An improved method to analyze the stress relaxation of ligaments following a finite ramp time based on the quasi-linear viscoelastic theory.
about
Measuring viscoelasticity of soft samples using atomic force microscopy.The viscoelastic properties of passive eye muscle in primates. II: testing the quasi-linear theory.Influence of biochemical composition on endplate cartilage tensile properties in the human lumbar spineNonlinear viscoelastic characterization of the porcine spinal cord.A comparison of the quasi-static mechanical and non-linear viscoelastic properties of the human semitendinosus and gracilis tendonsEffects of immediate vs. delayed massage-like loading on skeletal muscle viscoelastic properties following eccentric exercise.Viscoelastic properties of isolated collagen fibrils.The stress relaxation characteristics of composite matrices etched to produce nanoscale surface features.The quasi-linear viscoelastic properties of diabetic and non-diabetic plantar soft tissue.The effect of target strain error on plantar tissue stress.THE EFFECT OF PREGNANCY AND POSTPARTUM RECOVERY ON THE VISCOELASTIC BEHAVIOR OF THE RAT CERVIXMechanical and structural changes of the rat cervix in late-stage pregnancy.A discrete spectral analysis for determining quasi-linear viscoelastic properties of biological materials.In vivo passive mechanical properties of skeletal muscle improve with massage-like loading following eccentric exercise.Ramp-hold relaxation solutions for the KVFD model applied to soft viscoelastic mediaTemperature-dependent viscoelastic properties of the human supraspinatus tendonRole of biomechanics in the understanding of normal, injured, and healing ligaments and tendons.Maximizing cartilage formation and integration via a trajectory-based tissue engineering approach.Modelling approaches for evaluating multiscale tendon mechanics.Advanced age diminishes tendon-to-bone healing in a rat model of rotator cuff repair.Visco-hyperelastic constitutive modeling of soft tissues based on short and long-term internal variables.Continuum description of the Poisson's ratio of ligament and tendon under finite deformation.A continuous method to compute model parameters for soft biological materials.A nonlinear constitutive model for stress relaxation in ligaments and tendons.Nonlinear model for viscoelastic behavior of Achilles tendon.Biomechanical and biotribological correlation of induced wear on bovine femoral condyles.An approach to determine pressure profile generated by compression bandage using quasi-linear viscoelastic model.The development and validation of a numerical integration method for non-linear viscoelastic modeling.Arterial viscoelasticity: role in the dependency of pulse wave velocity on heart rate in conduit arteries.On nonlinear viscoelastic deformations: a reappraisal of Fung's quasi-linear viscoelastic model.Viscoelasticity of esophageal tissue and application of a QLV model.Experimental characterization and finite element implementation of soft tissue nonlinear viscoelasticity.Characterization of the fatigue behavior of the medial collateral ligament utilizing traditional and novel mechanical variables for the assessment of damage accumulation.Hydration dependent viscoelastic tensile behavior of cornea.A modified formulation of quasi-linear viscoelasticity for transversely isotropic materials under finite deformationInvestigation on the stress behavior of cellulose acetate and the development of highly moisture-resistant optical films for display devices
P2860
Q30448980-9E7579FE-9CDB-4FFD-B2CA-34A020A94125Q33489529-862DD68C-CC07-49F6-A9AE-A9D732D1A941Q33690639-46C6436E-40DF-44F0-A50B-3F86663E19BBQ33760859-88A20C75-11C2-43BC-9BD0-1981BB5FD2EAQ33763093-B019B15F-E2BC-4016-BEC7-BCDCCC70EB22Q33954389-527EF89A-DFC4-44F5-A16B-28AD8F5BD0A9Q34194053-186E339B-B0C3-4CF6-8740-124CF747C3DBQ34307870-8A54E933-0655-4FEE-9347-3CA3F0B96F92Q34770606-F28FE9D7-6468-4D2E-B18E-7DCDC63490A9Q35909061-54D5C051-F630-4CAC-A960-40917623A232Q36366682-BC80B73B-7727-445F-AAE9-54CF7B732190Q36442336-B391924D-41FD-4BEA-9E8B-6C0EFCBFCA25Q36449783-56BD3359-3DC7-497A-A704-419F1AE5ED3FQ37067926-A11E6642-CA2C-43E9-97C1-237504894838Q37165594-076CA65A-F735-4AAE-AD3E-20ED4C658A09Q37198472-9E84A76B-1BA1-455B-AE03-8251A7965800Q37224967-A203E879-E54A-44E7-B120-F5A2ED386045Q37489306-7750A35F-4EA2-42BF-9642-0F5E50800FC0Q38726176-1F9D2ED2-E21D-48A0-A7CD-EC1C7DCD8EB0Q39255390-D70D273D-903C-4790-B1BB-E9AC2C647011Q39908721-EC1E66C2-9A6B-4CB4-981F-ACAE3C3777E1Q41973396-86E463E5-E008-4DF1-AE1F-2EEAEB00BBC1Q43643757-7F52282B-980A-4ED9-97BB-5A58146AEA0BQ44096235-7DBA6E3D-AE1D-431A-A274-05A3E7C079A8Q44937282-A15546B5-6CEC-4937-966B-D163E4A91779Q44947616-7CAB45CA-8511-45C4-9BFC-B74A2E393BF9Q47200498-4784AC93-0D33-4EFF-A3D9-93141789A460Q47205446-19EBD845-E822-43FA-8E6A-E6CA5C3E8D82Q48340150-576F4E08-2E09-4610-9A05-05C1C6E174D0Q51080605-0B6720F9-D2C2-4A27-969A-44F3DA118AA2Q51095929-6A232094-7779-4291-9C76-F8A3526B572EQ51263225-5B154E83-6633-47B9-8185-5FE0FFF144C2Q51561660-24878EBA-50F9-4C4D-90DE-F97A6E337AA8Q53589996-FC6EACBF-3312-450C-8ACA-59A1DB491B6AQ58561666-05200363-A1BE-42F9-A24C-878032E4322CQ58815610-F9AE25B2-3940-4EDD-BA1F-70A210259871
P2860
An improved method to analyze the stress relaxation of ligaments following a finite ramp time based on the quasi-linear viscoelastic theory.
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 to analyze ...... si-linear viscoelastic theory.
@en
An improved method to analyze ...... si-linear viscoelastic theory.
@nl
type
label
An improved method to analyze ...... si-linear viscoelastic theory.
@en
An improved method to analyze ...... si-linear viscoelastic theory.
@nl
prefLabel
An improved method to analyze ...... si-linear viscoelastic theory.
@en
An improved method to analyze ...... si-linear viscoelastic theory.
@nl
P356
P1476
An improved method to analyze ...... si-linear viscoelastic theory.
@en
P2093
Savio L Woo
Steven D Abramowitch
P356
10.1115/1.1645528
P577
2004-02-01T00:00:00Z