Spherical indentation load-relaxation of soft biological tissues
about
A novel method for single sample multi-axial nanoindentation of hydrated heterogeneous tissues based on testing great white shark jawsViscoelastic response of the thorax under dynamic belt loading.The contribution of the perichondrium to the structural mechanical behavior of the costal-cartilage.Mechanical measurements of heterogeneity and length scale effects in PEG-based hydrogelsEmpirical measurements of biomechanical anisotropy of the human vocal fold lamina propria.A dynamic microindentation device with electrical contact detection.Mapping Viscoelastic and Plastic Properties of Polymers and Polymer-Nanotube Composites using Instrumented Indentation.Strain rate viscoelastic analysis of soft and highly hydrated biomaterials.Quasi-linear viscoelastic properties of costal cartilage using atomic force microscopy.Effect of storage methods on indentation-based material properties of abdominal organs.The effect of calcification on the structural mechanics of the costal cartilage.In vitro characterisation of the elasticity and the permeability of the mouse cartilage during growth using microindentationMechanical behaviour of electrospun fibre-reinforced hydrogels.Viscoelastic analysis of single-component and composite PEG and alginate hydrogelsNanoindentation of Biological and Biomimetic MaterialsSeparating poroviscoelastic deformation mechanisms in hydrogelsElectrospun Fiber - Hydrogel Composites for Nucleus Pulposus Tissue EngineeringSize effects in indentation of hydrated biological tissuesViscoelastic and poroelastic mechanical characterization of hydrated gels
P2860
Q28661526-88139A20-2645-4EA8-BCD9-809C3CD1C5E1Q30448406-5757C73F-0742-4499-B6CE-AEACF46B1CA7Q30451732-BDD8DC12-AAE6-452B-9947-9048CF349DE2Q36063363-6331E0CD-9F74-4EAD-B588-4A2B913BA35BQ37100766-F0F60F1E-19AB-4FB0-9884-28F359BD9E2CQ37183550-11F0A39F-6C66-4732-AD90-5051E73958C5Q37193650-81080461-B6D7-41B7-9A55-44FBBC052345Q43116912-DD48FDB7-5E3A-40A7-97FB-71B9A5F1848BQ44974077-D8CF8399-A4BE-4E13-9C62-5541E266D612Q44985256-B4DF6C45-88DB-4161-941D-E5238E612ACFQ46291172-32065EB8-9C39-45E9-8C74-8220C2F92674Q53101454-512E164B-B915-4B42-91C6-C000FA79F5C1Q53101469-38870EEB-2973-4304-9CEC-887AAAABF330Q53101505-833C3FE9-DB0D-40C8-9809-B7D815F3D8A6Q53101547-434AD4A9-F447-4A54-A966-E92063B2AB49Q53101551-C0266640-A453-4E18-8B3B-6C5B46E7BF32Q53101593-F89C01A6-FB00-4839-908F-FADD0388FD44Q53101611-1AD1C1A6-3315-438E-AF03-A8705680DEA4Q53101735-76EBF92A-335D-45D6-B6C6-9C5E6CAE196D
P2860
Spherical indentation load-relaxation of soft biological tissues
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Spherical indentation load-relaxation of soft biological tissues
@en
Spherical indentation load-relaxation of soft biological tissues
@nl
type
label
Spherical indentation load-relaxation of soft biological tissues
@en
Spherical indentation load-relaxation of soft biological tissues
@nl
prefLabel
Spherical indentation load-relaxation of soft biological tissues
@en
Spherical indentation load-relaxation of soft biological tissues
@nl
P2093
P356
P1476
Spherical indentation load-relaxation of soft biological tissues
@en
P2093
Anthony G. Lau
Jason M. Mattice
Richard W. Kent
P304
P356
10.1557/JMR.2006.0243
P577
2006-08-01T00:00:00Z