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You searched for +publisher:"Cal Poly" +contributor:("Stephen Klisch"). Showing records 1 – 11 of 11 total matches.

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Cal Poly

1. Griebel, Matthew Alexander. Viscoelastic Anisotropic Finite Element Mixture Model of Articular Cartilage using Viscoelastic Collagen Fibers and Validation with Stress Relaxation Data.

Degree: MS, Mechanical Engineering, 2012, Cal Poly

  Experimental results show that collagen fibers exhibit stress relaxation under tension and a highly anisotropic distribution. To further develop the earlier model of Stender… (more)

Subjects/Keywords: viscoelastic; cartilage; quasi-linear; simplex; Applied Mechanics; Biomechanical Engineering; Biomechanics and Biotransport; Molecular, Cellular, and Tissue Engineering

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APA (6th Edition):

Griebel, M. A. (2012). Viscoelastic Anisotropic Finite Element Mixture Model of Articular Cartilage using Viscoelastic Collagen Fibers and Validation with Stress Relaxation Data. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/743 ; 10.15368/theses.2012.65

Chicago Manual of Style (16th Edition):

Griebel, Matthew Alexander. “Viscoelastic Anisotropic Finite Element Mixture Model of Articular Cartilage using Viscoelastic Collagen Fibers and Validation with Stress Relaxation Data.” 2012. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/743 ; 10.15368/theses.2012.65.

MLA Handbook (7th Edition):

Griebel, Matthew Alexander. “Viscoelastic Anisotropic Finite Element Mixture Model of Articular Cartilage using Viscoelastic Collagen Fibers and Validation with Stress Relaxation Data.” 2012. Web. 11 Apr 2021.

Vancouver:

Griebel MA. Viscoelastic Anisotropic Finite Element Mixture Model of Articular Cartilage using Viscoelastic Collagen Fibers and Validation with Stress Relaxation Data. [Internet] [Masters thesis]. Cal Poly; 2012. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/743 ; 10.15368/theses.2012.65.

Council of Science Editors:

Griebel MA. Viscoelastic Anisotropic Finite Element Mixture Model of Articular Cartilage using Viscoelastic Collagen Fibers and Validation with Stress Relaxation Data. [Masters Thesis]. Cal Poly; 2012. Available from: https://digitalcommons.calpoly.edu/theses/743 ; 10.15368/theses.2012.65


Cal Poly

2. Yamauchi, Kevin Akira. Prediction of Articular Cartilage Remodeling During Dynamic Compression with a Finite Element Model.

Degree: MS, Mechanical Engineering, 2012, Cal Poly

  First, an in vitro growth experiment was performed to test the hypothesis that applying dynamic unconfined compression during culture produces het- erogeneous remodeling in… (more)

Subjects/Keywords: articular cartilage; mechanobiology; finite element analysis; Biomechanical Engineering

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APA (6th Edition):

Yamauchi, K. A. (2012). Prediction of Articular Cartilage Remodeling During Dynamic Compression with a Finite Element Model. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/790 ; 10.15368/theses.2012.107

Chicago Manual of Style (16th Edition):

Yamauchi, Kevin Akira. “Prediction of Articular Cartilage Remodeling During Dynamic Compression with a Finite Element Model.” 2012. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/790 ; 10.15368/theses.2012.107.

MLA Handbook (7th Edition):

Yamauchi, Kevin Akira. “Prediction of Articular Cartilage Remodeling During Dynamic Compression with a Finite Element Model.” 2012. Web. 11 Apr 2021.

Vancouver:

Yamauchi KA. Prediction of Articular Cartilage Remodeling During Dynamic Compression with a Finite Element Model. [Internet] [Masters thesis]. Cal Poly; 2012. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/790 ; 10.15368/theses.2012.107.

Council of Science Editors:

Yamauchi KA. Prediction of Articular Cartilage Remodeling During Dynamic Compression with a Finite Element Model. [Masters Thesis]. Cal Poly; 2012. Available from: https://digitalcommons.calpoly.edu/theses/790 ; 10.15368/theses.2012.107


Cal Poly

3. Stender, Michael. Predicting Articular Cartilage Constituent Material Properties Following In Vitro Growth Using a Proteoglycan-Collagen Mixture Model.

