A micromechanics-based method for multiscale fatigue prediction
JA Moore - 2015 - search.proquest.com
2015•search.proquest.com
An estimated 80% of all structural failures are due to mechanical fatigue, often resulting in
catastrophic, dangerous and costly failure events. However, an accurate model to predict
fatigue remains an elusive goal. One of the major challenges is that fatigue is intrinsically a
multiscale process, which is dependent on a structure's geometric design as well as its
material's microscale morphology.
catastrophic, dangerous and costly failure events. However, an accurate model to predict
fatigue remains an elusive goal. One of the major challenges is that fatigue is intrinsically a
multiscale process, which is dependent on a structure's geometric design as well as its
material's microscale morphology.
Abstract
An estimated 80% of all structural failures are due to mechanical fatigue, often resulting in catastrophic, dangerous and costly failure events. However, an accurate model to predict fatigue remains an elusive goal. One of the major challenges is that fatigue is intrinsically a multiscale process, which is dependent on a structure's geometric design as well as its material's microscale morphology.
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