Toma Marinov

Toma Marinov, “Computational Neuroscience: Simulation of Micro-Tissue Engineered Neural Networks.” (2016 – 2018) Linkedin

Vikram Subramani

Vikram Subramani, “Modeling of Spinal Biomechanics in Extreme Conditions.” (November 2016- 2020)

Chanyoung Lee

Chanyoung Lee, “A Computational Analysis of Bone Formation in the Cranial Vault using a Reaction-Diffusion-Strain Model.” (2013 –2018)

Harsha Garimella

Harsha Garimella, “An Embedded Element Based Human Head Model to Investigate Axonal Injury.” (2013 – 2017) Linkedin

Joseph Lovett

Joseph Lovett, “Energy based body armor design.” (2021 – 2022)

Ian Norris

Ian Norris, “Computational Modeling of Spinal Degeneration in F35 pilots.” (2020 – 2022) Linkedin

Jesse Gerber

Jesse Gerber, “Development of a History-Dependent Damage Model for the Brain due to Repetitive Impacts.” (2016 –2018) Linkedin

Anjali Dhobale

Anjali Dhobale, “Assessing Functional Connectivity of Micro-Tissue Engineered Neural Networks using Calcium Fluorescence Imaging.” (2016 – 2017)

Liang Yuchi

Liang Yuchi, “A Computational Model of Bidirectional Growth for Micro-Tissue Engineered Neuronal Networks (micro-TENNs).” (2016 – 2017)

Ziwen Fang

Ziwen Fang, “Material Point Method (MPM) Methods for Modeling Trabecular Bone.” (2016 – 2017)

Shruti Motiwale

Shruti Motiwale, “Modeling Intervertebral Disc Degeneration due to Cyclic Loading.” (2015 – 2016) Linkedin

Allison Ranslow

Allison Ranslow, “Microstructural Analysis of Porcine Skull Bone Subjected to Impact Loading.” (2014 – 2016)

Rebecca Fielding

Rebecca Fielding, “Development of a lower extremity model for high strain rate impact loading.” (2013 – 2015) Linkedin

Jackson Mackay

Jackson Mackay, “Brain Impact Analysis from Overpressure Sources through Machine Learning Based on Explosion Simulations and Wearable Blast Gauges.” (2021-2022)

Bennett Brown

Bennett Brown, “Advanced Visualization Techniques for Brain Modeling.” (2021-2022)

Ouniol Aklilu

Ouniol Aklilu, “Experimental and Computational Investigation of Correlates of Diffusion Tensor Imaging Changes and Mechanical Strain.” (2018-2021) Linkedin

Lauren Katch

Lauren Katch, “Reverse Source Localization for Identification of Overpressure Sources Based on Wearable Blast Gauges.” (2019-2020)

Patricia De Tomas-Medina

Patricia De Tomas-Medina, “Modeling the Response of Neurons Subjected to High Rate Deformation: Comparing Simulations to Experimental Results.” (2015 –2018)

Patrick Casey

Patrick Casey, “Mechanical Design of Hip Implant Tools.” (2017 –2018)

Marisa Borusiewicz

Marisa Borusiewicz, “Quantifying the Structure of Micro-Tissue Engineered Neural Networks.” (2016 – 2017) Linkedin

Christopher Kozuch

Christopher Kozuch, “Modeling Dynamic Fracture in Bones.” (2013 – 2016) Linkedin

Kush Sodha

Kush Sodha, “Estimating Dynamic Properties for Biological Materials: Design, Development, and Calibration of a Desktop Miniaturized Double-Lap Shear Kolsky Bar.” (2014 – 2016)

Michael Robinson

Michael Robinson, “The Development of an Anatomically Correct Model of Calcaneus Fracture and Fragmentation Due to Impact Loading.” (September – 2015) Linkedin

Louis Caponi, Toshiba Westinghouse Summer Fellowship Program. (2018)

Louis Caponi, Toshiba Westinghouse Summer Fellowship Program. (2018)

Brady McDonough (2015 – 2016)

Brady McDonough (2015 – 2016)

Brad Catherman (2014 – 2015)

Brad Catherman (2014 – 2015)

Crystal Ho (2015)

Crystal Ho (2015)

Ryan Shannon (2014 – 2015)

Ryan Shannon (2014 – 2015)

Yuanhui Zhang (2014)

Yuanhui Zhang (2014)

Daniel de Oliveira Pereira (2014)

Daniel de Oliveira Pereira (2014)

Patrick Lukens (2014)

Patrick Lukens (2014)

Mary McGoldrick (2013 – 2014)

Hannah Putnam (2013 – 2014)

Hannah Putnam (2013 – 2014)

Emma Roudabush (2013 – 2014)

Emma Roudabush (2013 – 2014)

Hao Yuan (2013 – 2014)

Hao Yuan (2013 – 2014)

Towards verification and validation of modeling Dyneema

Martin, V., Hannah, T., Ellis, S. & Kraft, R. H. (2022). Towards verification and validation of modeling Dyneema using the embedded finite element method. (IMECE2022-96784). Proceedings of the 2022 American Society of Mechanical Engineers Congress and Exposition. Accepted August 2022.

