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Thermomechanical analysis through a pseudolinear equivalent constant stiffness system

Adak, M / Mandal, N R

A non-uniform heating and cooling cycle caused by a welding or line heating operation leads to deformation. To ascertain the extent of deformation calls for solving a complex thermal elastoplastic problem. In this investigation the concept of a pseudolinear constant stiffness system has been effectively implemented to solve this non-linear problem. The concept has been tested by solving a case of angular deformation of a beam model caused by bead-on-plate welding. The theoretical results compared well with those of the experimental ones.

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Thermomechanical analysis through a pseudolinear equivalent constant stiffness system

Adak, M / Mandal, N R

A non-uniform heating and cooling cycle caused by a welding or line heating operation leads to deformation. To ascertain the extent of deformation calls for solving a complex thermal elastoplastic problem. In this investigation the concept of a pseudolinear constant stiffness system has been effectively implemented to solve this non-linear problem. The concept has been tested by solving a case of angular deformation of a beam model caused by bead-on-plate welding. The theoretical results compared well with those of the experimental ones.

Thermomechanical analysis through a pseudolinear equivalent constant stiffness system

Adak, M / Mandal, N R

A non-uniform heating and cooling cycle caused by a welding or line heating operation leads to deformation. To ascertain the extent of deformation calls for solving a complex thermal elastoplastic problem. In this investigation the concept of a pseudolinear constant stiffness system has been effectively implemented to solve this non-linear problem. The concept has been tested by solving a case of angular deformation of a beam model caused by bead-on-plate welding. The theoretical results compared well with those of the experimental ones.

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Title:

Thermomechanical analysis through a pseudolinear equivalent constant stiffness system

Contributors:

Adak, M (author) / Mandal, N R (author)

Published in:

Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment ; 217 ; 1-9

Publication date:

2003-03-01

Size:

9 pages

ISSN:

2041-3084 , 1475-0902

DOI:

https://doi.org/10.1243/147509003321623103

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

line heating , thermal deformation , heat conduction , reduced modulus , constant stiffness , thermal stress

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