Career Options for Aspiring Graduates

Choosing the B.Tech. in Plastics and Polymer Engineering at PIU offers you the opportunity to become a future leader in the domain of plastics and sustainability! This four-year program, partnered with the University of Massachusetts Lowell, USA, a world leader in Plastics Engineering Education, provides in-depth knowledge of Polymer Science and hands-on labs in areas such as Materials, Processing, Manufacturing, Synthesis, and Product Design.

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Manufacturing Engineer

Oversee polymer material production and conversion into final products

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Research and Development Scientist

Lead research and is engaged in development of new products

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Application Development Professional

Explore new markets for existing products

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Business Development Professional

Expand business into new markets

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Technical Services Professional

Provide technical support to customers

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Technical Sales and Marketing Professional

Develop marketing strategies and maintain client relationships

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Quality Control/Assurance Professional

Ensure raw materials and products meet standards

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Sustainability Engineer

Aligns product and processes with sustainability standards

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Product Designer

Create and improve material, product, and designs

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Process Engineer

Optimizes processes set to make good quality products

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Material Engineer

Develop materials for specialized domains (automotive, aerospace etc.)

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Recycling Engineer

Implement recycling standards in the industry

Industry Avenues

Develop and optimize processes for producing raw materials for plastics (polymers).

Design lightweight, high-strength plastic components for cars and bikes (e.g., dashboards, bumpers) considering factors like weight reduction, fuel efficiency, and safety.

Develop plastic films, containers, and bottles for food, beverages, and consumer goods with a focus on functionality, safety, printability, and sustainability.

Design polymers for insulation, casings, and circuit boards in electronic devices to ensure electrical properties, heat resistance, and flame retardancy.

Create polymers for implants, prosthetics, drug delivery systems, and medical packaging where biocompatibility, sterility, and controlled release properties are paramount.

Develop polymers as binders, additives, and resins in paints and coatings considering factors like adhesion, durability, weather resistance, and chemical resistance.

Formulate polymers for adhesives and sealants used in construction, automotive, and other industries with a focus on strength, flexibility, and bonding to various surfaces.

Develop polymers for synthetic fibers, rubber blends, and elastomeric components considering factors like strength, elasticity, and compatibility with other materials.

Design polymers for components in solar panels, wind turbines, and other renewable energy technologies with a focus on durability, weather resistance, and efficiency.

Develop polymers for building materials (pipes, insulation), flooring, and furniture considering factors like strength, weight, fire safety, and aesthetics.

Design polymers for films, greenhouses, irrigation systems, and agricultural equipment with a focus on durability, UV resistance, and functionality.

Engineer lightweight, high-strength plastics for aircraft parts, ship components, and defense applications considering weight reduction, heat resistance, and fire retardancy.