be characterised by various surface analysis techniques. Applications of many engineering materials are determined by the surface and near-surface structures. Therefore, the well being of this region is essential in order to obtain a pre-required condition for those materials to be applied for a specific application. Typically, failure of engineering products may be traced back to surface/near-surface contamination or surface reconstruction. In order to obtain more information related to the failure, in-sight of these regions need to be exposed. This course is outlined to introduce basic principles of surface science, which serve as an essential foundation to explain the operation concepts and applications of several important surface analysis techniques. Know-how of interpreting the analysis data is also explained in this “easy-to-follow” and “easy-to-understand” training course. With these and the support of brief but sufficient fundamental theories, skill of selecting a relevant technique with respect to its practical engineering usage will be covered. Ultimate goal for this course is to increase level of knowledge in making a correct technical decision to solve surface related issues and transform knowledge into applications.
Engineering appliances and gadgets are dominating the life of human being. Therefore, it is a need to understand the characteristics of engineering materials being used to produce these products. The materials that are being selected must fulfil some of the basic requirements. To design, engineered, improve, and develop any of these products, it is essential to understand the properties of materials. In this “easy-to-follow” and “easy-to-understand” training course, engineering materials properties will be elaborate in detail.
Upon completion of this training course, participants should be able:
To explain concepts related to electrical, thermal, optical, magnetic, dielectric, superconductivity properties.
To correlate theory and principle of solid state materials with their engineering applications.
To suggest engineering materials for certain engineering applications
International Journal of Computer Networks & Communications (IJCNC)IJCNCJournal
The International Journal of Computer Networks & Communications (IJCNC) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Computer Networks & Communications.The journal focuses on all technical and practical aspects of Computer Networks & data Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced networking concepts and establishing new collaborations in these areas.
In recent decades, we have seen a shift towards using more machinery and technology in the medical field, and this trend has surged the demand of Biomedical Engineers. Hence, the combination of engineering principles with our body has helped Biomedical engineers to contribute to the development of life-saving and revolutionary concepts such as Kidney dialysis, Artificial organs, pharmaceutical drugs, Advanced prosthetics, and Surgical robots. Ekeeda offers Online Biomedical Engineering Courses for all the Subjects as per the Syllabus.
Suitable for:
1. Technicians, engineers and researchers
2. Decision makers, policy makers, and managers
Engineering materials are the core of any engineering products. The performance of the products is determined by the behaviour and characteristics of the designed materials according to their required specifications. Therefore, it is extremely important to understand the characteristics of the materials. This can be done by performing an appropriate and reliable characterization or testing on the materials. By doing that, information that is of interest namely electrical, mechanical, thermal, optical, and chemical property can be acquired and subsequently correlate with the product performance. To acquire this information, knowledge of characterization tools, limitation of the tools, and application of the tools is essential. By having this knowledge, it may help engineers and researchers to select a suitable tool for a specific purpose. The characterization techniques being introduced are suitable for materials with dimensionality ranging from nanometer to macrometer scale (or nanostructures to bulk materials).
Infomatica Academy - Engineering Degree - Biomedical Engineering SyllabusInfomatica Academy
Searching for Engineering Classes near Me? Join Infomatica - the Best Engineering Academy with Expert Faculties & Online Study Material. Secure Your Future!
Engineering appliances and gadgets are dominating the life of human being. Therefore, it is a need to understand the characteristics of engineering materials being used to produce these products. The materials that are being selected must fulfil some of the basic requirements. To design, engineered, improve, and develop any of these products, it is essential to understand the properties of materials. In this “easy-to-follow” and “easy-to-understand” training course, engineering materials properties will be elaborate in detail.
Upon completion of this training course, participants should be able:
To explain concepts related to electrical, thermal, optical, magnetic, dielectric, superconductivity properties.
To correlate theory and principle of solid state materials with their engineering applications.
