Submitted by Abhishek Saini on Fri, 10/23/2015 - 07:07 What is the difference between pure shea and uniaxial tension? How can we predict it experimentally? Forums Ask iMechanica research Chao Chen In pure shear state, the In pure shear state, the deformation in one direcition perpendicular to loading direction is constrained as stain=0. While in unixaixla tension, no constrain is imposed as you apply a stress in one direction. Log in or register to post comments Fri, 10/23/2015 - 17:09 Permalink Abhishek Saini In reply to In pure shear state, the by Chao Chen Thanks for the reply Thanks for the reply How can we prove this experimentally and analytically. Is there any word like pure tension also? Log in or register to post comments Sun, 10/25/2015 - 09:50 Permalink Abhishek Saini In pure shear state, the How can we prove this experimentally and analytically. Is there any word like pure tension also? Log in or register to post comments Sun, 10/25/2015 - 09:57 Permalink Log in or register to post comments6807 views
Chao Chen In pure shear state, the In pure shear state, the deformation in one direcition perpendicular to loading direction is constrained as stain=0. While in unixaixla tension, no constrain is imposed as you apply a stress in one direction. Log in or register to post comments Fri, 10/23/2015 - 17:09 Permalink
Abhishek Saini In reply to In pure shear state, the by Chao Chen Thanks for the reply Thanks for the reply How can we prove this experimentally and analytically. Is there any word like pure tension also? Log in or register to post comments Sun, 10/25/2015 - 09:50 Permalink
Abhishek Saini In pure shear state, the How can we prove this experimentally and analytically. Is there any word like pure tension also? Log in or register to post comments Sun, 10/25/2015 - 09:57 Permalink
In pure shear state, the
In pure shear state, the deformation in one direcition perpendicular to loading direction is constrained as stain=0. While in unixaixla tension, no constrain is imposed as you apply a stress in one direction.
In reply to In pure shear state, the by Chao Chen
Thanks for the reply
Thanks for the reply
How can we prove this experimentally and analytically. Is there any word like pure tension also?
In pure shear state, the
How can we prove this experimentally and analytically. Is there any word like pure tension also?