Degree: MS, Mechanical Engineering, 2011, Cal Poly

  <a> </a>     A polyconvex continuum-<a>level</a><a id="x-_anchor_2"></a><a> </a><a id="x-_anchor_3"></a> proteoglycan Cauchy stress function was developed based on the continuum electromechanical Poisson-Boltzmann unit cell model for proteoglycan interactions.… (more)

Subjects/Keywords: Articular Cartilage; Finite Element Modeling; Cartilage growth; Collagen Fiber Modulus.; Biomechanical Engineering; Mechanical Engineering

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APA (6th Edition):

Stender, M. (2011). Predicting Articular Cartilage Constituent Material Properties Following In Vitro Growth Using a Proteoglycan-Collagen Mixture Model. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/463 ; 10.15368/theses.2011.19

Chicago Manual of Style (16th Edition):

Stender, Michael. “Predicting Articular Cartilage Constituent Material Properties Following In Vitro Growth Using a Proteoglycan-Collagen Mixture Model.” 2011. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/463 ; 10.15368/theses.2011.19.

MLA Handbook (7th Edition):

Stender, Michael. “Predicting Articular Cartilage Constituent Material Properties Following In Vitro Growth Using a Proteoglycan-Collagen Mixture Model.” 2011. Web. 11 Apr 2021.

Vancouver:

Stender M. Predicting Articular Cartilage Constituent Material Properties Following In Vitro Growth Using a Proteoglycan-Collagen Mixture Model. [Internet] [Masters thesis]. Cal Poly; 2011. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/463 ; 10.15368/theses.2011.19.

Council of Science Editors:

Stender M. Predicting Articular Cartilage Constituent Material Properties Following In Vitro Growth Using a Proteoglycan-Collagen Mixture Model. [Masters Thesis]. Cal Poly; 2011. Available from: https://digitalcommons.calpoly.edu/theses/463 ; 10.15368/theses.2011.19


Cal Poly

4. Jennings, Dalton James. USE OF BODY COMPOSITION IMAGING TO CALCULATE 3-D INERTIAL PARAMETERS FOR INVERSE DYNAMIC ANALYSIS OF YOUTH PITCHING ARM KINETICS.

Degree: MS, Biomedical and General Engineering, 2020, Cal Poly

  The objectives of this study were to 1) calculate participant-specific segment inertial parameters using dual energy X-ray absorptiometry (DXA) data (referred to as full… (more)

Subjects/Keywords: baseball; DXA; biomechanics; motion analysis; body mass index; Matlab; Biomechanical Engineering

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APA (6th Edition):

Jennings, D. J. (2020). USE OF BODY COMPOSITION IMAGING TO CALCULATE 3-D INERTIAL PARAMETERS FOR INVERSE DYNAMIC ANALYSIS OF YOUTH PITCHING ARM KINETICS. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/2122 ; 10.15368/theses.2020.13

Chicago Manual of Style (16th Edition):

Jennings, Dalton James. “USE OF BODY COMPOSITION IMAGING TO CALCULATE 3-D INERTIAL PARAMETERS FOR INVERSE DYNAMIC ANALYSIS OF YOUTH PITCHING ARM KINETICS.” 2020. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/2122 ; 10.15368/theses.2020.13.

MLA Handbook (7th Edition):

Jennings, Dalton James. “USE OF BODY COMPOSITION IMAGING TO CALCULATE 3-D INERTIAL PARAMETERS FOR INVERSE DYNAMIC ANALYSIS OF YOUTH PITCHING ARM KINETICS.” 2020. Web. 11 Apr 2021.

Vancouver:

Jennings DJ. USE OF BODY COMPOSITION IMAGING TO CALCULATE 3-D INERTIAL PARAMETERS FOR INVERSE DYNAMIC ANALYSIS OF YOUTH PITCHING ARM KINETICS. [Internet] [Masters thesis]. Cal Poly; 2020. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/2122 ; 10.15368/theses.2020.13.

Council of Science Editors:

Jennings DJ. USE OF BODY COMPOSITION IMAGING TO CALCULATE 3-D INERTIAL PARAMETERS FOR INVERSE DYNAMIC ANALYSIS OF YOUTH PITCHING ARM KINETICS. [Masters Thesis]. Cal Poly; 2020. Available from: https://digitalcommons.calpoly.edu/theses/2122 ; 10.15368/theses.2020.13


Cal Poly

5. Czapla, Nicholas. Development and Validation of a Tibiofemoral Joint Finite Element Model and Subsequent Gait Analysis of Intact ACL and ACL Deficient Individuals.