To suggest engineering materials for certain engineering applications
International Journal of Computer Networks & Communications (IJCNC)IJCNCJournal
The International Journal of Computer Networks & Communications (IJCNC) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Computer Networks & Communications.The journal focuses on all technical and practical aspects of Computer Networks & data Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced networking concepts and establishing new collaborations in these areas.
In recent decades, we have seen a shift towards using more machinery and technology in the medical field, and this trend has surged the demand of Biomedical Engineers. Hence, the combination of engineering principles with our body has helped Biomedical engineers to contribute to the development of life-saving and revolutionary concepts such as Kidney dialysis, Artificial organs, pharmaceutical drugs, Advanced prosthetics, and Surgical robots. Ekeeda offers Online Biomedical Engineering Courses for all the Subjects as per the Syllabus.
Suitable for:
1. Technicians, engineers and researchers
2. Decision makers, policy makers, and managers
Engineering materials are the core of any engineering products. The performance of the products is determined by the behaviour and characteristics of the designed materials according to their required specifications. Therefore, it is extremely important to understand the characteristics of the materials. This can be done by performing an appropriate and reliable characterization or testing on the materials. By doing that, information that is of interest namely electrical, mechanical, thermal, optical, and chemical property can be acquired and subsequently correlate with the product performance. To acquire this information, knowledge of characterization tools, limitation of the tools, and application of the tools is essential. By having this knowledge, it may help engineers and researchers to select a suitable tool for a specific purpose. The characterization techniques being introduced are suitable for materials with dimensionality ranging from nanometer to macrometer scale (or nanostructures to bulk materials).
Infomatica Academy - Engineering Degree - Biomedical Engineering SyllabusInfomatica Academy
Searching for Engineering Classes near Me? Join Infomatica - the Best Engineering Academy with Expert Faculties & Online Study Material. Secure Your Future!
THAPAR INSTITUTE OF ENGINEERING & TECHNOLOGY RishabhRawat53
The Thapar Institute of Engineering and Technology (TIET) is one of India's oldest and finest educational institutions, which provides a steady source of highly skilled talent to the nation as well as overseas. Founded in 1956 with a campus spread across sprawling 250 acres, Thapar Institute of Engineering & Technology, located in Patiala, has been a pioneer in engineering education, research and innovation. Our community involves ingenious minds solvers who are eager to make the world a better place to live in with their innovative techniques and discoveries.
WHO SHOULD ATTEND?
1. Technical Personnel and Decision-Makers are encouraged to participate in this training.
2. DECISION MAKERS: Technical Directors, Managers, Purchasers.
3. TECHNICAL PERSONNEL: Lecturers, Technical Sales, Marketing, Failure Analysis, Research & Development, Quality Control and Assurance, Production Engineers or Technicians.
INTRODUCTION
The characteristic of surface and near-surface regions of materials can be characterised by various surface analysis techniques. Applications of many engineering materials are determined by the surface and near-surface structures. Therefore, well-being of this region is essential in order to obtain a pre-required condition for those materials to be applied for a specific application. Typically, failure of engineering products may be traced back to surface/near-surface contamination or surface reconstruction. In order to obtain more information related to the failure, in-sight of these regions need to be exposed. This course is outlined to introduce basic principles of surface science, which serve as an essential foundation to explain the operation concepts and applications of several important surface analysis techniques. Know-how of interpreting the analysis data is also explained in this “easy-to-follow” and “easy-to-understand” training course. With these and the support of brief but sufficient theories of fundamental, skill of selecting a relevant technique with respect to its practical engineering usage will be covered. Ultimate goal for this course is to increase level of knowledge in making a correct technical decision to solve surface related issues and transform knowledge into applications.
COURSE OBJECTIVES
Upon completion of this course, participants will be able to:
i. List down common techniques used for surface analysis.
ii. Explain operation principles of those techniques.
iii. State advantages and limitations of a given technique.
iv. Systematically identify and justify useful analytical technique for problem solving.
