|aRubber recycling :|bchallenges and developments /|cedited by Jin Kuk Kim ... [et al.].
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|achallenges and developments
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|aLondon :|bRoyal Society of Chemistry,|cc2019.
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|axv, 337 p. :|bill. ;|c24 cm.
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|aGreen chemistry series,|x1757-7039 ;|v59
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|aIncludes bibliographical references and index.
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|a1. Grinding of waste rubber / Jaideep Adhikari, Anindya Das, Tridib Sinha, Prosenjit Saha and Jin Kuk Kim -- 2. Surface treatment of rubber waste / X. Colom, M. Marin-Genescà, K. Formela and J. Cañavate -- 3. Thermoplastic elastomers filled with GTR / K. Formela, J. Haponiuk, S. Wang and X. Colom -- 4. Waste rubber based composite foams / Mapoloko Mpho Phiri, Motshabi Alinah Sibeko, Shanganyani Percy Hlangothi and Maya Jacob John -- 5. Recycling of tire rubbers and their re-usability / Partheban Manoharan and Kinsuk Naskar -- 6. Testing and industrial characterization of waste rubber / Suprabha Bandyopadhyay, Md. Minhajur Rahman, Soumanti Hazra, Jin Kuk Kim and Prosenjit Saha -- 7. High performance flooring materials from recycled rubber / Raghvendra Mishra, M. K. Aswathi and Sabu Thomas -- 8. Recycling of individual waste rubbers / S. Saiwari, W. K. Dierkes and J. W. M. Noordermeer -- 9. Recycling of latex waste and latex products / A. R. Azura and D. N. Syuhada -- 10. Recycling of rubber blends for durable construction / Sathish Kumar Palaniappan, Rajasekar Rathanasamy, Samir Kumar Pal and Ganesh Chandra Nayak -- 11. Recycling of rubber composites and nanocomposites / Ramakrishnan Shanmugam, Sathish Kumar Palaniappan, Rajasekar Rathanasamy, Krishnamurthy Kasilingam and Ganesh Chandra Nayak -- 12. Hybrid nano-filler for value added rubber compounds for recycling / Kishor Kumar Sadasivuni, Sunita Rattan, Kalim Deshmukh, Aqib Muzaffar, M. Basheer Ahamed, S. K. Khadheer Pasha, Payal Mazumdar, Sadiya Waseem, Yves Grohens and Bijendra Kumar.
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|a"Rubber is used in a vast number of products, from tyres on vehicles to disposable surgical gloves. Increasingly both manufacturers and legislators are realising that recycling is essential for environmental sustainability and can improve the cost of manufacture. The volume of rubber waste produced globally makes it difficult to manage as accumulated waste rubber, especially in the form of tyres, can pose a significant fire risk. Recycling rubber not only prevents this problem but can produce new materials with desirable properties that virgin rubbers lack. This book presents an up-to-date overview of the fundamental and applied aspects of renewability and recyclability of rubber materials, emphasising existing recycling technologies with significant potential for future applications along with a detailed outline of new technology based processing of rubber to reuse and recycle. This book will be of interest to researchers in both academia and industry as well as postgraduate students working in polymer chemistry, materials processing, materials science and engineering."--Back cover.
Rubber is used in a vast number of products, from tyres on vehicles to disposable surgical gloves. Increasingly both manufacturers and legislators are realising that recycling is essential for environmental sustainability and can improve the cost of manufacture. The volume of rubber waste produced globally makes it difficult to manage as accumulated waste rubber, especially in the form of tyres, can pose a significant fire risk. Recycling rubber not only prevents this problem but can produce new materials with desirable properties that virgin rubbers lack.This book presents an up-to-date overview of the fundamental and applied aspects of renewability and recyclability of rubber materials, emphasising existing recycling technologies with significant potential for future applications along with a detailed outline of new technology based processing of rubber to reuse and recycle. This book will be of interest to researchers in both academia and industry as well as postgraduate students working in polymer chemistry, materials processing, materials science and engineering.