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Lakes, Roderic
Viscoelastic properties of cortical bone
Bone Mechanics Handbook
Cited By (19)
Year
Entry
2005
Skedros JG, Holmes JL, Vajda EG, Bloebaum AD. Cement lines of secondary osteons in human bone are not mineral‐deficient: new data in a historical perspective.
Anat Rec
. September 2005;286A(1):781-803.
2007
Budyn É, Hoc T. Multiple scale modeling for cortical bone fracture in tension using X-FEM.
Eur J Comput Mech
. 2007;16(2):213-236.
2006
Guedes RM, Simões JA, Morais JL. Viscoelastic behaviour and failure of bovine cancellous bone under constant strain rate.
J Biomech
. 2006;39(1):49-60.
2011
Cherkaev E, Bonifasi-Lista C. Characterization of structure and properties of bone by spectral measure method.
J Biomech
. January 11, 2011;44(2):345-351.
2010
Pilcher A, Wang X, Kaltz Z, Garrison JG, Niebur GL, Mason J. High strain rate testing of bovine trabecular bone.
J Biomech Eng
. August 2010;132(8):081012.
2011
Shepherd TN, Zhang J, Ovaert TC, Roeder RK, Niebur GL. Direct comparison of nanoindentation and macroscopic measurements of bone viscoelasticity.
J Mech Behav Biomed Mater
. November 2011;4(8):2055-2062.
2004
Ji B, Gao H. Mechanical properties of nanostructure of biological materials.
J Mech Phys Solids
. September 2004;52(9):1963-1990.
2018
Xie S.
Characterisation of Time-Dependent Mechanical Behaviour of Trabecular Bone and Its Constituents
[PhD thesis]. Edinburgh, Scotland: University of Edinburgh; 2018.
2019
Bin Rosli AH.
Characterisation of Trabecular Bone Behaviour Under Impact
[PhD thesis]. Edinburgh, Scotland: University of Edinburgh; 2019.
2011
Abdel-Wahab AA-GM.
Experimental and Numerical Analysis of Deformation and Fracture of Cortical Bone Tissue
[PhD thesis]. Loughborough University; August 2011.
2012
Druchok C.
The Effect of a High-Fat Diet on Bone Strain in Adult Rat Femurs
[Master's thesis]. Hamilton, ON: McMaster University; October 2012.
2013
Antolić A.
Mitochondrial Contributions to Bone Health, an Investigation Using Two Different Animal Models of Mitochondrial Capacity
[PhD thesis]. Hamilton, ON: McMaster University; September 2013.
2007
Shepherd TN.
Comparison of the Macroscopic Viscoelastic Properties of Cortical Bone to Its Nano-Indentation Response
[Master's thesis]. University of Notre Dame; April 2007.
2003
Peterman MM.
A Strain Map of the Human Distal Tibia During the Stance Phase of Walking, from Dynamic Cadaver Experiments and Finite Element Analysis Simulations
[PhD thesis]. State College, PA: Pennsylvania State University; August 2003.
2008
Crookshank MCM.
Optimizing Fracture Management: Correlating the Physical and Mechanical Properties of Bone to Computed Tomography to Generate an Estimate of Bone Quality
[Master's thesis]. Queen's University; January 2008.
2016
Gustafson HM.
Quantifying the Response of Vertebral Bodies to Compressive Loading Using Digital Image Correlation
[PhD thesis]. Vancouver, BC: University of British Columbia; October 2016.
2006
Rouhi G.
Theoretical Aspects of Bone Remodeling and Resorption Processes
[PhD thesis]. Calgary, AB: University of Calgary; March 2006.
2011
Islam A.
Mechanistic Model of Nanoscratch Test to Determine the in Situ Toughness of Bone
[Master's thesis]. San Antionio, TX: University of Texas at San Antonio; May 2011.
2002
Shultz TR.
The Effects of Cortical Bone Viscoelasticity on the Fixation/stability of Cemented and Cementless Femoral Implants: A Finite Element Analysis
[Master's thesis]. West Virginia University; 2002.