National Institute of Foundry and Forget Technology (NIFFT), RanchiNIFFT Ranchi
This presentation highlights the legacy of National Institute of Foundry and Forge Technology (NIFFT) as a premier research institute in metallurgical, manufacturing, foundry, and forging sectors. This presentation was presented on 23rd December 2013 to JS (NIT's) MHRD, Govt. of India.
1. INSTITUTE OF CHEMICAL TECHNOLOGY,
MUMBAI
(DEEMED UNIVERSITY UNDER SECTION 3 UGC ACT 1956)
DEPARTMENT OF FIBRES AND TEXTILE
PROCESSING TECHNOLOGY
PLACEMENT BROCHURE
2016-2017
B.TECH, M.TECH, M.Sc
2. ABOUT US
Institute of chemical Technology (ICT) has come a long way from its foundation as the
Bombay University Department of Chemical Technology on October 1, 1933/ It was
recognized as an institute and changed to the Mumbai University Institute of Chemical
Technology on January 26, 2002. The Government of Maharashtra granted full
autonomy to ICT in June 2004. On the recommendation of the Government of
Maharashtra and University of Mumbai, ICT was granted Deemed University status
by the Ministry of Human Resource Development (MHRD) on September 12, 2008.
ICT has brought kudos to India. Its stellar performance is reflected in the following
achievements:
•ICT is the first Institute in Maharashtra to get elite status in 2012, which sets the
institute at par with IITs and IISERs
•The MHRD had evaluated all deemed universities in the country all deemed
universities in the country in 2009 and granted A grade to 38 universities among 135
deemed universities. ICT is rated as the number one Deemed universities with A
grade.
•ICT has been chosen for implementation of both TEQUIP I and TEQUIP II
implementation.
•ICT has also been rated as the number one institute by the National project
Implementation Unit (NPIU) among 127 Technical Education Quality Improvement
Program (TEQUIP) funded institutes, all over india, in October 2010.
•ICT Mumbai retained its number one rank among the public institutions in the Bio
Spectrum Biotech School Survey2011, conducted by Bio Spectrum India.
•The University Grants Commission (UGC) recognised faculty members who have
guided at least 15 Ph.D degree holders.
•ICT has a record of 14 faculty members who have qualified for special grants.
Research has been an integral part of ICT, with state-of-the art research facilities and
hostels. The faculty is highly accomplished, with multi-disciplinary interests and
decorated with national and international awards and honours. All leading foreign
universities and industries seek ICT graduates. The fore going demonstrates ICT’s
international standing, meriting the criteria on of a special status.
3. ABOUT US
ICT ALUMNI
PADMASHRI
DR A V RAMA RAO
Director IICT Founder
AVRA Labs
PADMASHRI
DR ANJI REDDY
Founder Dr. Reddy
MUKESH AMBANI
Chairman & managing
director
Reliance Industries Ltd
ASHWIN DANI
Vice chairman &
Founder Asian
paints
MUKESH PAREKH
Managing Director,
Pidilite Industries
PADMABHUSHAN
PROFESSOR J B
JOSHI
Director UDCT,
1999-2009
DR. K.H.GHARDA
Chairman &
managing director
Gharda chemicals
Ltd
PADMAVIBHUSHAN
PROFESSOR M M
SHARMA
Director UDCT
(1989-1997)
NAROTAM
SEKHSARIA
Chairman,
Ambuja
Cements Ltd
PADMAVIBHUSHAN
PROFESSOR R A
MASHELKAR
First Chancellor ICT
VICE CHANCELLORS MESSAGE
ICT stands with a mission to educate its students with the core
knowledge of technology, to develop leaders in this field to instill
an understanding of professional responsibilities, ethics and
perpetual self sustenance. It is one of the top performing
institutions, in the country as well as around the world, by many
standards. Its close relationship to the industry has resulted in a
dynamic curriculum development for undergraduate education
programme and relevant research with a high level of
implementation of innovation. ICT’s highly motivated and
qualified student body has to brilliant history of academic
achievements and successful industrial placements. A close
interaction with these students would give an opportunity to you
to probe them as probable employees in future. I can assure you
that our students will do justice to task given to them.
