Add to ORKGThe accurate analytical determination of the response of radioactive material transportation packages to the hypothetical puncture accident requires inelastic analysis techniques. Use of this improved analysis method recudes the reliance on empirical and approximate methods to determine the safety for puncture accidents. This paper will discuss how inelastic analysis techniques can be used to determine the stresses, strains and deformations resulting from puncture accidents for thin skin materials with different backing materials. A method will be discussed to assure safety for all of these types of packages
The project focuses on the stress analysis of a car frontal protection system (bumper) simulations. ...
The mechanical test procedures that address fuel cladding failure during a RIA are reviewed with an ...
The mechanical test procedures that address fuel cladding failure during a RIA are reviewed with an ...
Type B radioactive material packages are required to withstand a hypothetical puncture accident of a...
The response of radioactive material transportation packages to mechanical accident loadings can be ...
The increased power of computers and computer codes makes the use of nonlinear dynamic finite elemen...
One important part of radioactive material transport risk assessments is amount of release from pack...
In the evaluation of the safety of radioactive material transportation it is important to consider t...
A numerical technique has been developed to simulate the structural responses of radioactive materia...
Inelastic Analysis of Solids and Structures presents in a unified manner the physical and theoretica...
This paper presents a finite-element technique to simulate the structural responses and to evaluate ...
To ensure structural integrity during normal conditions of transport (NCT), Federal regulations in 1...
Cover plates are used in current designs for high temperature gas-cooled reactors to compress the mi...
This book summarizes the main methods of experimental stress analysis and examines their application...
This book summarizes the main methods of experimental stress analysis and examines their application...
The project focuses on the stress analysis of a car frontal protection system (bumper) simulations. ...
The mechanical test procedures that address fuel cladding failure during a RIA are reviewed with an ...
The mechanical test procedures that address fuel cladding failure during a RIA are reviewed with an ...
Type B radioactive material packages are required to withstand a hypothetical puncture accident of a...
The response of radioactive material transportation packages to mechanical accident loadings can be ...
The increased power of computers and computer codes makes the use of nonlinear dynamic finite elemen...
One important part of radioactive material transport risk assessments is amount of release from pack...
In the evaluation of the safety of radioactive material transportation it is important to consider t...
A numerical technique has been developed to simulate the structural responses of radioactive materia...
Inelastic Analysis of Solids and Structures presents in a unified manner the physical and theoretica...
This paper presents a finite-element technique to simulate the structural responses and to evaluate ...
To ensure structural integrity during normal conditions of transport (NCT), Federal regulations in 1...
Cover plates are used in current designs for high temperature gas-cooled reactors to compress the mi...
This book summarizes the main methods of experimental stress analysis and examines their application...
This book summarizes the main methods of experimental stress analysis and examines their application...
The project focuses on the stress analysis of a car frontal protection system (bumper) simulations. ...
The mechanical test procedures that address fuel cladding failure during a RIA are reviewed with an ...
The mechanical test procedures that address fuel cladding failure during a RIA are reviewed with an ...