Some metal sheet forming processes may induce an amount of plastic shear over the sheet thickness. This paper investigates how formability of anisotropic sheet metal is affected by such through-thickness shear (TTS). The Marciniak-Kuczynski (MK) model framework, a commonly used analytical tool to predict the limit of sheet formability due to the onset of localized necking, is extended in this paper in order to explicitly account for TTS in anisotropic metal sheets. It is a continuation of previous work by the present authors (Eyckens et al., 2009), in which TTS is incorporated for isotropic sheet. This is achieved by the introduction of additional force equilibrium and geometric compatibility equations that govern the connection between mat...
This paper presents experimental measurements of the Through-Thickness Shear (TTS), (also known as o...
AbstractIn the common industrial thin sheet metal forming process at room temperature, in which in-h...
The present paper aims at a detailed analysis of sheet metal formability using the physically-based ...
The Marciniak-Kuczynski (MK) forming limit model is extended in order to predict localized necking i...
Two types of anisotropy have been introduced in the Marciniak model for the prediction of forming li...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
AbstractIt is well known that both damage and plastic anisotropy strongly affect the ductility limit...
The forming limit in the single Point Incremental Forming (SPIF) process of metal sheets is larger t...
Models for predicting the formability of sheet metals which take into account a single mode of strai...
Sheet metal formability is conventionally assessed in a two dimensional plot of principal strains or...
This paper reviews the most recent models for description of the anisotropic plastic behavior and fo...
Strain-path changes strongly influence the forming limit:strains of sheet metals. The value of the l...
The objective of the present paper is to analyse the performance of Marciniak-Kuczinsky (MK) theory ...
Sheet metal formability is conventionally assessed in a two-dimensional plot of principal strains or...
It is well known that both damage and plastic anisotropy strongly affect the ductility limit of thin...
This paper presents experimental measurements of the Through-Thickness Shear (TTS), (also known as o...
AbstractIn the common industrial thin sheet metal forming process at room temperature, in which in-h...
The present paper aims at a detailed analysis of sheet metal formability using the physically-based ...
The Marciniak-Kuczynski (MK) forming limit model is extended in order to predict localized necking i...
Two types of anisotropy have been introduced in the Marciniak model for the prediction of forming li...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
AbstractIt is well known that both damage and plastic anisotropy strongly affect the ductility limit...
The forming limit in the single Point Incremental Forming (SPIF) process of metal sheets is larger t...
Models for predicting the formability of sheet metals which take into account a single mode of strai...
Sheet metal formability is conventionally assessed in a two dimensional plot of principal strains or...
This paper reviews the most recent models for description of the anisotropic plastic behavior and fo...
Strain-path changes strongly influence the forming limit:strains of sheet metals. The value of the l...
The objective of the present paper is to analyse the performance of Marciniak-Kuczinsky (MK) theory ...
Sheet metal formability is conventionally assessed in a two-dimensional plot of principal strains or...
It is well known that both damage and plastic anisotropy strongly affect the ductility limit of thin...
This paper presents experimental measurements of the Through-Thickness Shear (TTS), (also known as o...
AbstractIn the common industrial thin sheet metal forming process at room temperature, in which in-h...
The present paper aims at a detailed analysis of sheet metal formability using the physically-based ...