An improved method for the automatic mapping of computed tomography numbers onto finite element models.
about
An experimentally validated micromechanical model of a rat vertebra under compressive loadingMorphing methods to parameterize specimen-specific finite element model geometriesDevelopment and validation of patient-specific finite element models of the hemipelvis generated from a sparse CT data set.Influence of orthotropy on biomechanics of peri-implant bone in complete mandible model with full dentitionDevelopment of a parametric finite element model of the proximal femur using statistical shape and density modellingLess than full circumferential fusion of a tibial nonunion is sufficient to achieve mechanically valid fusion--proof of concept using a finite element modeling approach.A new material mapping procedure for quantitative computed tomography-based, continuum finite element analyses of the vertebra.Quantitative Evaluation of the Mechanical Risks Caused by Focal Cartilage Defects in the Knee.Quantitative Computed Tomography (QCT) derived Bone Mineral Density (BMD) in finite element studies: a review of the literature.Patient-specific finite element modeling of bones.Multiscale modelling and nonlinear finite element analysis as clinical tools for the assessment of fracture risk.A biomechanical sorting of clinical risk factors affecting osteoporotic hip fracture.A numerical study on stress distribution across the ankle joint: Effects of material distribution of bone, muscle force and ligaments.Left-right differences in the proximal femur's strength of post-menopausal women: a multicentric finite element study.Biomechanical investigation of the supraorbital arch - a transient FEA study on the impact of physical blows.Material model of pelvic bone based on modal analysis: a study on the composite bone.Validation of radiocarpal joint contact models based on images from a clinical MRI scanner.Maxillofacial fractures and craniocerebral injuries - stress propagation from face to neurocranium in a finite element analysis.Multiscale investigation of the functional properties of the human femur.Finite Element Simulation and Additive Manufacturing of Stiffness-Matched NiTi Fixation Hardware for Mandibular Reconstruction Surgery.Does facial soft tissue protect against zygomatic fractures? Results of a finite element analysis.The Applications of Finite Element Analysis in Proximal Humeral FracturesFinite element simulation of cement-bone interface micromechanics: a comparison to experimental results.The impact of voxel size-based inaccuracies on the mechanical behavior of thin bone structures.Peri-implant bone adaptations to overloading in rat tibiae: experimental investigations and numerical predictions.Blunt forehead trauma and optic canal involvement: finite element analysis of anterior skull base and orbit on causes of vision impairment.Sensitivity analysis of a validated subject-specific finite element model of the human craniofacial skeleton.Biomechanical analysis of the tibial tray design in TKA: comparison between modular and offset tibial trays.Validation of Material Algorithms for Femur Remodelling Using Medical Image Data.Comparative analysis of bone remodelling models with respect to computerised tomography-based finite element models of bone.Mechanobiological simulations of peri-acetabular bone ingrowth: a comparative analysis of cell-phenotype specific and phenomenological algorithms.Bone ingrowth around porous-coated acetabular implant: a three-dimensional finite