Engineering Polymeric Composites

Master's Degree Programme in Engineering Polymeric Composites at the Indian Institute of Technology offers a comprehensive curriculum designed to equip students with advanced knowledge and practical skills in the field of polymeric composites. The program focuses on the development, processing, characterization, and application of polymer-based composite materials used across various industries, including aerospace, automotive, construction, and electronics. Students will explore topics such as polymer chemistry, composite materials design, manufacturing techniques, testing and evaluation, and characterization methods. The coursework emphasizes interdisciplinary approaches, integrating principles of materials science, mechanical engineering, and chemical engineering to foster innovative solutions in composite technology. Through a blend of theoretical instruction and hands-on laboratory experience, students will gain proficiency in analyzing the performance of composite materials under different operational conditions. The program also incorporates contemporary topics like nanocomposites, bio-based composites, environmental sustainability in material development, and advancements in manufacturing processes such as automated fiber placement and resin transfer molding. Research projects and industrial training form integral components of the curriculum, providing real-world insights and fostering collaboration with industry partners. Graduates of the programme will be prepared for careers in research and development, product design, quality assurance, and technical consultancy within the composite materials sector. They will possess the ability to innovate and improve existing materials and develop novel composite solutions tailored to specific application requirements. The programme aims to produce highly skilled professionals capable of contributing to technological advancements and sustainable development in the field of polymeric composites.

Contents:

1. Introduction: Need to reinforce polymers, particulate, short and continuous fiber and nano fibers reinforced composites based on thermoplastic and thermoset matrices.

2. Particulate Polymeric Composites: Principles of reinforcing filler and particle selection, incorporation and packing of reinforcement particles, melt flow and rheology of particulate polymeric composites and their processing. Extrusion, Compounding, and Injection molding, Properties, statistical mechanics and semi-empirical equations for mechanical properties; Applications.

3. Short Fiber Reinforced Polymeric Composites: Short Synthetic and Natural Fibers as Reinforcement Materials and their selection, orientation and its effects on reinforcement efficiency, melt flow and rheology of particulate polymeric composites and their processing. Extrusion, Compounding, and Injection molding, Properties, interface, compatibilizer, matrix modification, fiber treatment, statistical mechanics and semiempirical equations for mechanical properties; Applications. 

4. Continuous Fiber Reinforced Thermoset Polymeric Composites: Thermosetting matrix resins, Reinforcing Fibers : Carbon, glass, kevlar, silica, boron fibers, fiber forms, orientation, aspect ratio, mats, fiber-matrix interphase, adhesion, interface improvement, interfacial agents, fiber surface treatment, matrix modification compatibilizer, Fabrication techniques processes and equipment, compression moulding, pultrusion and advanced processing properties and statistical mechanics, semi empirical equations for mechanical properties; Applications.

5. Continuous Fiber Reinforced Thermoplastic Polymeric Composites: Thermoplastic resins, interphase, adhesion, interface improvement, interfacial agents, fiber surface treatment and matrix modification compatibilizer, Fabrication techniques processes and equipment, Applications.

6. Nano Composites: Fillers: Plate, equi-axed, inorganic fillers, carbon and other nano tubes. Matrices: Engineering, high tech and liquid crystal polymer matrices. Processing; Direct and solution mixing, in-situ polymerization.

7. Applications: Fire resistant, high temperature, automobile, and aerospace applications.

Students admitted to the graduate programs of study at IIT Roorkee go through a process of selection prior to their admissions. The process of selection is administered at the national (All India) level or at the Institute depending on the program of study. For detailed information of the Institute and different programs, download the information brochure given below.

GATE (Graduate Aptitude Test in Engineering), The Graduate Aptitude Test in Engineering is an All - India Examination conducted by the seven IITs and IISc Bangalore, on behalf of the National Coordinating Board - GATE, Department of Education, Ministry of Human Resources Development (MHRD), Government of India. 

JAM (Joint Admission Test to M.Sc) for admission to M.Sc programmes at the IITs. From year 2005 admissions to MCA programme at IIT Roorkee are also made through JAM which were previously through AIMCET. 

This Institute offer courses leading to two-year Master of Science degrees in a number of disciplines. In addition, post-graduate programmes leading to M.Tech., M.Sc. and Ph.D. degrees are also offered.

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• ✔️ Flexible study schedule
• ✔️ Experienced teachers
• ✔️ Certificate upon completion

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The Institute offers merit-cum-means scholarship to 25% of undergraduate students. Several other scholarships are announced from time to time. Bank loans are also easily available whenever required. Financial help is provided as Institute free studentship and scholarships to undergraduate students belonging to the scheduled castes and scheduled tribes.

Students admitted to the 2-year M.Sc. degree in sciences are also awarded merit-cum-means scholarships. A number of scholarships, teaching / research assistantship schemes provide financial support to students of M.Tech. and Ph.D. programmes. Sponsored (full-time as well as part-time), self-financing foreign students and M.B.A. students are , however, not eligible for benefits of this scheme. Students are encouraged to earn while they learn.

Prizes and certificates are given to students on the basis of their performance in curricular, co-curricular and extra curricular activities.

The Master of Technology (M.Tech) programme in Engineering Polymeric Composites at the Indian Institute of Technology (IIT) is designed to provide students with an in-depth understanding of the science, engineering, and application of polymeric composite materials. This specialized programme aims to equip students with the advanced knowledge and practical skills necessary to excel in research, development, and industry sectors that focus on composite materials. The curriculum often includes courses in materials science, polymer chemistry, mechanical behavior of composites, processing techniques, characterization methods, and design principles. Students may also undertake laboratory work, projects, and thesis research to gain hands-on experience and contribute to innovations in composite technology.

The programme typically caters to graduates with backgrounds in mechanical engineering, materials science, chemical engineering, or related disciplines. It emphasizes both theoretical foundations and practical applications, preparing students to address real-world challenges such as lightweight construction, durability, environmental resilience, and sustainability in various industries including aerospace, automotive, infrastructure, and renewable energy. State-of-the-art facilities, research labs, and collaborations with industry partners are integral parts of the learning experience, fostering an environment conducive to cutting-edge research and innovation.

Students are encouraged to engage in interdisciplinary projects, seminars, and workshops to stay updated with the latest advancements in polymeric composites. The faculty comprises experienced researchers and industry experts who guide students through sophisticated research methodologies, scientific communication, and patenting processes. Graduates of this programme are well-positioned for careers in R&D departments, academia, and industries focused on advanced composite materials. Some students may also pursue doctoral studies, contributing to the growing body of knowledge in polymeric composite materials.

Overall, the M.Tech in Engineering Polymeric Composites at IIT prepares students to become industry leaders, researchers, and innovators, capable of developing novel composite solutions that meet the demands of modern technology and sustainability goals. Due to the specialized nature of the programme, students gain a competitive edge in the fast-evolving field of composite engineering, making significant contributions towards the development of lightweight, high-performance materials for future innovations.