Thermal aging of traditional and additively manufactured foams: analysis by time-temperature-superposition, constitutive, and finite-element models | Zendy

Amitesh Maiti | Zendy; Todd H. Weisgraber | Zendy; Ward Small | Zendy; James P. Lewicki | Zendy; Eric B. Duoss | Zendy; Christopher M. Spadaccini | Zendy; Mark Pearson | Zendy; Sarah C. Chinn | Zendy; Thomas S. Wilson | Zendy; Robert S. Maxwell | Zendy

Open Access

Thermal aging of traditional and additively manufactured foams: analysis by time-temperature-superposition, constitutive, and finite-element models

Author(s) -

Amitesh Maiti,

Todd H. Weisgraber,

Ward Small,

James P. Lewicki,

Eric B. Duoss,

Christopher M. Spadaccini,

Mark Pearson,

Sarah C. Chinn,

Thomas S. Wilson,

Robert S. Maxwell

Publication year - 2016

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/1342055

Subject(s) - superposition principle , materials science , finite element method , stress (linguistics) , composite material , compression (physics) , microstructure , automotive industry , constitutive equation , accelerated life testing , material properties , temperature cycling , shock (circulatory) , thermal , mechanical engineering , structural engineering , engineering , psychology , developmental psychology , linguistics , philosophy , physics , maturity (psychological) , quantum mechanics , aerospace engineering , medicine , meteorology

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