element study using mechanoregulatory algorithm.A novel in silico method to quantify primary stability of screws in trabecular bone.A CT-based high-order finite element analysis of the human proximal femur compared to in-vitro experiments.Bone remodelling around uncemented metallic and ceramic acetabular components.The effects of musculoskeletal loading regimes on numerical evaluations of acetabular component.Evaluation of mesh morphing and mapping techniques in patient specific modelling of the human pelvis.Analysis of bone demineralization due to the use of exoprosthesis by comparing Young's modulus of the femur in unilateral transfemoral amputees.Parameter study for the finite element modelling of long bones with computed-tomography-imaging-based stiffness distribution.Extensive risk analysis of mechanical failure for an epiphyseal hip prothesis: a combined numerical-experimental approach
P2860
Q28742734-EEFF4D6F-4C66-454A-8B41-DED05B86C562Q30492933-5949D4A1-AFFC-4BA0-BDF9-DF53604FB0A6Q33388411-2B02B3F6-0672-4AAA-B537-D8A0F51C416CQ34530659-3A10A384-2A92-4D77-AA7F-C2953E81B225Q35050491-FE96B681-7E99-4A60-947E-D6BFE2621BB6Q35522582-AD84B856-59D5-4A34-BD5F-F6C30FF7F56AQ36047071-EFB561D8-BA6A-48CE-A4DE-C2238577DD8BQ37449163-136E7041-7A95-4D0A-B3B0-F70636FA55EBQ37585408-445BE10E-683E-4ECA-8BE0-BB2430911D73Q38103524-019C31DD-071F-44AD-B498-B4DA16AEE744Q38430067-DAB87AB8-EB3F-495B-85CD-BCFA6BFE64F3Q38585164-D4FCD1F3-3F16-424C-9357-B4D678B4C886Q38755444-3BAF6AB9-776F-4A39-AECF-4D065F3448A9Q38942009-101FB157-DDE0-42C9-9AE1-A7A35FB28BFDQ38954280-3D6DEE1E-3294-41C9-9F1E-0D27E3C74A5BQ39453596-387D1A2D-B9B7-4755-86C1-B31721921AFEQ39613093-706B5022-B77B-4F0A-B289-F4198E7EDF08Q39827708-6CFDADF1-4F61-4FD7-9B63-D8742896BA9DQ40075344-8CEAC831-6302-466C-B7B7-E3FAFC54E413Q41704436-1CDE7581-1588-4473-B124-625FD22015A6Q42434261-19EAC594-A844-4B6F-B367-787C43D0E50FQ42730567-332251AA-F928-429E-86B1-530834318664Q42942461-17855562-AF54-4AD8-AB34-702F450701A1Q47403011-C68834F7-CFEC-4A68-AA40-B9FB7437A889Q48053581-D4F54AD6-34E0-45B3-A2A2-22A9D9718C11Q48121503-AEFA0E23-D6B5-4CD8-8962-847BAF679CCFQ48149749-141B56EB-94BB-4939-8518-F3DB69218F60Q48932663-24B8815E-AD81-47F3-91EE-F770C9335A32Q49703357-358F6714-BFE7-42C8-A15A-27B82BD46A6EQ50599486-EB0F8206-2CCB-4C1C-BD89-785588588939Q50634053-6CFAC51F-7F9B-472A-92ED-4149395A5129Q50890139-A4D4C5C1-32E5-4CFB-9EA2-393D9020E08CQ50988584-8C29281E-78B5-4596-926F-C27E81EEEE29Q50992544-C43AA1F3-ACAC-4F1A-912C-67D2DD1A7829Q51223120-E6913A60-7085-4B6D-9BDF-76FCF9D2F4E8Q51223392-4421AD6C-720B-40CB-B4FD-98109FD3B813Q53149630-7A461EAA-36C3-41DC-BB65-7A7F05C4DC19Q53196406-29CBBD3B-69C9-4D55-A837-2E567F1DF6B1Q53262266-54CE99FD-C978-4E21-92EF-B18DD696A0CBQ56986826-A0C8FEAF-7799-402E-AB82-3E06DF0403A5
P2860
An improved method for the automatic mapping of computed tomography numbers onto finite element models.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
An improved method for the aut ...... rs onto finite element models.
@en
An improved method for the aut ...... rs onto finite element models.
@nl
type
label
An improved method for the aut ...... rs onto finite element models.
@en
An improved method for the aut ...... rs onto finite element models.
@nl
prefLabel
An improved method for the aut ...... rs onto finite element models.
@en
An improved method for the aut ...... rs onto finite element models.
@nl
P1476
An improved method for the aut ...... ers onto finite element models
@en
P2093
Alberto Pancanti
Fulvia Taddei
P356
10.1016/S1350-4533(03)00138-3
P577
2004-01-01T00:00:00Z