PADMASHRI
PROFESSOR G D YADAV
F.N.A., F.N.A.Sc., F.I.Chem.E., F.M.A.Sc.,F.I.I.Ch.E., F.I.C.S., Director
and Vice Chancellor of ICT, R. T. Modi Distinguished Professor of
Chemical Technology, J. C. Bose National Fellow (DST – GOI)
4. ABOUT US
The textile department over decades has proved to be the most preferred destination
for aspiring textile technologists from across the country. The department consistently
attracts the finest faculty and the best of students for its Undergraduates, Postgraduate
and Doctoral programmes The Department of Fibres and Textile Processing
Technology has continually re-invented itself in terms of academic programmes and
research infrastructure for the pursuit of technological excellence. Students are
not only exposed to the core disciplines of textiles processing but also fibre manufacture,
dyestuff and specialty chemical manufacturing. The presence of world class facilities,
vigorous institute-industry collaborations, inter-disciplinary research collaboration and industrial
training opportunities help students of ICT to excel and move ahead in the competitive professional
environment.
We highly value our partnership with recruiters, alumni and friends of Institute of Chemical Technology
and remain committed to making your recruiting experience productive and positive. I invite the
recruiting organizations and graduating students to find the best match between their needs and
capabilities.
Message from the Head of the Department
Prof.(Dr.)R. V. Adivarekar
5. FACULTY PROFILE
Prof.(Dr.)R. V. Adivarekar
B.Sc.(MumbaiUniversity,1985)
B.Sc.(Tech.)(MumbaiUniversity,1988)
M.Sc.(Tech.)(MumbaiUniversity,
1990)
Ph.D.(Tech.)(MumbaiUniversity, 1995)
Professor of Fibre Chemistry,
Head of Department
Research Students: Guided:
Ph.D-6 M.Tech- 30 Ongoing:
Ph.D- 18M.Tech-9
Research Publications:lnternational-39; National-48
Sponsored Projects: Government: 2;Private: 7
Email: rv.adivarekar@ictmumbai.edu.in
PROF.(DR.) M. D. TELI
B.Sc. (Hons.) (Mumbai
University, 1973)
B.Sc. (Tech.) (Mumbai University, 1976)
Ph.D. (Tech.) (MumbaiUniversity, 1981)
Professor of Textile Chemistry
ResearchStudents:
Guided: Ph.D: 21; M.Tech:96
Ongoing: Ph.D;11 M.Tech:8
Research Publications:lnternational-122;National- 139 Sponsored
Projects:
Government- Completed: 3 Ongoing: 1
Private- Completed: 9 Ongoing: 1
Email: md.teli@ictmumbai.edu.in
PROF.(DR.) S.R. SHUKLA
B.Sc. (Hons.)(Shivaji University, 1971)
B.Sc.(Tech.)(Mumbai University,
1974)
Ph.D. (Tech.) (Mumbai University, 1980)
ProfessorofTechnologyofdyeing and
Printing
Research Students:
Guided-Ph.D :23 M.Tech:62
Ongoing:Ph.D; 12 M.Tech:6
Research Publications:lnternational-123
SponsoredProjects:
Government- Completed: 6 Ongoing: 1
Private- Completed: 3 Ongoing:1
Email:sr.shukla@ictmumbai.edu.in
DR. USHA SAYED
B.Sc.(Mumbai University,1977) B.Sc.(Tech.)