Degree: MS, Mechanical Engineering, 2015, Cal Poly

  Osteoarthritis (OA) is a degenerative condition of articular cartilage that affects more than 25 million people in the US. Joint injuries, like anterior cruciate… (more)

Subjects/Keywords: Osteoarthritis; finite element; gait analysis; articular cartilage; anterior cruciate ligament; human knee joint; Biomechanical Engineering; Biomechanics and Biotransport; Computer-Aided Engineering and Design

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APA (6th Edition):

Czapla, N. (2015). Development and Validation of a Tibiofemoral Joint Finite Element Model and Subsequent Gait Analysis of Intact ACL and ACL Deficient Individuals. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/1488 ; 10.15368/theses.2015.123

Chicago Manual of Style (16th Edition):

Czapla, Nicholas. “Development and Validation of a Tibiofemoral Joint Finite Element Model and Subsequent Gait Analysis of Intact ACL and ACL Deficient Individuals.” 2015. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/1488 ; 10.15368/theses.2015.123.

MLA Handbook (7th Edition):

Czapla, Nicholas. “Development and Validation of a Tibiofemoral Joint Finite Element Model and Subsequent Gait Analysis of Intact ACL and ACL Deficient Individuals.” 2015. Web. 11 Apr 2021.

Vancouver:

Czapla N. Development and Validation of a Tibiofemoral Joint Finite Element Model and Subsequent Gait Analysis of Intact ACL and ACL Deficient Individuals. [Internet] [Masters thesis]. Cal Poly; 2015. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/1488 ; 10.15368/theses.2015.123.

Council of Science Editors:

Czapla N. Development and Validation of a Tibiofemoral Joint Finite Element Model and Subsequent Gait Analysis of Intact ACL and ACL Deficient Individuals. [Masters Thesis]. Cal Poly; 2015. Available from: https://digitalcommons.calpoly.edu/theses/1488 ; 10.15368/theses.2015.123

6. Pyle, Jeffrey D. Development and validation of a human hip joint finite element model for tissue stress and strain predictions during gait.

Degree: MS, Mechanical Engineering, 2013, Cal Poly

  Articular cartilage degeneration, called osteoarthritis, in the hip joint is a serious condition that affects millions of individuals yearly, with limited clinical solutions available… (more)

Subjects/Keywords: finite element model; articular cartilage; hip; gait; exercise; Biomechanical Engineering

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APA (6th Edition):

Pyle, J. D. (2013). Development and validation of a human hip joint finite element model for tissue stress and strain predictions during gait. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/1131 ; 10.15368/theses.2013.211

Chicago Manual of Style (16th Edition):

Pyle, Jeffrey D. “Development and validation of a human hip joint finite element model for tissue stress and strain predictions during gait.” 2013. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/1131 ; 10.15368/theses.2013.211.

MLA Handbook (7th Edition):

Pyle, Jeffrey D. “Development and validation of a human hip joint finite element model for tissue stress and strain predictions during gait.” 2013. Web. 11 Apr 2021.

Vancouver:

Pyle JD. Development and validation of a human hip joint finite element model for tissue stress and strain predictions during gait. [Internet] [Masters thesis]. Cal Poly; 2013. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/1131 ; 10.15368/theses.2013.211.

Council of Science Editors:

Pyle JD. Development and validation of a human hip joint finite element model for tissue stress and strain predictions during gait. [Masters Thesis]. Cal Poly; 2013. Available from: https://digitalcommons.calpoly.edu/theses/1131 ; 10.15368/theses.2013.211

7. Sylvia, Meghan. Development of a Human Tibiofemoral Joint Finite Element Model to Investigate the Effects of Obesity and Knee Malalignment on Joint Contact Pressure.

Degree: MS, Mechanical Engineering, 2015, Cal Poly

  Obesity is a known risk factor for osteoarthritis (OA). Excess body weight generates greater joint contact forces at the knee; however, obese individuals alter… (more)

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APA (6th Edition):

Sylvia, M. (2015). Development of a Human Tibiofemoral Joint Finite Element Model to Investigate the Effects of Obesity and Knee Malalignment on Joint Contact Pressure. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/1420 ; 10.15368/theses.2015.77

Chicago Manual of Style (16th Edition):

Sylvia, Meghan. “Development of a Human Tibiofemoral Joint Finite Element Model to Investigate the Effects of Obesity and Knee Malalignment on Joint Contact Pressure.” 2015. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/1420 ; 10.15368/theses.2015.77.

