Heel–shoe interactions and the durability of EVA foam running-shoe midsoles

Heel–shoe interactions and the durability of EVA foam running-shoe midsoles

A finite element analysis (FEA) was made of the stress distribution in the heelpad and a running shoe midsole, using heelpad properties deduced from published force-deflection data, and measured foam properties. The heelpad has a lower initial shear modulus than the foam (100 vs. 1050 kPa), but a hi...

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Veröffentlicht in:Journal of biomechanics 2004-09, Vol.37 (9), p.1379-1386
Hauptverfasser: Verdejo, R, Mills, N.J
Format: Artikel
Sprache:eng
Schlagworte:
Adult
Athletic shoes
Computer Simulation
Dimensional analysis
Equipment Failure Analysis - methods
Experiments
Fatigue
FEA
Fitness equipment
Foam
Heel - physiology
Heelpad
Humans
Impact tests
Injuries
Materials Testing - methods
Middle Aged
Models, Biological
Plantar pressure distribution
Polyvinyls - analysis
Polyvinyls - chemistry
Pressure distribution
Running
Running - physiology
Shoes
Sports Equipment
Studies
Weight-Bearing - physiology
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Beschreibung
Zusammenfassung:A finite element analysis (FEA) was made of the stress distribution in the heelpad and a running shoe midsole, using heelpad properties deduced from published force-deflection data, and measured foam properties. The heelpad has a lower initial shear modulus than the foam (100 vs. 1050 kPa), but a higher bulk modulus. The heelpad is more non-linear, with a higher Ogden strain energy function exponent than the foam (30 vs. 4). Measurements of plantar pressure distribution in running shoes confirmed the FEA. The peak plantar pressure increased on average by 100% after 500 km run. Scanning electron microscopy shows that structural damage (wrinkling of faces and some holes) occurred in the foam after 750 km run. Fatigue of the foam reduces heelstrike cushioning, and is a possible cause of running injuries.
ISSN:0021-9290
1873-2380
DOI:10.1016/j.jbiomech.2003.12.022