B.Tech. Polymer Engineering: Course, Career, Salary, Duration, Scope

B.Tech. Polymer Engineering or Bachelor of Technology in Polymer Engineering is an undergraduate Polymer Engineering course. Polymer Engineering is associated with the theory of chemical engineering and caters to the production and use of polymers. Polymer engineers use the principles of plant design, process design, thermodynamics, and transport phenomena to develop new products.

During the course, it is taught that how polymer engineers can supervise the production process of plastics and other polymers as well. B.Tech. (Polymer Engineering) is generally an engineering field that designs, analyses, and/or modifies polymer materials. The first-year course is common to all engineering disciplines.

The second-year comprises the study of some specific subjects related to the field of polymer engineering. The third-year is focused on the more specialized study of the subject. In the fourth year, the candidate takes up project work and industrial training. This is four years duration course and creates many job opportunities.

Bachelor of Technology in Polymer Engineering

Duration: 4 Years
Level: Graduation
Type: Degree
Eligibility: 10+2 or Equivalent

B.Tech. Polymer Engineering Eligibility

The candidate must have passed the higher secondary school certificate exam from a recognized board to get admitted to the bachelor of engineering course in polymer technology.

The candidate should have physics, chemistry, and mathematics in higher secondary schooling. The admission is generally based on the rank obtained in the entrance tests. There are all India as well as state or university level entrance tests for admission.

B.Tech. Polymer Engineering Syllabus

Syllabus of Polymer Engineering as prescribed by various Universities and Colleges.

A. Theory 
Subjects of Study
Mould Design
Classification of Compression Moulds – Factors that influence thermoses molding – materials selection in relation to molding conditions, the design of mold cavity – advantages and disadvantages of compression molds.
Transfer Moulding – types, principles, design of pot and plunger, feed system, economic determination of the number of cavities, technological determination of the number of cavities, the design of mold cavity, design of loading chamber, heat losses and energy requirement to heat the mold – Advantages and disadvantages of the transfer mold.
Blow Mould Design – materials selection, mold cooling, clamping force, mold venting, pinch-off, head die design, parison diameter calculation, wall thickness, vertical-load strength, blow ratio, Base push up, highlights, rigidizing, shapes, design-based consideration – shrinkage, neck and shoulder design, thread and beads, bottom design.
Classification of Injection Moulds – methodical mold design – the number of cavities, selection of injection molding machine, the layout of cavities in the multi-impression mold, feed Systems – design of runners & gate, ejection systems, cooling systems, venting – other aspects in injection mold design.
Mold materials and their selection criteria.
Plastics materials selection for products based on the properties, function.
Product design methods using deformation data, effect of temperature.
Plastics Product Design
Plastics Product Design: Mechanical properties and thermal behavior of plastics, Component design, Control over product stiffness composite shapes and structures Design of thermoplastics and thermosetting type of polymers under static and dynamic loads, Design of sandwich panels and reinforced plastics parts.
PVC Piping: Raw materials, pipe design, specification, and test procedure, manufacturing process. Tribological properties of polymers, abrasion, and wear, the design of abrasion and wear-resistant products. Designing with sample composites. Product characterization, Product faults, and optimum processing. Effect of processing on product performance, product characterization, and service behavior. Computer application for molds, dies & products. Computer-aided design- illustrations.
(A) Theory
Specialty Rubbers:
a) Silicones (Q): 
Introduction, Manufacturing- structure and its influence on properties, compounding, fabrication, curing, general properties and applications.
b) Epichlorohydrin: Introduction, Manufacturing- structure and its influence on properties, compounding, curing, general properties and applications.
c) Fluoro Elastomers: Introduction, Manufacturing- structure and its influence on properties, compounding, curing, general properties and application4
d) Polysulphides: Introduction, Manufacturing- structure and its influence on properties, compounding, curing, general properties and applications.
e) Polyurethane Rubbers: Introduction, Manufacturing- structure and its influence on properties, compounding, curing, general properties and applications.
f) Acrylic Rubbers: Ethylene Acrylic copolymer, Introduction, Manufacturing- structure and its influence on properties, compounding, curing, general properties and application7
Tire: Introduction to tire, the nomenclature of tires, the function of tires and their components, construction of tires, the function of the tire components Types of tires; as per their tread pattern, Construction (Beltings), Application and others. Intelligent or smart tires, Eco-friendly tires, Solid tires. Manufacturing Techniques of Various tires and Automotive tubes; Principle of designing formulation for various tire components. Green tire and their curing method (Bladder Curing), Post Cure Inflation Quality Control test and Performance test of the tire; Plunger Test, Endurance Test, Rolling resistance, Traction, and wet skid performance test, Noise test, etc.
Latex product manufacturing: Introduction, compounding, Manufacturing, properties, and formulation of Household and surgical gloves, electrical gloves, Coir Foam and Mattresses, Latex thread, Latex toys, and balloons. Dunlop and Talalay process for Latex foam manufacturing, Latex Allergies.
Dry Rubber Products: Manufacturing and properties of different components of Footwear, Tennis balls, Golf ball, Seals and gaskets.
Manufacturing of transmission systems: Manufacturing process, Properties, and formulations of Different components of Cables, V-belts, Conveyor belts, and Hoses.

B.Tech. Polymer Engineering Colleges

  • Hindustan University, Chennai
  • University of Calcutta, Kolkata
  • Mahatma Gandhi University – Kerala, Kottayam
  • B.S. Abdur Rahman Crescent Engineering College, Chennai

B.Tech. Polymer Engineering Course Suitability

Those who have excellent analytical, communication and teamwork skills, hardworking, good at organizing and solving problems are the most suitable for this course.

Second, applicants having the good imagination and creativity skills which are required for developing new products and in devising new uses of the basic product also are a good suit for the course. Third, who want to become teacher/lecturer after passing their graduation and post-graduation degrees at schools and college levels respectively also are capable of this course.

How is B.Tech? Polymer Engineering Course Beneficial?

Candidates with an M.Sc. degree in chemistry or physics are also eligible for the M.Tech. program in polymer engineering. Graduates with a degree in Polymer Engineering can become a part of polymer manufacturing and user industries. They can work as a production supervisor, quality control inspector, production planner. While candidates who have qualified in the GATE (Graduate Aptitude Test in Engineering) exam may easily get a seat for admission to the M.Tech. courses in reputed institutions.

In the public sector, polymer engineers may find employment with the Ministry of Petroleum and Natural gas, Oil and Natural Gas Commission, Oil India Laboratories, petrochemicals engineering plants, Indian Institute of petroleum, polymers corporations of different states, petroleum Conservation Research Association of India and other such organizations. The engineers can also contribute to research and development activities.

B.Tech. Polymer Engineering Employment Areas

  • Colleges & Universities
  • Production (Polymer Films)
  • Research and Development Companies
  • Processing, Quality Control, Technical Support, and Sales Companies
  • Design and Manufacture of Moulds Companies
  • Tire Companies
  • Fuel Refineries
  • Polymer Manufacturing and Processing Industries
  • Research Institutions 

B.Tech. Polymer Engineering Job Types

  • Engineer
  • Polymer Technologist
  • Research Associate
  • Marketing Executive & Manager
  • Sales Officer/Sales and Marketing/Sales cum Marketing Officer
  • Production Engineer
  • Application Development Engineer
  • Trainee & Engineer
  • Lead Engineer

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