MLA Handbook (7th Edition):

Sylvia, Meghan. “Development of a Human Tibiofemoral Joint Finite Element Model to Investigate the Effects of Obesity and Knee Malalignment on Joint Contact Pressure.” 2015. Web. 11 Apr 2021.

Vancouver:

Sylvia M. Development of a Human Tibiofemoral Joint Finite Element Model to Investigate the Effects of Obesity and Knee Malalignment on Joint Contact Pressure. [Internet] [Masters thesis]. Cal Poly; 2015. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/1420 ; 10.15368/theses.2015.77.

Council of Science Editors:

Sylvia M. Development of a Human Tibiofemoral Joint Finite Element Model to Investigate the Effects of Obesity and Knee Malalignment on Joint Contact Pressure. [Masters Thesis]. Cal Poly; 2015. Available from: https://digitalcommons.calpoly.edu/theses/1420 ; 10.15368/theses.2015.77

8. Wangerin, Spencer D. Development and validation of a human knee joint finite element model for tissue stress and strain predictions during exercise.

Degree: MS, Mechanical Engineering, 2013, Cal Poly

  Osteoarthritis (OA) is a degenerative condition of cartilage and is the leading cost of disability in the United States. Motion analysis experiments in combination… (more)

Subjects/Keywords: Osteoarthritis; biomechanics; finite element; motion capture; articular cartilage; stance phase of gait; Biomechanical Engineering

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APA (6th Edition):

Wangerin, S. D. (2013). Development and validation of a human knee joint finite element model for tissue stress and strain predictions during exercise. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/1129 ; 10.15368/theses.2013.209

Chicago Manual of Style (16th Edition):

Wangerin, Spencer D. “Development and validation of a human knee joint finite element model for tissue stress and strain predictions during exercise.” 2013. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/1129 ; 10.15368/theses.2013.209.

MLA Handbook (7th Edition):

Wangerin, Spencer D. “Development and validation of a human knee joint finite element model for tissue stress and strain predictions during exercise.” 2013. Web. 11 Apr 2021.

Vancouver:

Wangerin SD. Development and validation of a human knee joint finite element model for tissue stress and strain predictions during exercise. [Internet] [Masters thesis]. Cal Poly; 2013. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/1129 ; 10.15368/theses.2013.209.

Council of Science Editors:

Wangerin SD. Development and validation of a human knee joint finite element model for tissue stress and strain predictions during exercise. [Masters Thesis]. Cal Poly; 2013. Available from: https://digitalcommons.calpoly.edu/theses/1129 ; 10.15368/theses.2013.209

9. Skaro, Jordan M. Knee Angles and Axes Crosstalk Correction In Gait, Cycling, and Elliptical Training Exercises.

Degree: MS, Mechanical Engineering, 2018, Cal Poly

  When conducting motion analysis using 3-dimensional motion capture technology, errors in marker placement on the knee results in a widely observed phenomenon known as… (more)

Subjects/Keywords: PCA; crosstalk; biomechanics; knee angles; knee axes; gait; Biomechanical Engineering

…complications. Each participant visited the Cal Poly HMB Lab where the study was explained in detail… 

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APA (6th Edition):

Skaro, J. M. (2018). Knee Angles and Axes Crosstalk Correction In Gait, Cycling, and Elliptical Training Exercises. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/1922 ; 10.15368/theses.2018.20

Chicago Manual of Style (16th Edition):

Skaro, Jordan M. “Knee Angles and Axes Crosstalk Correction In Gait, Cycling, and Elliptical Training Exercises.” 2018. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/1922 ; 10.15368/theses.2018.20.

MLA Handbook (7th Edition):

Skaro, Jordan M. “Knee Angles and Axes Crosstalk Correction In Gait, Cycling, and Elliptical Training Exercises.” 2018. Web. 11 Apr 2021.

Vancouver:

Skaro JM. Knee Angles and Axes Crosstalk Correction In Gait, Cycling, and Elliptical Training Exercises. [Internet] [Masters thesis]. Cal Poly; 2018. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/1922 ; 10.15368/theses.2018.20.

