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Documents dont l'auteur est "Wang, J. L."

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Nombre de documents: 21

K

Kasra, M., Parnianpour, M., Shirazi-Adl, A., Wang, J. L., & Grynpas, M. D. (2004). Effect of strain rate on tensile properties of sheep disc anulus fibrosus. Technology and Health Care, 12(4), 333-342. Lien externe

Kasra, M., Parnianpour, M., Wang, J. L., Shirazi-Adl, A., & Grynpas, M. D. (janvier 1998). Mechanical behaviour of the anulus fibrosus under tensile dynamic loading: effect of loading rate [Communication écrite]. Engineering systems design and analysis conference (ESDA), Berlin. Non disponible

Kasra, M., Parnianpour, M., Wang, J. L., Shirazi-Adl, A., & Grynpas, M. D. (novembre 1997). Effect of strain rate on failure behaviour of the annulus fobrosus in tension [Communication écrite]. Advances in bioengineering, ASME WAM, Dallas, Texas, USA. Lien externe

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Parnianpour, M., Wang, J. L., Shirazi-Adl, A., Khayatian, B., & Lafferriere, G. (1999). Computational method for simulation of trunk motion : towards a theoretical based quantitative assessment of trunk performance. Biomedical engineering applications, basis & communications, 11(1), 27-38. Non disponible

Parnianpour, M., Wang, J. L., Shirazi-Adl, A., Sparto, P., & Wilke, H. J. (1997). Effect of variations in trunk models in predicting muscle strength and spinal loading. Journal of Musculoskeletal Research, 1(01), 55-69. Lien externe

Parnianpour, M., Shirazi-Adl, A., Wang, J. L., Wilke, H. J., & Sparto, P. (janvier 1996). Effects of anatomical models and cost functions used by optimisation models on the predicted spinal load [Communication écrite]. Advances in bioengineering, ASME WAM, Atlanta. Non disponible

Parnianpour, M., Shirazi-Adl, A., Wang, J. L., Khakatian, B., & Lafferriere, G. (janvier 1996). Effects of strength on simulation of the trunk motion [Communication écrite]. Advances in bioengineering, ASME WAM, Atlanta. Non disponible

Parnianpour, M., Shirazi-Adl, A., Wang, J. L., Wilke, H. J., & Sparto, P. (janvier 1996). Novel approach to quantify strength and spinal loading using optimization models [Communication écrite]. Engineering systems design and analysis conference (ESDA), Montpellier, France. Non disponible

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Wang, J. L., Parnianpour, M., Shirazi-Adl, A., & Engin, A. E. (novembre 1999). Effect of loading rate on the load sharing between passive and active subsystems of spine: a finite element analysis [Communication écrite]. Advances in bioengineering ASME IMECE, Nashville, TN, USA. Lien externe

Wang, J. L., Parnianpour, M., Shirazi-Adl, A., & Engin, A. E. (1999). Rate Effect on Sharing of Passive Lumbar Motion Segment Under Load-Controlled Sagittal Flexion: Viscoelastic Finite Element Analysis. Theoretical and Applied Fracture Mechanics, 32(2), 119-128. Lien externe

Wang, J. L., Parnianpour, M., Shirazi-Adl, A., & Engin, A. E. (1998). Dynamic Response of L-2/L-3 Motion Segment in Cyclic Axial Compressive Loading. Clinical Biomechanics, 13(1), S16-S25. Lien externe

Wang, J. L., Parnianpour, M., Shirazi-Adl, A., Engin, A. E., Li, S., & Patwardhan, A. (1997). Development and validation of a viscoelastic finite element model of an l2/l3 motion segment. Theoretical and Applied Fracture Mechanics, 28(1), 81-93. Lien externe

Wang, J. L., Parnianpour, M., Shirazi-Adl, A., & Engin, A. E. (1997). Failure criterion of collagen fiber: viscoelastic behavior simulated by using load control data. Theoretical and Applied Fracture Mechanics, 27(1), 1-12. Lien externe

Wang, J. L., Parnianpour, M., Shirazi-Adl, A., & Engin, A. E. (1997). Review and evaluation of viscoelastic models for collagen fiber during constant strain rate loading. Biomedical engineering applications, basis & communications, 27, 1-12. Non disponible

Wang, J. L., Shirazi-Adl, A., Parnianpour, M., & Engin, A. E. (janvier 1996). Development of the viscoelastic finite model of lumbar motion segment [Communication écrite]. Engineering systems design and analysis conference (ESDA), Montpellier, France. Non disponible

Wang, J. L., Shirazi-Adl, A., Parnianpour, M., & Wilke, H. J. (janvier 1996). Dynamic response at creep and relaxation of motion segment L2-L3 by the viscoelastic finite element modelling [Communication écrite]. Engineering systems design and analysis conference (ESDA), Montpellier, France. Non disponible

Wang, J. L., Shirazi-Adl, A., Parnianpour, M., & Engin, A. E. (janvier 1996). Dynamic response of an L2-L3 motion segment to compressive cyclic loading using a nonlinear viscoelastic finite element model [Communication écrite]. Advances in bioengineering ASME WAM, Atlanta. Non disponible

Wang, J. L., Shirazi-Adl, A., Engin, A. E., & Parnianpour, M. (janvier 1995). Model study of the effect of rate of loading on the internal stress and strain of an L2-L3 lumbar motion segment [Communication écrite]. Advances in bioengineering ASME WAM, San Francisco. Non disponible

Wang, J. L., Shirazi-Adl, A., Engin, A. E., & Parnianpour, M. (janvier 1995). Viscoelastic model development af annulus fibre for a cumulative trauma model of a low back injury [Communication écrite]. Advances in bioengineering ASME WAM, San Francisco. Non disponible

Wang, J. L., Shirazi-Adl, A., Engin, A. E., & Parnianpour, M. (janvier 1994). Modelling of viscoelastic behaviour of soft tissues - a parametric study of methods based on Prony series and Bailey Norton law [Communication écrite]. Advances in bioengineering ASME WAM, Chicago. Non disponible

Wang, J. L., Engin, A. E., Shirazi-Adl, A., & Parnianpour, M. (janvier 1994). Viscoelastic behavior of disc annulus fibrosus: the response of a quasi-linear viscoelastic model to external loads [Communication écrite]. 2nd ASME European Joint conference on engineering systems design and analysis (ESDA), London. Non disponible

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