Development of a finite element human thorax model for impact injury studies

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Deng, Yih-Charng¹; Kong, Wayne²; Ho, Henjen²

Development of a finite element human thorax model for impact injury studies

Proceedings of the SAE International Congress & Exposition

©1999 Society of Automotive Engineers, Inc.

Affiliations

¹GM Engineering Center

²GM R&D Center
Abstract

A finite element human thorax model was developed for predicting thoracic injury and studying the injury mechanisms under impact. Digital surface images of a human skeleton and internal organs were used to construct the three-dimensional finite element representation of the rib cage, the heart, the lungs, and the major blood vessels. The mechanical properties of the biological tissues in this model were based on test data found in the literature. The constitutive equations proposed in the literature for describing the mechanical behavior of the heart and the lungs were implemented in the code for modeling these organs. The model was validated against cadaver responses for both frontal and lateral impact. Good correlation between the model and the cadaver responses were achieved for the force and deflection time-histories.
Links

DOI: 10.4271/1999-01-0715

SAE: 1999-01-0715

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Cited By (27)

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2013	Cai Z, Lan F, Chen J, Zhao F. Development and validation of a finite element model of the human thoracic for rib fractures prediction in automobile collisions. In: Proceedings of the FISITA 2012 World Automotive Congress. Vol 9. Berlin: Springer-Verlag; 2013:375-388. Lecture Notes in Electrical Engineering; vol 197.
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2016	Kermani G, Assari S, Hemmasizadeh A, Darvish K. Characterizing the inhomogeneity of aorta mechanical properties and its effect on the prediction of injury. In: Proceedings of the 12th Ohio State University Injury Biomechanics Symposium. June 5-7, 2016; Columbus, OH.
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2015	Schoell SL, Weaver AA, Vavalle NA, Stitzel JD. Age- and sex-specific thorax finite element model development and simulation. Traffic Inj Prev. June 1, 2015;16(suppl 1):S57-S65.
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2010	Hallman JJ. Detrimental Thoracoabdominal Interaction With Lateral Airbag Restraints [PhD thesis]. Marquette University; December 2010.
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2018	Gierczycka D. Investigation of Thorax Response and Potential for Injury in Side Impacts Using Integrated Detailed Human and Vehicle Finite-Element Models [PhD thesis]. Waterloo, ON: University of Waterloo; 2018.
2002	Lee JB. Development of a Finite Element Model of the Human Abdomen [PhD thesis]. Detroit, MI: Wayne State University; 2002.