(Mumbai University, 1980)
M.Sc.(Tech.) (MumbaiUniversity, 1983)
Ph.D.(Tech.) (Mumbai University, 1997)
Associate Professor
ResearchStudents:
Guided: Ph.D-1 M.Tech- 18 Ongoing:
Ph.D -4 M.Tech-6
Research Publications: International- 6 National- 16
SponsoredProjects:Government: Completed-3 Private:completed-
1
Email: u.sayed@ictmumbai.edu.in
DR. R. D. KALE
B.Sc.(Mumbai University,1993)
B.Sc. (Tech.) (Mumbai University, 1996)
M.Tech. (Mumbai University,2005)
Ph.D.(Tech.) (Mumbai University, 2012)
Assistant Professor
Research Students:
Guided: M.Tech-8
Ongoing: Ph.D-5 M.Tech- 6
Research Publications: International- 9, National- 5 Sponsored
Projects: Government: Completed-1, Ongoing-1 Email:
rd.kale@ictmumbai.edu.in
DR. ASFIYA CONTRACTOR
B.Tech. (Mumbai University, 2003)
M.S. (University of Akron, Ohio,
2005)
Ph.D. (IIT, Bombay, 2008)
AdjunctProfessor
Research Publications:
International- 8
Email: asfiyacontractor@gmail.com
DR. S. P. MORE
B.Sc.(Marathwada University,2003)
M. Sc.(Marathwada University, 2005)
Ph.D.(University of Freiburg,Germany
2013)
PDF (University of Siegen, Germany,
2015)
DST INSPIRE Faculty
Research Students: RA 1
Research Publications: International- 8,
Sponsored Projects: Government: Ongoing-2
Email: sp.more@ictmumbai.edu.in
6. COURSE CURRICULUM
B.TECH
Theory Subjects
Inorganic Chemistry
Organic Chemistry
Physical Chemistry
Applied Mathematics
Applied Physics
Analytical Chemistry
Laboratory Courses
Physics Lab
Inorganic Chemistry Lab
Organic Chemistry Lab
Computer Lab
Analytical Chemistry Lab
Basic Engineering Courses
Theory Subjects
1. Material and Energy Balance Computations
2. Chemical Engineering Operations
3. Fluid Flow and Heat Transfer
4. Chemical Reaction Engineering
5. Instrumentation and Process Control
6. Engineering Mechanics and strength of Materials
7. Electrical and Electronics Engineering
8. Chemical Project Economics
9. Introduction to Multiphase Reactors
Laboratory Courses
1. Engineering Drawing
2. Basic electronics and electrical engineering
3. Chemical Unit Operations Lab
Theory Subjects
1. Technology of Fibres
2. Colour Physics
3. Technology of Yarn and Fabric Manufacture
4. Technology and Theory of Textile Colouration
5. Technology of Pretreatments
6. Technology of Dyeing and Printing
7. Technology of Textile Polymers
8. Chemistry of dyes and dye intermediates
9. Testing of Textile Materials
10. Chemistry and Application of Specialty Chemicals
11. Technology of Finishing
12. Textile Process House Management
13. Merchandizing and design of textiles
14. Advanced Textile Technology
15. Garment Manufacturing and Processing Technology
Fibres and Textile Processing
Laboratory Courses
1. Colour Physics Lab
2. Experimental Dyeing
3. Tinctorial Chemistry
4. Technical Analysis Lab
5. Testing of Textiles
6. Wet Processing of Textiles and Printing
Humanities
1. Communication Skills
2. Industrial Psychology and HR Management
3. Organizational Behaviour and Production
Management
Basic Sciences
• In addition students also undergo six weeks
internship in an industry after third year.
