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Full Description
In recent years, the convergence of biotechnology and manufacturing has ushered in a new era of sustainable innovation and efficiency. Incorporating bio-based materials into smart manufacturing processes has become a crucial strategy to minimize environmental impact, promote circularity, and propel technological advancements across various industries. This handbook, divided into four key sections, is a comprehensive overview and a holistic approach to the principles, applications, challenges, and opportunities associated with integrating bio-based materials into modern manufacturing practices.
Handbook of Bio-Based Materials for Smart Manufacturing begins with an exploration of fundamental characteristics, properties, and processing techniques. From bio-based polymers to composites and blends, readers will gain insights into the diverse array of materials derived from renewable biomass sources and their potential applications in smart manufacturing environments. The handbook illustrates the role of bio-based materials in additive manufacturing, coatings, packaging, energy applications, automotive, aerospace, construction, biomedical, textiles, electronics, and more, showcasing the versatility and adaptability of these materials across various sectors.
By examining emerging trends, future directions, and the vision for sustainable manufacturing practices, readers will gain valuable insights into the changing landscape of bio-based materials and their potential impact on the future of smart manufacturing. This handbook is a valuable resource for researchers, engineers, industry professionals, and students seeking to deepen their understanding of bio-based materials and their role in driving sustainable innovation in manufacturing.
Contents
Section 1: Fundamentals of Biobased Materials
Chapter: 01 Introduction to Biobased Material
Chapter: 02 Fundamentals of Biobased Polymers
Chapter: 03 Biobased coating and surface treatment
Chapter: 04 Biobased Materials in Additive Manufacturing: Sonication of Sheep Wool Fiber for Feedstock Production for 3D Printing
Chapter: 05 Regulatory Framework and Standards for Biobased Materials
Section 2: Recent Application of Biobased Materials
Chapter: 06 Biobased Materials in Packaging and Consumer Goods
Chapter: 07 Lightweight and Sustainable: The Evolution of Natural Fiber Reinforced Composites in Automotive and Aerospace Sectors
Chapter: 08 Biobased materials in biomedical applications
Chapter: 09 Biobased Materials for Sustainable Energy Applications
Chapter: 10 Biobased material for water treatment and purification
Section 3: Challenges in Biobased Materials
Chapter: 11 Challenges and future directions in biobased materials
Chapter: 12 Reinforcing Sustainable Bio-based Material for Smart Manufacturing
Chapter: 13 Optimizing Bio-based Processes for Sustainable Development
Chapter: 14 Innovative Processing and Functional Enhancements in Biobased Polymers
Chapter: 15 Cost and complexity of implementation of bio-based materials
Section 4: Case Study and Future Trends
Chapter: 16 Case Studies and Success Stories of Biobased Materials for Smart Manufacturing
Chapter: 17 Challenges of predictive analytics adoption in supply chain management: a case from the healthcare industry
Chapter: 18 Nanotechnology and Biomaterials in Smart Manufacturing
Chapter: 19 Integration of Artificial Intelligence and Biomaterials
Chapter: 20 Future Trends in Smart Biomanufacturing
Chapter: 21 Advanced Manufacturing and Industry 4.0: Transforming Manufacturing Systems