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Literature DB >> 22938363

An augmented Lagrangian method for sliding contact of soft tissue.

Hongqiang Guo¹, Jeffrey C Nickel, Laura R Iwasaki, Robert L Spilker.

Abstract

Despite the importance of sliding contact in diarthrodial joints, only a limited number of studies have addressed this type of problem, with the result that the mechanical behavior of articular cartilage in daily life remains poorly understood. In this paper, a finite element formulation is developed for the sliding contact of biphasic soft tissues. The augmented Lagrangian method is used to enforce the continuity of contact traction and fluid pressure across the contact interface. The resulting method is implemented in the commercial software COMSOL Multiphysics. The accuracy of the new implementation is verified using an example problem of sliding contact between a rigid, impermeable indenter and a cartilage layer for which analytical solutions have been obtained. The new implementation's capability to handle a complex loading regime is verified by modeling plowing tests of the temporomandibular joint (TMJ) disc.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2012 PMID： 22938363 PMCID： PMC3488455 DOI： 10.1115/1.4007177

Source DB: PubMed Journal: J Biomech Eng ISSN： 0148-0731 Impact factor: 2.097

18 in total

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Authors: M W Beatty; M J Bruno; L R Iwasaki; J C Nickel
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2. Biphasic finite element modeling of hydrated soft tissue contact using an augmented Lagrangian method.

Authors: Hongqiang Guo; Robert L Spilker
Journal: J Biomech Eng Date: 2011-11 Impact factor: 2.097

3. Effect of fluid boundary conditions on joint contact mechanics and applications to the modeling of osteoarthritic joints.

Authors: Salvatore Federico; Guido La Rosa; Walter Herzog; John Z Wu
Journal: J Biomech Eng Date: 2004-04 Impact factor: 2.097

4. The effect of contact stress on cartilage friction, deformation and wear.

Authors: J Lizhang; J Fisher; Z Jin; A Burton; S Williams
Journal: Proc Inst Mech Eng H Date: 2011-05 Impact factor: 1.617

5. Regional dynamic tensile properties of the TMJ disc.

Authors: G R Snider; J Lomakin; M Singh; S H Gehrke; M S Detamore
Journal: J Dent Res Date: 2008-11 Impact factor: 6.116

6. Anisotropy, inhomogeneity, and tension-compression nonlinearity of human glenohumeral cartilage in finite deformation.

Authors: Chun-Yuh Huang; Anna Stankiewicz; Gerard A Ateshian; Van C Mow
Journal: J Biomech Date: 2005-04 Impact factor: 2.712

7. Finite element biphasic indentation of cartilage: a comparison of experimental indenter and physiological contact geometries.

Authors: M D Warner; W R Taylor; S E Clift
Journal: Proc Inst Mech Eng H Date: 2001 Impact factor: 1.617

8. A Conewise Linear Elasticity mixture model for the analysis of tension-compression nonlinearity in articular cartilage.

Authors: M A Soltz; G A Ateshian
Journal: J Biomech Eng Date: 2000-12 Impact factor: 2.097

9. Quantitative analysis and comparative regional investigation of the extracellular matrix of the porcine temporomandibular joint disc.

Authors: Michael S Detamore; John G Orfanos; Alejandro J Almarza; Margaret M French; Mark E Wong; Kyriacos A Athanasiou
Journal: Matrix Biol Date: 2005-02 Impact factor: 11.583

10. Static and dynamic mechanics of the temporomandibular joint: plowing forces, joint load and tissue stress.

Authors: J Nickel; R Spilker; L Iwasaki; Y Gonzalez; W D McCall; R Ohrbach; M W Beatty; D Marx
Journal: Orthod Craniofac Res Date: 2009-08 Impact factor: 1.826

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Journal: Biophys J Date: 2016-12-20 Impact factor: 4.033

2. The Scaffold-Articular Cartilage Interface: A Combined In Vitro and In Silico Analysis Under Controlled Loading Conditions.

Authors: Tony Chen; Moira M McCarthy; Hongqiang Guo; Russell Warren; Suzanne A Maher
Journal: J Biomech Eng Date: 2018-09-01 Impact factor: 2.097

3. Using a statistically calibrated biphasic finite element model of the human knee joint to identify robust designs for a meniscal substitute.

Authors: Erin R Leatherman; Hongqiang Guo; Susannah L Gilbert; Ian D Hutchinson; Suzanne A Maher; Thomas J Santner
Journal: J Biomech Eng Date: 2014-07 Impact factor: 2.097

10. A biphasic multiscale study of the mechanical microenvironment of chondrocytes within articular cartilage under unconfined compression.

Authors: Hongqiang Guo; Suzanne A Maher; Peter A Torzilli
Journal: J Biomech Date: 2014-05-10 Impact factor: 2.712