• Students also perform seminar and project
in their final year under the guidance of the
department faculty
7. COURSE CURRICULUM
M.Sc
SEMESTER – I
•Technical Textiles
•Modification of Fibrous Polymers
•Physical Methods of Analysis
•Continuous Processing of Textile
•Intellectual Property Rights
•Critical Review of One research Publication
•Seminar
SEMESTER – II
•Advanced Textile Chemistry
•Energy and Water conservation in processing Industries
•Evaluation of Textiles, Dyes and Auxiliaries
•Environmental Problems in Textile Processing
•Developments in Textile Processing Machinery
•Biotechnology in Textiles
•Literature review on the proposed research topic
SEMESTER III & IV
Research Project
•The curriculum provides comprehensive knowledge and skill to apply advanced technology in textile industry.
M.TECH
SEMESTER – I
•Polymer Chemistry
•Chemistry of Natural Fibres
•Chemistry of Man Made Fibres
•Chemistry of Textile Auxiliaries
•Pretreatment of Textiles
•Manufacture of Yarn and Fabric
•Testing and Analysis of Fibres
•Pretreatment Laboratory
•Analysis of Textile Chemicals
SEMESTER – II
•Dyeing of Natural Fibres
•Dyeing of Man Made Fibres
•Technology of Wet Processing Machinery
•Instrumental Method of Analysis
•Processing of Garments
•Computer Applications in Colour Evaluation
•Dyeing of Natural Fibres
•Dyeing of Manmade Fibres
•Testing and Application of Auxiliaries
SEMESTER – III
•Printing of Textiles
•Finishing of Textiles
•Evaluation of Processed Textiles
•Continuous Processing of Textiles
•Seminar
•Printing Lab
•Finishing Lab
•Fastness Lab
SEMESTER – IV
•Factory/Laboratory Training
•Project
8. COURSE CURRICULUM
SKILLS DEVELOPED
•Practical knowledge of wet processing of textiles, understanding the evaluation and
application of dyes & chemicals, evaluation of chemical and physical properties of
textile materials, etc.
•Acquired adequate knowledge and skills of macro changes and paradigm shifts taking
place in textile and related fashion industry
•Enhanced attitude for continuous improvement and learning. Awareness of latest
technologies, updates of developments in dyeing, specialty chemicals.
•Capability to understand and solve the problems related to textile processing and
manufacturing and analytical skills to deal with complex problems of industry.
•Understanding in the field of merchandising, eco-friendly processing, designs of
apparels etc.
•Students of the department are empowered to produce results and work under
pressure as well to work in a team with good managerial and persuasive skills. They
develop the ability of managing the time in the best possible way. This results in all
round development of the personality and eventually helping to be better professionals.
13. EVENTS
TEXQUEST
Texquest is the annual technical festival of the Department of Fibres and Textile Processing
Technology.
Texquest comprises of two phases, one for undergraduates and other for post graduates. The UG
events comprises of Tex-Sell – The Business Plan; Tex-Quiz- a quizzing event; and Texcentric –
an innovative designing event. The PG event is a paper presentation competition aiming to tap
the potential and creativity of the participants, while enriching their knowledge of textiles.
TEXPRESSION
Texpression is a cultural festival which represents a farewell of the Final Year B. Tech., M. Tech.,
Ph.D. students. It is also the yearly meet with alumni, well-wishers and their families, along with
parents of students. It gives everybody a chance to relive cherished memories of alumni with the
present students.
14. (Head of Department)
FibresandTextileProcessing
Technology
Phone:+91-22-33612801
Email id:
rv.adivarekar@ictmumbai.edu.in
(Placement and Training Coordinator)
Fibres and Textile Processing
Technology
Phone:07738682384,9869244160
Email id:rd.kale@ictmumbai.edu.in,
M. Tech
Namrata Phulaware
Phone: +91-9975084976
Email id: namrata.phulaware29@gmail.com
CONTACT US
PROF. R. V. ADIVAREKAR PROF. R. D. KALE
STUDENT COORDINATORS
B.Tech
Harshit Jain
Phone: +91-7738300131
Email id: jain312@gmail.com
M.Sc
Darshil Upadhyay
Phone: +91-7738779199
Email id: udarshil@yahoo.com