Introduction to Plastics Recycling, 2nd Edition

  • ID: 613014
  • Book
  • 173 Pages
  • Smithers Information Ltd
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Although recycling has a long history, it is only relatively recently that environmental protection and waste management issues have come to the forefront of both public and political awareness. Outside the fields of expertise, generally little is known about either plastics or their recyclability.

As in the successful first edition, this book provides straightforward information on plastic materials and technology, including the options for recycling plastics, with special focus on mechanical recycling. It touches on all the major problems associated with recovering and recycling plastics at a level intended to be accessible to any reader with an interest in this field, whatever their background. It also looks at some of the broader issues surrounding successful waste management of plastics.

This new edition reflects the great strides that have been made to increase recycling rates worldwide in recent years. It considers the expansion of infrastructure in the UK to support plastic recycling and major achievements that have been made in gaining widespread public support and participation for recycling schemes; specifically the need to manage waste on an individual household level. Current issues surrounding council recycling of plastic bottles, and the practice of providing free plastic carrier bags by supermarkets, are also considered.

Biopolymers are expected to have a major impact on plastic markets in the future and therefore some of the issues of biodegradability versus recycling are expanded in this second edition, as is the wider context of life cycle analysis and legislation.

Key features...

- Clear, easy to understand text
- Written for a broad audience both within and outside the polymer industry
- Good introduction to plastic materials and technology with useful illustrations
- Explains recycling terminology, technology and material quality issues
- Up-to-date information on the plastics recycling infrastructure and recent developments
Note: Product cover images may vary from those shown
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1. Introduction
2.1 Polymers
2.2 Thermoplastics
2.2.1 Polyolefins
2.2.2 Polyamides
2.3 Thermosets
2.4 The Formulation of Plastics
2.5 Why Does Recyclate Always Seem to be Black
2.6 What Are Recyclates Used For

2. Back to Basics

3. The Effects of Processing on Thermoplastics
3.1 Rheology
3.2 Heat
3.3 Physical and Chemical Changes
3.4 Assessing Property Deterioration Caused by Repeated Cycling by Injection Moulding
3.5 Short-Term Mechanical Testing
3.5.1 Tensile Testing
3.5.2 Impact Testing
3.5.3 Tensile and Impact Testing of Recycled Expanded Polystyrene

4. Why Plastics Need to be Sorted

5. Reprocessing of Thermoplastic Recyclates
5.1 Contaminants
5.2 Recycling Techniques
5.3 Size Reduction
5.4 Washing
5.5 Identification and Sorting of Plastics
5.6 Agglomeration

6. Processing Techniques
6.1 Extrusion
6.1.1 Introduction
6.1.2 Compounding
6.1.3 Single-Screw Extruders
6.1.4 Twin-Screw Extruders
6.1.5 Co-Extrusion
6.2 Supply Chains for Compounds
6.3 Injection Moulding
6.3.1 Waste During the Injection Moulding Process
6.3.2 Co-Injection Moulding
6.4 Blow Moulding
6.4.1 Extrusion Blow Moulding
6.4.2 Injection Blow Moulding
6.5 Weld Lines
6.6 Film Blowing
6.7 Compression Moulding
6.8 Thermoforming
6.9 Processes for Incorporating Mixed Plastic Waste
6.9.1 Intrusion Moulding
6.9.2 Transfer Moulding
6.9.3 Sinter Moulding
6.10 Conclusion
6.11 Case Study: Plastic Lumber

7. Additives for Recyclates
7.1 Introduction
7.2 The Degradation of Plastics
7.3 Restabilisation of Recyclates
7.4 Testing the Effects of Stabilisers
7.4.1 Processing Stability
7.4.2 Heat Stability
7.4.3 Light Stability
7.5 Stabilisers
7.5.1 Thermal Stabilisation
7.5.2 Light Stabilisation
7.5.3 Additive Combinations for Specific Purposes
7.6 Modifying the Properties of Plastics Through Incorporation of Miscellaneous Additives
7.6.1 Degradable Plastics
7.6.2 Compatibilisers

8. Other Methods of Recycling and Waste Disposal Options
8.1 The Case of Thermosets
8.2 Chemical Recycling
8.3 Thermal Conversion Technologies
8.3.1 Pyrolysis
8.3.2 Hydrogenation
8.3.3 Gasification
8.4 Energy Recovery

9. Creation of a Recycling and Recovery Infrastructure for Plastics
9.1 Development
9.2 Design for Disassembly and Recycling
9.3 Developing Recyclate Markets
9.4 Logistics
9.5 Quality
9.6 Education

10. The Problem in Perspective: Europe
10.1 Case Study: Packaging
10.2 Integrated Product Policy
10.2.1 Waste Electrical and Electronic Equipment Directive (WEEE) 2002/96/EC
10.2.2 End of Life Vehicles Directive (ELV) 200/53/EC
10.3 Conclusion

11. Rise of the Biopolymers: Recycling versus Degradation

Abbreviations and Acronyms
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Dr Vannessa Goodship is a Senior Research Fellow at The University of Warwick. She worked in the plastics industry for fourteen years prior to working at Warwick and has acted as co-ordinator for the UK Polymer Recycling Network. She has now worked in the field of polymer processing for over twenty four years and has published work on a variety of plastic related subjects.
Note: Product cover images may vary from those shown
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Note: Product cover images may vary from those shown