The book offers fundamental information on the development, characteristics, fabrication methods, design approaches, and synthesis of biomedical goods. It also covers process design and optimization.

Biomaterials can have natural origins or be created in the lab using a range of techniques using metals, polymers, ceramics, and composite materials. They are frequently employed in or modified for a range of biomedical uses. Scaffolds, orthopedics, wound healing, fracture fixing, surgical sutures, artificial organ creation, fracture stabilization pins and screws, surgical mesh, breast implants, artificial ligaments and tendons, and drug delivery systems are among the many applications for biomaterials.

Advanced Materials and Manufacturing Techniques in Biomedical Applications is divided into sixteen chapters that address the synthesis, processing, design, manufacturing, and characterization of advanced materials; nanobiomaterials for biomedical applications that are self-healing, bioinspired, and sourced from nature; and manufacturing techniques like additive manufacturing and rapid prototyping.

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Engineers, technologists, and researchers involved in biomedical engineering and manufacturing procedures should read this book. Graduate and upper-level undergraduate students can also benefit from it.