TY - JOUR
T1 - A new unified explicit architecture of thermal/structural dynamic algorithms
T2 - Applications to coupled thermoelasticity
AU - Tamma, Kumar K.
AU - Namburu, Raju R.
PY - 1990
Y1 - 1990
N2 - The philosophy and rationale of the present research encompasses interdisciplinary engineering modeling/analysis via 'the use of a common numerical methodology employing a common algorithmic architecture for applicability to a common mainframe (computer) environment'. In particular, a new unified architecture of thermal/structural dynamic algorithms is presented. Finite elements are employed as the modeling/analysis tool, and the applicability of the proposed unified architecture is demonstrated for coupled thermoelasticity. The formulations, however, are geared towards providing a generalized methodology for transient interdisciplinary thermal/structural models to include several added inherent advantages. To sharpen the focus of the present study, an explicit unified architecture is presented to validate the applicability to interdisciplinary coupled thermoelastic models. The proposed unified architecture preserves second-order accuracy and possesses attractive computational features.
AB - The philosophy and rationale of the present research encompasses interdisciplinary engineering modeling/analysis via 'the use of a common numerical methodology employing a common algorithmic architecture for applicability to a common mainframe (computer) environment'. In particular, a new unified architecture of thermal/structural dynamic algorithms is presented. Finite elements are employed as the modeling/analysis tool, and the applicability of the proposed unified architecture is demonstrated for coupled thermoelasticity. The formulations, however, are geared towards providing a generalized methodology for transient interdisciplinary thermal/structural models to include several added inherent advantages. To sharpen the focus of the present study, an explicit unified architecture is presented to validate the applicability to interdisciplinary coupled thermoelastic models. The proposed unified architecture preserves second-order accuracy and possesses attractive computational features.
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U2 - 10.1016/0045-7949(90)90042-Z
DO - 10.1016/0045-7949(90)90042-Z
M3 - Article
AN - SCOPUS:0025591989
SN - 0045-7949
VL - 37
SP - 535
EP - 545
JO - Computers and Structures
JF - Computers and Structures
IS - 4
ER -