Impact of Imperfect Kolsky Bar Experiments

Hannah, T. Kraft, R. H., Martin, V., & Ellis, S. (2022). Impact of Imperfect Kolsky Bar Experiments Across Different Scales using Finite Elements. (IMECE2022-96816). Proceedings of the 2022 American Society of Mechanical Engineers Congress and Exposition. Accepted August 2022.

Implications of statistical spread to experimental analysis

Hannah, T. Kraft, R. H., Martin, V., & Ellis, S. (2021). Implications of statistical spread to experimental analysis in a novel miniature Kolsky bar. (IMECE2020-23976). Proceedings of the 2020 American Society of Mechanical Engineers Congress and Exposition. DOI: https://doi.org/10.1115/IMECE2020-23976
https://doi.org/10.1115/IMECE2020-23976

Ouniol Aklilu

Use of Brain Biomechanical Models

Ji, S., Ghajari, M., Mao, H., Kraft, R. H., Hajiaghamemar, M., Panzer, M. B., Willinger, R., Gilchrist, M. D., Kleiven, S., & Stitzel, J. D. (2022). Use of Brain Biomechanical Models for Monitoring Impact Exposure in Contact Sports. Annals of Biomedical Engineering. DOI: 10.1007/s10439-022-02999-w

An Energy-based Study of the Embedded Element Method

Martin, V., Kraft, R. H., Hannah, T., & Ellis, S. (2022). An Energy-based Study of the Embedded Element Method for Explicit Dynamics. Advanced Modeling and Simulation in Engineering Sciences. DOI : Link

Development of optically controlled

Adewole, D. O., Struzyna, L. A., Harris, J. P., Nemes, A. D., Burrell, J. C., Petrov, D., Kraft, R. H., Chen, I., Serruya, M. D., Wolf, J. A., & Cullen, K. (2021). Development of optically controlled “living electrodes” with long-projecting axon tracts for a synaptic brain-machine interface. Science Advances, 7(4). DOI: 10.1126/sciadv.aay5347

computational model of bidirectional axonal growth

Marinov, T., Yuchi, L., Adewole, D. O., Cullen, D. Kacy, & Kraft, R. H. (2020). A computational model of bidirectional axonal growth in micro-tissue engineered neuronal networks (micro-TENNs). In Silico Biology, 13(3-4), pp. 85-99. DOI: 10.3233/ISB-180172

Fatigue damage prediction in the annulus of cervical spine intervertebral discs

Subramani, A. V., Whitley, P., Garimella, H. T., & Kraft, R. H. (2020). Fatigue damage prediction in the annulus of cervical spine intervertebral discs using finite element analysis. Computer Methods in Biomechanics and Biomedical Engineering, 23(11), 773-784. DOI: 10.1080/10255842.2020.1764545

Computational model of a synovial joint morphogenesis

Carrera-Pinzón, A. F., Márquez-Flórez, K., Kraft, R. H., Ramtani, S., & Garzón-Alvarado, D. A. (2019). Computational model of a synovial joint morphogenesis. Biomechanics and Modeling in Mechanobiology, 1–14

Exploring Mechanisms of Cranial Vault Development

Kraft, R. H., Lee, C., Richtsmeier, J. T., & Dolack, M. E. (2019). Exploring Mechanisms of Cranial Vault Development using a Coupled Turing-Biomechanical Model. The FASEB Journal, 33, 326.2-326.2.

2019 RD-Strain model predicts cranial vault formation in development and disease

Lee, C., Richtsmeier, J. T., & Kraft, R. H. (2019) A coupled RD-Strain model predicts cranial vault formation in development and disease. Biomechanics and Modeling in Mechanobiology.

Biomechanics of blast TBI with time resolved

Przekwas, A. J., Tan, X. Gary, Chen, Z. J., Miao, Y., Harrand, V., Garimella, H. T., Kraft, R. H., & Gupta, R. K. (2019). Biomechanics of blast TBI with time resolved consecutive primary, secondary and tertiary loads. Military Medicine.