01277nam0 22003013i 450 UBO032885520211015072850.0047125424X20090320d1999 ||||0itac50 baengusz01i xxxe z01nChemical reaction engineeringOctave Levenspiel3. edNew YorkWileyc1999XVI, 668 p.26 cm.Reattori chimiciFIRNAPC224416I660INGEGNERIA CHIMICA E TECNOLOGIE CONNESSE14660.2832INGEGNERIA CHIMICA. ATTREZZATURE PER I PROCESSI. REATTORI CHIMICI22Levenspiel, Octave <1926-....>LO1V0335430701203ITIT-NA007920090320IT-BN0095 UBO0328855Biblioteca Centralizzata di Ateneo1 v. (2. copia)1 v. in due copie 01SALA DING 660 LEV.ch 0102 0000041105 B A4 1 v.3 20020429200204291 v. (2. copia)1 v. in due copie 01SALA DING 660 LEV.ch 0102 0000057785 B A4(bis 1 v. (2. copia)D 2005102120110414 01Chemical reaction engineering26938UNISANNIO04715nam 22011893a 450 991034666830332120250203235429.09783039210794303921079310.3390/books978-3-03921-079-4(CKB)4920000000094984(oapen)https://directory.doabooks.org/handle/20.500.12854/61335(ScCtBLL)8f13ca69-f2fc-4ee8-b2e2-373a319debcf(OCoLC)1156407030(oapen)doab61335(EXLCZ)99492000000009498420250203i20192019 uu engurmn|---annantxtrdacontentcrdamediacrrdacarrierTribological Performance of Artificial JointsJ. Philippe Kretzer, Amir KamaliMDPI - Multidisciplinary Digital Publishing Institute2019Basel, Switzerland :MDPI,2019.1 electronic resource (178 p.)9783039210787 3039210785 Joint replacement is a very successful medical treatment. However, the survivorship of the implants could be adversely affected due to the loss of materials in the form of particles or ions as the bearing surfaces articulate against earch other. The consequent tissue and immune response to the wear products, remain one of the key factors of their failure. Tribology has been defined as the science and technology of interacting surfaces in relative motion and all related wear products (e.g., particles, ions, etc.). Over the last few decades, in an attempt to understand and improve joint replacement technology, the tribological performance of several material combinations have been studied experimentally and assessed clinically. In addition, research has focused on the biological effects and long term consequences of wear products. Improvements have been made in manufacturing processes, precision engineering capabilities, device designs and materials properties in order to minimize wear and friction and maximize component longevity in vivo. This book investigates the in vivo and in vitro performance of the orthopaedic implants and their advanced bearings. Contributions are solicited from the researchers working in the field of biotribology and bioengineeringMedicine and Nursingbicsscalginatebiotribologymultiwall carbon nanotubesarthroplastyvalidated modelimplantlubricationfillersion treatmentbiomechanical testing/analysistitanium niobium nitrideorthopedicUHMWPEwear testingwear resistancewear debrisbiomaterialsbiolubricantwear simulationsurface engineeringdegenerative disc diseasetotal disc replacementjoint simulatorscrosslinked polyethyleneTKAunicompartmental arthroplastyimplantsmechanical propertiespin-on-plateultra-high molecular weight polyethylenehip implantsfailurehighly crosslinked UHMWPEgamma irradiationhip joint simulatoroxidized zirconiumosteolysishistomorphological characterizationcross-linked polyethylenewearhip prosthesiscobaltabrasionmetal-on-metalsynovial liningwear debris cytotoxicityalternative bearingssurfacespolyethylene wearknee replacementpatello-femoral jointcrosslink densityFEAcoatingultra high molecular weight polyethylenecontact anglefinite element analysissystematic reviewwear analysis/testingkneein vitro macrophages responsesynovial fluidgellan gumMedicine and NursingKretzer J. Philippe1311330Kamali AmirScCtBLLScCtBLLBOOK9910346668303321Tribological Performance of Artificial Joints3040096UNINA