Unit 4029 Polymer Manufacturing Processes (A/651/0753) Assignment Brief 2026

Unit 4029 Polymer Manufacturing Processes Assignment Brief

Introduction

This unit is designed to develop students’ knowledge and understanding of the  main manufacturing processes and techniques that can be applied to a wide range  of polymer materials for a variety of manufacturing applications.

It is essential for a manufacturing engineer who may lead the planning, operation  and management of their company’s manufacturing systems to have a broad underpinning knowledge of conventional polymer manufacturing processes.  Polymer materials have the capacity and potential to be processed into a huge  variety of shapes and forms for a wide range of applications.

The first outcome of this unit provides background knowledge of the main principles of polymer flow and heat transfer relevant to processing. The second and third outcomes give a detailed overview of the conventional manufacturing techniques  of polymers (extrusion, blow moulding, thermoforming and injection moulding) considering relevant equipment and processing steps. The final outcome provides  the context to inform selection of the most suitable method of processing for a  given application.

Learning Outcomes

By the end of this unit a student will be able to:

LO1 Relate the fundamental principles of polymer flow and heat transfer to polymer processing

LO2 Illustrate the variety of polymer processing and shaping techniques available to manufacture a wide range of engineering components and products

LO3 Describe the main technical components of commonly used polymer processing equipment, their functions and the main operational steps

LO4 Determine from a design perspective the most suitable manufacturing process for a given engineering component or product.

Essential Content

LO1 Relate the fundamental principles of polymer flow and heat transfer to polymer processing

Polymer melt behaviour:

• Elongational flow
• Shear flow
• Shear stress and shear strain
• Determination of apparent viscosity
• Dependence of apparent viscosity on temperature and relative molecular mass
• Shear thinning behaviour of polymers
• Viscoelasticity of polymer melt
• Die swell
• Flow in a capillary tube (equations for stress and shear rate)
• Melt flow index test (MFI).

Effect of heating and heat transfer in polymers:

• Temperature-dependent behaviour of polymers
• Conduction (heat conduction equation, thermal conductivity, thermal diffusivity)
• Convection
• Radiation
• Comparison of heat transfer properties of polymers to other competitive materials e.g. Metals, ceramics, wood.

LO2 Illustrate the variety of polymer processing and shaping techniques available to manufacture a wide range of engineering components and products

Overview of processing techniques for thermoplastics:

• Extrusion e.g. Sheet production, pipe production, blown film, wire and cable coating, co-extrusion
• Injection moulding, injection blow moulding
• Rotational moulding
• Thermoforming
• Consideration of materials and products.

Overview of processing techniques for thermosets:

• E.g. Compression moulding and injection moulding
• Specific requirements to process thermosets
• Consideration of materials and products.

Overview of shaping and processing techniques for rubber and elastomers:

• E.g. Extrusion, compression moulding and injection moulding
• Compounding principle
• Consideration of materials and products.

LO3 Describe the main technical components of commonly used polymer processing equipment, their functions and the main operational steps

Extrusion:

• The principle of the extrusion process
• Extrusion line
• Main components of extruder and their functions e.g. Hopper, screw, motor and gearing, breaker plate and screen pack, die, temperature control system
• Single and twin-screw extruders
• Die design and processing faults.

Injection moulding:

• The principle of the injection moulding process
• Components of injection moulding machine and their functions e.g. Clamping unit, injection unit, mould, machine bed and control unit
• Process sequence
• Common injection moulding faults and remedies.

Thermoforming:

• The principle of the thermoforming process
• Process components e.g. Clamp frame, heating systems, moulds
• Selected thermoforming methods e.g. Female mould forming, male mould forming, plug assist forming, prestretch forming
• Wall thickness and molecular orientation in thermoformed products.

LO4 Determine from a design perspective the most suitable manufacturing process for a given engineering component or product.

Design consideration and application development process:

• Identifying the end-use requirements after considering the product functions
• Part geometry e.g shape, size, tolerances
• Material selection
• Flow analysis and the significant implications of process selection stage
• Prototyping and testing.

Design for mouldability:

• E.g. Viscosity, melt temperature, shrinkage, cooling requirements, selection of optimum processing conditions.

Tooling consideration:

• Design for appearance e.g. Preventing weld lines, gate marks in injection moulded components
• Design for precision e.g. Gate location, gate type, gate size, die design, cooling lines.

Consideration of production volumes and cost of manufacturing:

• Relevant case studies.

Learning Outcomes and Assessment Criteria

Recommended Resources

Note: See HN Global for guidance on additional resources.

Print Resources

Baird, D.G. and Collias, D.I. (2014) Polymer Processing: Principles and Design.  2nd Ed. New Jersey: Wiley.

Lee, N.C. (2007) Understanding Blow Molding. 2nd Ed. Munich: Hanser.

Kaynak A. and zolfagharian A. (2019) Stimuli-Responsive Polymer Systems −  Recent Manufacturing Techniques and Applications. MDPI Books.

Osswald, T.A. (2011) Understanding Polymer Processing: Processes and Governing Equations. Munich: Hanser Publishers.

Rao, N.S. and Schumacher, G. (2004) Design Formulas for Plastics Engineers.  Munich: Hanser.

Rauwendaal, C. (2014) Polymer Extrusion. 5th Ed. Munich: Hanser Publications.

Throne, J.L. (2008) Understanding Thermoforming. 2nd Ed. Munich: Hanser.

Websites

(General reference)

Essential Resources 

Laboratory Micro Injection Moulder Filament Extrusion line

Vacuum former

Melt Flow tester

Laboratory balance

Links

This unit links to the following related units:

Unit 4008: Materials Engineering with Polymers

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