Comparison of the linear finite element prediction of deformation and strain of human cancellous bone to 3D digital volume correlation measurements. - Wikidata - wikimedia - TriplyDB

Comparison of the linear finite element prediction of deformation and strain of human cancellous bone to 3D digital volume correlation measurements.

Comparison of the linear finite element prediction of deformation and strain of human cancellous bone to 3D digital volume correlation measurements.

http://www.wikidata.org/entity/Q39748411

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Biomechanics and strain mapping in bone as related to immediately-loaded dental implants.The pressure-induced deformation response of the human lamina cribrosa: Analysis of regional variations.Digital Volume Correlation for Study of the Mechanics of Whole Bones Novel Method to Track Soft Tissue Deformation by Micro-Computed Tomography: Application to the Mitral Valve.Accuracy and precision of digital volume correlation in quantifying displacements and strains in trabecular bone Micro Finite Element models of the vertebral body: Validation of local displacement predictions Quantification of the effect of osteolytic metastases on bone strain within whole vertebrae using image registration.Strain mapping and correlative microscopy of the alveolar bone in a bone-periodontal ligament-tooth fibrous joint.A three-dimensional strain measurement method in elastic transparent materials using tomographic particle image velocimetry.μFEA successfully exhibits higher stresses and strains in microdamaged regions of whole vertebrae.The importance of intrinsic damage properties to bone fragility: a finite element study.Effects of intracortical porosity on fracture toughness in aging human bone: a microCT-based cohesive finite element study.Whole bone strain quantification by image registration: a validation study.Towards validation of computational analyses of peri-implant displacements by means of experimentally obtained displacement maps.3D mechanical analysis of low-density wood-based fiberboards by X-ray microcomputed tomography and Digital Volume Correlation

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P2860

Comparison of the linear finite element prediction of deformation and strain of human cancellous bone to 3D digital volume correlation measurements.

http://www.wikidata.org/entity/Q39748411

description

2006 nî lūn-bûn

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2006年の論文

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年學術文章

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2006年學術文章

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2006年學術文章

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name

Comparison of the linear finit ...... lume correlation measurements.

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Comparison of the linear finit ...... lume correlation measurements.

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Comparison of the linear finit ...... lume correlation measurements.

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Comparison of the linear finit ...... lume correlation measurements.

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Comparison of the linear finit ...... lume correlation measurements.

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Comparison of the linear finit ...... lume correlation measurements.

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Journal of Biomechanical Engineering

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Comparison of the linear finit ...... olume correlation measurements

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D P Fyhrie

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R Zauel

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X N Dong

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Y N Yeni

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P2860

Texture correlation: a method for the measurement of detailed strain distributions within trabecular bone.

Improving the local solution accuracy of large-scale digital image-based finite element analyses.

Finite element calculated uniaxial apparent stiffness is a consistent predictor of uniaxial apparent strength in human vertebral cancellous bone tested with different boundary conditions.

High-resolution finite element models with tissue strength asymmetry accurately predict failure of trabecular bone.

Femoral strength is better predicted by finite element models than QCT and DXA.

Load sharing between the shell and centrum in the lumbar vertebral body.

Trabecular shear stresses predict in vivo linear microcrack density but not diffuse damage in human vertebral cancellous bone.

Quantitative computed tomography-based finite element models of the human lumbar vertebral body: effect of element size on stiffness, damage, and fracture strength predictions.

Finite element modeling of the human thoracolumbar spine.

Human vertebral body apparent and hard tissue stiffness.

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1-6

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10.1115/1.2146001

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128

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16532610

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