Add to ORKGThis paper deals with the computation of shakedown loads of engineering structures subjected to varying loads. In particular, we focus on thermal loading and the resulting heat conduction problem in combination with shakedown analysis. The analysis is based on the lower bound shakedown theorem by Melan. The calculation is carried out by use of an interior-point algorithm. Emphasis is placed on the presentation of theoretical derivations, whereas numerical aspects are out of scope. The methodology is illustrated by application to a simplified model of a tube sheet in heat exchangers
ABSTRACT Based upon the kinematic theorem of Koiter, the Linear Matching Method (LMM) procedure has ...
There exist two basic formulations of static shakedown theorem for bounded kinematic hardening (KH) ...
This paper presents the shakedown analysis of welded pipes subjected to a constant internal pressure...
The non-cyclic method of shakedown analysis allows the entire ratchet boundary to be determined for ...
A procedure for shakedown analysis in the presence of temperature-dependent elastic properties is pr...
AbstractIn this work, the shakedown of structures made of materials with temperature-dependent yield...
The work presented is concerned with the implementation and exploitation of an iterative non-linear ...
Based upon the kinematic theorem of Koiter, the Linear Matching Method (LMM) procedure has been prov...
This thesis is concerned with the behaviour of structures subjected to cyclic or repeated thermal lo...
Abstract: The circular tubes containing external pit defects are analyzed in a lower-bound finite el...
A lower bound method for calculating shakedown loads under proportional loading by static non-linear...
According to the extended Melan's static theorem, theoretical and numerical aspects of the stress co...
A review of Shakedown and Ratchetting concepts and their extensions is presented in an attempt to re...
[Abstract]: In his 'Contact Mechanics' book, Professor K. L. Johnson described an analytical lower b...
The determination of shakedown load or shakedown domain is an important task in structural design an...
ABSTRACT Based upon the kinematic theorem of Koiter, the Linear Matching Method (LMM) procedure has ...
There exist two basic formulations of static shakedown theorem for bounded kinematic hardening (KH) ...
This paper presents the shakedown analysis of welded pipes subjected to a constant internal pressure...
The non-cyclic method of shakedown analysis allows the entire ratchet boundary to be determined for ...
A procedure for shakedown analysis in the presence of temperature-dependent elastic properties is pr...
AbstractIn this work, the shakedown of structures made of materials with temperature-dependent yield...
The work presented is concerned with the implementation and exploitation of an iterative non-linear ...
Based upon the kinematic theorem of Koiter, the Linear Matching Method (LMM) procedure has been prov...
This thesis is concerned with the behaviour of structures subjected to cyclic or repeated thermal lo...
Abstract: The circular tubes containing external pit defects are analyzed in a lower-bound finite el...
A lower bound method for calculating shakedown loads under proportional loading by static non-linear...
According to the extended Melan's static theorem, theoretical and numerical aspects of the stress co...
A review of Shakedown and Ratchetting concepts and their extensions is presented in an attempt to re...
[Abstract]: In his 'Contact Mechanics' book, Professor K. L. Johnson described an analytical lower b...
The determination of shakedown load or shakedown domain is an important task in structural design an...
ABSTRACT Based upon the kinematic theorem of Koiter, the Linear Matching Method (LMM) procedure has ...
There exist two basic formulations of static shakedown theorem for bounded kinematic hardening (KH) ...
This paper presents the shakedown analysis of welded pipes subjected to a constant internal pressure...