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Customized Artificial Implants: Bionic Design and Multiscale Evaluation
Artificial implants have been commonly used to replace or fix damaged tissue in orthopedics. However, due to the inter-individual differences and the complexities of anatomical structures and load conditions, traditional implants cannot meet the clinical requirements. In recent years, questions relating to customized artificial implants have been getting more and more attention from the research community. Challenges to implementing precision design and evaluation arise not only from the design need of considering bionic structures, kinematical function, mechanical performances, and biological functional similarity but also from the multiscale comprehensive evaluation, the latter involves biomechanics and biotribology of musculoskeletal systems from macro musculoskeletal multibody dynamics to micromechanics of porous structures. Established analysis technologies such as musculoskeletal multibody dynamics modeling and neuromusculoskeletal modeling are being well developed and evolved through combining/coupling with finite element analyses and, more recently, by novel artificial intelligence approaches.
Advanced Materials and Models in the Establishment and Repair of Pathological Microenvironment
Tissue engineering technology is a multidisciplinary technology to construct a composite system of seed cells, scaffolds, and bioactive factors. This technology has achieved good results in repairing or replacing biological tissues in a healthy state. However, in the pathological microenvironment, it often leads to damaged function of seed cells, inactivation of bioactive factors, and abnormal degradation or damage of scaffolds. Targeting the local microenvironment specifically to different diseases and designing specific tissue engineering strategies to repair and replace tissue damage is an urgent problem to be solved.
Proceedings of the 14th International Conference on the Technology of Plasticity - Current Trends in the Technology of Plasticity
This volume highlights the latest advances, innovations, and applications in the field of metal forming, as presented by leading international researchers and engineers at the 14th International Conference on Technology of Plasticity (ICTP), held in Mandelieu-La Napoule, France on September 24-29, 2023. It covers a diverse range of topics such as manufacturing processes & equipment, materials behavior and characterization, microstructure design by forming, surfaces & interfaces, control & optimization, green / sustainable metal forming technologies, digitalization & AI in metal forming, multi-material processing, agile / flexible metal forming processes, forming of non-metallic materials, micro-forming and luxury applications. The contributions, which were selected by means of a rigorous international peer-review process, present a wealth of exciting ideas that will open novel research directions and foster multidisciplinary collaboration among different specialists.
Graphene-Rubber Nanocomposites
Since the Nobel Prize for the discovery of graphene was presented in 2010, graphene has been frequently leveraged for different applications. Owing to the strategic importance of elastomer-based products in different segments, graphene and its derivatives are often added to different elastomers to improve their properties. Graphene-Rubber Nanocomposites: Fundamentals to Applications provides a comprehensive and innovative account of graphene-rubber composites. Features: Provides up-to-date information and research on graphene-rubber nanocomposites Presents a detailed account of the different niche applications ranging from sensors, flexible electronics to thermal, and EMI shielding materials...
Industrial Technologies for Sustainable Development
Selected, peer reviewed papers from the 2013 International Conference on Materials for Renewable Energy & Environment (MREE 2013), May 15-16, 2013, Nanjing, China
Number Theory
This book collects survey and research papers on various topics in number theory. Although the topics and descriptive details appear varied, they are unified by two underlying principles: first, readability, and second, a smooth transition from traditional approaches to modern ones. Thus, on one hand, the traditional approach is presented in great detail, and on the other, the modernization of the methods in number theory is elaborated.