Council of Science Editors:

Skaro JM. Knee Angles and Axes Crosstalk Correction In Gait, Cycling, and Elliptical Training Exercises. [Masters Thesis]. Cal Poly; 2018. Available from: https://digitalcommons.calpoly.edu/theses/1922 ; 10.15368/theses.2018.20

10. Pottinger, Megan V. Inverse Dynamic Analysis of ACL Reconstructed Knee Joint Biomechanics During Gait and Cycling Using OpenSim.

Degree: MS, Biomedical and General Engineering, 2018, Cal Poly

  ACL (anterior cruciate ligament) injuries of the knee joint alter biomechanics and may cause abnormal loading conditions that place patients at a higher risk… (more)

Subjects/Keywords: ACL; knee; biomechanics; gait; cycling; Biomechanics and Biotransport

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APA (6th Edition):

Pottinger, M. V. (2018). Inverse Dynamic Analysis of ACL Reconstructed Knee Joint Biomechanics During Gait and Cycling Using OpenSim. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/1988 ; 10.15368/theses.2019.24

Chicago Manual of Style (16th Edition):

Pottinger, Megan V. “Inverse Dynamic Analysis of ACL Reconstructed Knee Joint Biomechanics During Gait and Cycling Using OpenSim.” 2018. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/1988 ; 10.15368/theses.2019.24.

MLA Handbook (7th Edition):

Pottinger, Megan V. “Inverse Dynamic Analysis of ACL Reconstructed Knee Joint Biomechanics During Gait and Cycling Using OpenSim.” 2018. Web. 11 Apr 2021.

Vancouver:

Pottinger MV. Inverse Dynamic Analysis of ACL Reconstructed Knee Joint Biomechanics During Gait and Cycling Using OpenSim. [Internet] [Masters thesis]. Cal Poly; 2018. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/1988 ; 10.15368/theses.2019.24.

Council of Science Editors:

Pottinger MV. Inverse Dynamic Analysis of ACL Reconstructed Knee Joint Biomechanics During Gait and Cycling Using OpenSim. [Masters Thesis]. Cal Poly; 2018. Available from: https://digitalcommons.calpoly.edu/theses/1988 ; 10.15368/theses.2019.24


Cal Poly

11. Hendrickson, Kevin Neil. NANO-MECHANICS OF CARTILAGE GLYCOSAMINOGLYCANS USING MOLECULAR DYNAMICS METHODS.

Degree: MS, Mechanical Engineering, 2009, Cal Poly

 Articular Cartilage (AC) is the main load carrying material in synovial joints {Hamerman, 1962} and degeneration of AC can cause pain in the form of… (more)

Subjects/Keywords: cartilage; glycosaminoglycan; molecular dynamics; Molecular, Cellular, and Tissue Engineering

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APA (6th Edition):

Hendrickson, K. N. (2009). NANO-MECHANICS OF CARTILAGE GLYCOSAMINOGLYCANS USING MOLECULAR DYNAMICS METHODS. (Masters Thesis). Cal Poly. Retrieved from https://digitalcommons.calpoly.edu/theses/31 ; 10.15368/theses.2009.2

Chicago Manual of Style (16th Edition):

Hendrickson, Kevin Neil. “NANO-MECHANICS OF CARTILAGE GLYCOSAMINOGLYCANS USING MOLECULAR DYNAMICS METHODS.” 2009. Masters Thesis, Cal Poly. Accessed April 11, 2021. https://digitalcommons.calpoly.edu/theses/31 ; 10.15368/theses.2009.2.

MLA Handbook (7th Edition):

Hendrickson, Kevin Neil. “NANO-MECHANICS OF CARTILAGE GLYCOSAMINOGLYCANS USING MOLECULAR DYNAMICS METHODS.” 2009. Web. 11 Apr 2021.

Vancouver:

Hendrickson KN. NANO-MECHANICS OF CARTILAGE GLYCOSAMINOGLYCANS USING MOLECULAR DYNAMICS METHODS. [Internet] [Masters thesis]. Cal Poly; 2009. [cited 2021 Apr 11]. Available from: https://digitalcommons.calpoly.edu/theses/31 ; 10.15368/theses.2009.2.

Council of Science Editors:

Hendrickson KN. NANO-MECHANICS OF CARTILAGE GLYCOSAMINOGLYCANS USING MOLECULAR DYNAMICS METHODS. [Masters Thesis]. Cal Poly; 2009. Available from: https://digitalcommons.calpoly.edu/theses/31 ; 10.15368/theses.2009.2

.