compression

Poroelasticity of a covalently crosslinked alginate hydrogel under compression

Submitted by Cai Shengqiang on Thu, 10/21/2010 - 15:00

This paper studies the poroelastic behavior of an alginate hydrogel by a combination of theory and experiment. The gel—covalently crosslinked, submerged in water and fully swollen—is suddenly compressed between two parallel plates. The gap between the plates is held constant subsequently, and the force on the plate relaxes while water in the gel migrates. This experiment is analyzed by using the theory of linear poroelasticity.

Cohesive material zone model and ABAQUS subroutines

Submitted by Angelos Irakleidis on Sun, 12/13/2009 - 08:36

Hello,

I'd like to ask if anybody knows if it is possible to use an ABAQUS usersubroutine that could vary some parameters (τmax, kn or ks etc) of the cohesive zone model of ABAQUS with the vertical pressure applied on the interface. The new ability of ABAQUS to support cohesive behaviour in contact surfaces seems very interesting and useful, however how could somebody simulate the interface under a compression - shear regime that may follow a Mohr-Coulomb type behaviour?

Update: Workshop on Probing the Limits of Strength, August 10-12, 2009, LBL, Berkeley, CA

Submitted by Oden Warren on Tue, 07/28/2009 - 17:07

conference

Conference

computational mechanics

Dear Colleague:

How to define the contact state if the corresponding cohesive element is under compression (ABAQUS)

Submitted by xiaoqin on Tue, 07/21/2009 - 12:35

Compression Testing of alumina ceramics

Submitted by ash74u on Sun, 05/10/2009 - 02:12

research

compression

Hi all ,

We were doing compression testing of alumina using Instron compression testor. plates used to compress the specimen is made up of Steel. When we applying load in elastic region we are not able to see right deflection because of compliance. Deflection of alumina is not clear as we are getting lots of compliance error. Has anyone faced similar problems. Is changing the steel plate and using any hard material in place of steel is the solution.

Thanks

Stress intensity factors for a slanted crack under compression

Submitted by Julien Jonvaux on Sun, 05/03/2009 - 21:51

research

crack

stress intensity factor

compression

j-integral

Hello everyone,

Here is the problem I have: I'm modeling the geometry of a simple straight edge crack in a 2D elastic medium using Abaqus. I assume plain stress conditions. The crack makes an angle with the horizontal, is small enough to be considered as embedded in an infinite domain (ratio crack length/size of domain < 1/10) and I apply a vertical compressive load on top of my domain. I fixed one point in displacement at the bottom of it and the whole bottom edge is constrained not to move vertically.

Deformation of FCC Nanowires by Twinning and Slip

Submitted by Harold S. Park on Sat, 01/27/2007 - 21:01

We present atomistic simulations of the tensile and compressive loading of single crystal FCC nanowires with <100> and <110> orientations to study the propensity of the nanowires to deform via twinning or slip. By studying the deformation characteristics of three FCC materials with disparate stacking fault energies (gold, copper and nickel), we find that the deformation mechanisms in

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