01093nam a2200289 i 450099100084249970753620020509180201.0010704s1965 it ||| | ita b11418151-39ule_instPARLA216344ExLDip.to Filosofiaita888Plutarchus439241Vite parallele /introduzione e traduzione di Carlo Carena3. edTorino :Einaudi,19652 v. :ill. ;22 cm.I millenniTit. orig.: Bioi paralleloiCarena, Carloauthorhttp://id.loc.gov/vocabulary/relators/aut168477.b1141815121-09-0601-07-02991000842499707536LE005IF I A 15 IIV. 212005000252662le005-E0.00-l- 03130.i1160778601-07-02LE005IF I A 15 IV. 112005000274077le005-E0.00-l- 04140.i1160779801-07-02Vite parallele1451214UNISALENTOle00501-01-01ma -itait 0201491oam 2200433zu 450 991037618400332120210807002132.0(CKB)3170000000003820(SSID)ssj0000812494(PQKBManifestationID)12417902(PQKBTitleCode)TC0000812494(PQKBWorkID)10860087(PQKB)10727103(Association for Computing Machinery)10.1145/1460027(EXLCZ)99317000000000382020160829d2008 uy engurnn|008mam|atxtccrProceedings of the 2nd Acm Workshop on Improving Non English Web Searching[Place of publication not identified]Association for Computing Machinery20081 online resource (112 p.;) ACM ConferencesBibliographic Level Mode of Issuance: Monograph1-60558-416-9 ACM ConferencesiNEWS '08Information TechnologyComputer Science (Hardware & Networks)Information TechnologyComputer Science (Hardware & Networks)Lazarinis Fotis923535Lazarinis FotisAssociation for Computing Machinery-Digital Library.PQKBBOOK9910376184003321Proceedings of the 2nd Acm Workshop on Improving Non English Web Searching2292728UNINA04248nam 22006375 450 991101587870332120250702130317.0981-9605-86-510.1007/978-981-96-0586-6(CKB)39542560800041(MiAaPQ)EBC32189631(Au-PeEL)EBL32189631(DE-He213)978-981-96-0586-6(EXLCZ)993954256080004120250702d2025 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierBiomechanics of Joints and Implants Concepts to Applications /by Sanjay Gupta, Ceby Mullakkara Saviour, Bidyut Pal, Souptick Chanda, Kaushik Mukherjee1st ed. 2025.Singapore :Springer Nature Singapore :Imprint: Springer,2025.1 online resource (425 pages)981-9605-85-7 Musculoskeletal system: Structure and functions -- Basic Biomechanics of Human Joints -- Biomechanics of Gait -- Joint Dynamics -- Bone Tissue Mechanics -- Biomechanics of Orthopaedic Implants -- Preclinical Analysis and Design of Orthopaedic Implants -- Adaptive Bone Remodelling: Theory and Simulation -- Fracture Healing and Tissue Differentiation -- Artificial Intelligence (AI) in Orthopaedic Biomechanics.This textbook serves as a comprehensive resource for readers interested in applying the principles of engineering mechanics to analyse the mechanical and structural functions of the musculoskeletal system. Over the past few decades, orthopaedic practice has strongly been influenced by the contributions from mechanical analysis and design. This book sequentially presents basic concepts and applications necessary for understanding a biomechanical system. The book is specially focussed on analysis and design of orthopaedic implants used to treat skeletal diseases and disorders. The book begins with an introduction to the anatomy, physiology, and movements of human body and its mechanical analogy, followed by chapters on basic biomechanics of various joints and spine. It elaborately discusses the gait analysis and measurement techniques and systematically presents the quantitative estimation of musculoskeletal forces (joint forces and moments, muscle forces) using the fundamental concepts of joint dynamics (kinematics and kinetics), with relevant solved examples and exercises to impart basic understanding and knowledge to the students. It also discusses the basic concepts of mechanics of deformable bodies relevant for bone tissue as well as implanted bone structure, common failure mechanisms of implanted bone structure and biomaterials used in orthopaedic implants, and the steps involved in finite element modelling and analysis of implant-bone structures. Other topics covered include various theories, mathematical formulations, the computational framework of bone remodelling and bone ingrowth, mechanobiology based mathematical models of tissue differentiation, and simulations on tissue ingrowth have been presented along with the outcomes of our research activities, which may help and inspire the students to pursue research in this field.Biomedical engineeringMechanical engineeringBiotechnologyOrthopedicsBiomedical Engineering and BioengineeringMechanical EngineeringBiotechnologyOrthopaedicsBiomedical engineering.Mechanical engineering.Biotechnology.Orthopedics.Biomedical Engineering and Bioengineering.Mechanical Engineering.Biotechnology.Orthopaedics.611.72Gupta Sanjay1832423Saviour Ceby Mullakkara1832424Pal Bidyut1832425Chanda Souptick1832426Mukherjee Kaushik1832427MiAaPQMiAaPQMiAaPQBOOK9911015878703321Biomechanics of Joints and Implants4406533UNINA01563nam0 22003973i 450 UMC001413020251003044431.0IT841561 20170628e19821948||||0itac50 baitaitz01i xxxe z01nz01ncRDAcarrierˆLa ‰teoria giuridica dell'aziendanatura giuridica dell'azienda, la protezione dell'azienda, la circolazione dell'aziendaFrancesco Ferrara jrRist. della 2. edMilanoGiuffre1982XVI, 462 p.26 cmRipr. facs. dell'ed.: Firenze : C. Cya, 1948AziendeDirittoFIRCFIC000037E346Diritto privato12346.07DIRITTO COMMERCIALE21ImpreseAspetti giuridiciAziendeImpreseDirittoAspetti giuridiciFerrara, Francesco <Jr.>CFIV005500070313519Ferrara, Francesco <1908-1974>CFIV021570Ferrara, Francesco <Jr.>Ferrara, Francesco <1908-1974>CFIV021570Ferrara, Francesco <Jr.>ITIT-00000020170628IT-BN0095 NAP 01D $UMC0014130Biblioteca Centralizzata di Ateneo1 v. 01D (AR) 12 198 01AR 0700121985 VMA 1 v.Y 2016090820160908 01Teoria giuridica dell'azienda1396264UNISANNIO