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Tribo-corrosion. --- Erosion-corrosion --- Tribocorrosion --- Wear-corrosion synergism --- Corrosion and anti-corrosives --- Mechanical wear

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During their service life, most biomaterials and medical implants are vulnerable to tribological damage. In addition, the environments in which they are placed are often corrosive. The combination of triobology, corrosion and the biological environment has been named 'bio-tribocorrosion'. Understanding this complex phenomenon is critical to improving the design and service life of medical implants. This important book reviews recent key research in this area.After an introduction to the topography of bio-tribocorrosion, Part one discusses different types of tribocorrosion including fat

Biomedical materials -- Corrosion. --- Implants, Artificial -- Complications. --- Implants, Artificial -- Materials -- Corrosion. --- Tribo-corrosion. --- Biomedical materials --- Tribo-corrosion --- Implants, Artificial --- Equipment and Supplies --- Investigative Techniques --- Biomedical and Dental Materials --- Physicochemical Phenomena --- Chemical Processes --- Mechanical Phenomena --- Chemicals and Drugs --- Physical Phenomena --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Manufactured Materials --- Chemical Phenomena --- Specialty Uses of Chemicals --- Phenomena and Processes --- Technology, Industry, and Agriculture --- Chemical Actions and Uses --- Technology, Industry, Agriculture --- Prostheses and Implants --- Surface Properties --- Materials Testing --- Biocompatible Materials --- Corrosion --- Friction --- Health & Biological Sciences --- Biomedical Engineering --- Complications --- Corrosion. --- Artificial implants --- Implants, Surgical --- Surgical implants --- Prosthesis --- Surgery --- Biocompatible materials --- Biomaterials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Bioartificial materials --- Hemocompatible materials --- Biomaterials (Biomedical materials)

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The last few decades have seen rapid development in the field of surface engineering and its applications in almost all industrial sectors. Tribological coatings, which are an important aspect of surface engineering, are today applied on machine component surfaces for a diverse range of moving machine components to control (mostly to minimize) friction and wear in order to conserve energy and materials. This reprint book is a compilation of 11 research papers contributed by experts in the field of surface engineering and tribology. These papers have dealt with the synthesis of various types of coatings, characterization and applications under different operating conditions. It is hoped that this reprint book will be of interest, not only to researchers, but also to practicing engineers and technologists in the industry.

History of engineering & technology --- Cr-Ti-B-N films --- magnetron sputtering --- microstructure --- friction and wear --- GH4169 alloy --- Ag–Mo co-implantation --- ion-beam-assisted bombardment technology (IBAB) --- wear mechanism --- polymer coating --- graphene --- tribological properties --- elevated temperature --- VCN–Cu films --- mechanical --- friction property --- wear property --- high-entropy alloy (HEA) matrix coating --- plasma spraying --- wear resistance --- microhardness --- bonding strength --- Cu/MoS2 coatings --- Cu-Al/MoS2 coatings --- annealing treatment --- γ2-Cu9Al4 phase --- scratch test --- acoustic emission --- thin films --- silicon carbide --- multilayered AlCrN coating --- Raman spectroscopy --- tribo-corrosion --- sliding wear --- DLC --- MoS2 --- coating --- elastomer --- seals --- TiB2 --- ZrB2 --- coating blade --- anti-wear --- stainless steel coating --- sputtering --- wear --- adhesion --- friction --- structure

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The last few decades have seen rapid development in the field of surface engineering and its applications in almost all industrial sectors. Tribological coatings, which are an important aspect of surface engineering, are today applied on machine component surfaces for a diverse range of moving machine components to control (mostly to minimize) friction and wear in order to conserve energy and materials. This reprint book is a compilation of 11 research papers contributed by experts in the field of surface engineering and tribology. These papers have dealt with the synthesis of various types of coatings, characterization and applications under different operating conditions. It is hoped that this reprint book will be of interest, not only to researchers, but also to practicing engineers and technologists in the industry.

Cr-Ti-B-N films --- magnetron sputtering --- microstructure --- friction and wear --- GH4169 alloy --- Ag–Mo co-implantation --- ion-beam-assisted bombardment technology (IBAB) --- wear mechanism --- polymer coating --- graphene --- tribological properties --- elevated temperature --- VCN–Cu films --- mechanical --- friction property --- wear property --- high-entropy alloy (HEA) matrix coating --- plasma spraying --- wear resistance --- microhardness --- bonding strength --- Cu/MoS2 coatings --- Cu-Al/MoS2 coatings --- annealing treatment --- γ2-Cu9Al4 phase --- scratch test --- acoustic emission --- thin films --- silicon carbide --- multilayered AlCrN coating --- Raman spectroscopy --- tribo-corrosion --- sliding wear --- DLC --- MoS2 --- coating --- elastomer --- seals --- TiB2 --- ZrB2 --- coating blade --- anti-wear --- stainless steel coating --- sputtering --- wear --- adhesion --- friction --- structure