Fundamentals of Orthopedic Design with Non-parametric Optimization

This book introduces a fundamental understanding of orthopedic design for both engineers and medical staff. It addresses the gap and mystery that often exists between these two fields and provides a common ground for understanding. The book covers various aspects of orthopedic design, including the anatomy and biomechanics of bones and joints, the materials used in orthopedic devices, and the testing and evaluation of orthopedic devices. It also introduces computer-aided design with additive manufacturing in a practical sense, including the principles of non-parametric optimization (topology and shape optimization) in a scientific and practical way. The author provides dedicated examples and research studies to further clarify the concepts presented in the book and includes some of their own peer-reviewed papers to support the material. Additionally, it covers the practical applications of computer-aided design and additivemanufacturing in orthopedic design, including the use of virtual prototyping, computer simulation, and 3D printing techniques. The book aims to provide a comprehensive guide to orthopedic design and the latest advancements in the field.

 Chapter 1. Metallic Orthopaedics history and challenges, and why designing.- Chapter 2.- The basis of metallic strength and frailer theories.- Chapter 3. The bio-mechanical interaction principal.- Chapter 4. The design methodologies of the prosthesis using topology optimization.- Chapter 5. Medical challenges.- Chapter 6. Non-parametric optimization theories.- Chapter 7. Orthopaedics modelling.- Chapter 8. Case studies.

Musaddiq Al Ali is a multidisciplinary engineer of exceptional skill and expertise. With two master's degrees in mechanical engineering and laser physics from Baghdad University, he finished his Ph.D. studies at Hiroshima University-Japan, where he focused on the study of orthopedic stress shielding phenomena. As a result of his pioneering work in the field, Al Ali has made significant contributions to the development of orthopedic customized design methodologies for laser metal 3D printers. Throughout his career, Al Ali has worked with  Comtech and Sharp corporations, further demonstrating his expertise and commitment to his field. Today, he continues his work as a researcher at the Toyota Technological Institute in Japan, where he is recognized as one of the leading experts in the fields of  additive manufacturing and multiphysics functional structures.