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Chapter 9. Study on mechanical properties of Himalayacalamus falconeri fiber-reinforced polylactic acid composites

  • Pawan Kumar Rakesh , Mayank Pokhriyal , Shaurya Bhatt and Vivek Bahuguna
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Polylactic Acid Composites
This chapter is in the book Polylactic Acid Composites

Abstract

The usage of synthetic fiber-based reinforced plastics has raised environmental health concerns leading governments worldwide to establish strict ecological regulations, increasing the demand for sustainable and eco-friendly products. As a result, the scientific community is focusing on developing materials of natural origin that are recyclable, renewable, and have minimal environmental impact. PLA-based matrices reinforced with short Himalayacalamus falconeri fiber are used to create completely. Therefore, to ensure the environmental sustainability and economic feasibility of these bio composites, an appropriate fabrication technique with minimum processing time must be considered.

Abstract

The usage of synthetic fiber-based reinforced plastics has raised environmental health concerns leading governments worldwide to establish strict ecological regulations, increasing the demand for sustainable and eco-friendly products. As a result, the scientific community is focusing on developing materials of natural origin that are recyclable, renewable, and have minimal environmental impact. PLA-based matrices reinforced with short Himalayacalamus falconeri fiber are used to create completely. Therefore, to ensure the environmental sustainability and economic feasibility of these bio composites, an appropriate fabrication technique with minimum processing time must be considered.

Chapters in this book

  1. Frontmatter I
  2. Contents V
  3. Contributing authors VII
  4. Chapter 1. Processing on polylactic acid and its applications 1
  5. Chapter 2. Polylactic acid-agave fiber biocomposites: processing, properties, weathering performance, and biodegradation 13
  6. Chapter 3. Polylactic acid composite materials for packaging and the consumption of food products 31
  7. Chapter 4. Antibacterial properties of polylactic acid composites for food packaging 73
  8. Chapter 5. Barrier properties of polylactic acid 101
  9. Chapter 6. Heat-sealing properties of polylactic acid and polylactic acid composites 123
  10. Chapter 7. Reactive extrusion of polylactic acid 141
  11. Chapter 8. Surface properties of polylactic acid–based composites 163
  12. Chapter 9. Study on mechanical properties of Himalayacalamus falconeri fiber-reinforced polylactic acid composites 181
  13. Chapter 10. The fabrication process of the pine needle fiber-reinforced polylactic acid composites 217
  14. Chapter 11. Development of novel hybrid green polymer composites (HGPC) with a combination of biowaste material as fillers 227
  15. Chapter 12. Joining behavior of bio-filler-based polyester composites 257
  16. Chapter 13. Dimensional analysis of 3D-printed knuckle joint and bearing pillow block 271
  17. Chapter 14. Processing and applications of silk fiber-reinforced biocomposite for tissue engineering 289
  18. Chapter 15. The development of silk fiber-, jute fiber-, Grewia optiva fiber-reinforced biopolymer composites 303
  19. Chapter 16. Machinability characteristics of pine needle fiber-reinforced polylactic acid composites 321
  20. Index 331
https://doi.org/10.1515/9783111067285-009

Chapters in this book

  1. Frontmatter I
  2. Contents V
  3. Contributing authors VII
  4. Chapter 1. Processing on polylactic acid and its applications 1
  5. Chapter 2. Polylactic acid-agave fiber biocomposites: processing, properties, weathering performance, and biodegradation 13
  6. Chapter 3. Polylactic acid composite materials for packaging and the consumption of food products 31
  7. Chapter 4. Antibacterial properties of polylactic acid composites for food packaging 73
  8. Chapter 5. Barrier properties of polylactic acid 101
  9. Chapter 6. Heat-sealing properties of polylactic acid and polylactic acid composites 123
  10. Chapter 7. Reactive extrusion of polylactic acid 141
  11. Chapter 8. Surface properties of polylactic acid–based composites 163
  12. Chapter 9. Study on mechanical properties of Himalayacalamus falconeri fiber-reinforced polylactic acid composites 181
  13. Chapter 10. The fabrication process of the pine needle fiber-reinforced polylactic acid composites 217
  14. Chapter 11. Development of novel hybrid green polymer composites (HGPC) with a combination of biowaste material as fillers 227
  15. Chapter 12. Joining behavior of bio-filler-based polyester composites 257
  16. Chapter 13. Dimensional analysis of 3D-printed knuckle joint and bearing pillow block 271
  17. Chapter 14. Processing and applications of silk fiber-reinforced biocomposite for tissue engineering 289
  18. Chapter 15. The development of silk fiber-, jute fiber-, Grewia optiva fiber-reinforced biopolymer composites 303
  19. Chapter 16. Machinability characteristics of pine needle fiber-reinforced polylactic acid composites 321
  20. Index 331
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