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Estimating Terminal Velocity of Rough Cracks

Submitted by arash_yavari on

In this paper we first obtain the order of stress singularity for a dynamically propagating self-affine fractal crack. We then show that there is always an upper bound to roughness, i.e. a propagating fractal crack reaches a terminal roughness. We then study the phenomenon of reaching a terminal velocity. Assuming that propagation of a fractal crack is discrete, we predict its terminal velocity using an asymptotic energy balance argument. In particular, we show that the limiting crack speed is a material-dependent fraction of the corresponding Rayleigh wave speed.

crack progagation whith XEFM

Submitted by Haroon on
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hi all im using abaqus 6.9 to simulate a crack propagation in an elastic material whith Xfem option, i still have this errors :the following XEFM crack are failling to correctly generate the conditions are listed whith the crack names : crack-1 Failed to locate crack tip.

 and if i submit the job even the warning its abort and i get this error:the damage model has to be specified for enriched element ( nbre) instance part 1-1.i specify the damage  model in Intprop as follow

** MATERIALS

**

*Material, name=Material-1

*Elastic

Flow Stress Curves for 51CrMoV4 material at varying temperature and strain rates

Submitted by kruzster on
Hie,

1] I am Krunal, currently pursuing my masters for University of Sheffield, wherein for my thesis I require to simulate the forging process for commercial vehicle Anti-roll bars using MSC MARC software.
 
2] I require the flow stress curves for the material 51CrMoV4 at varying temperatures ( approx 850 - 1400 deg celcius ) and varying strain rates ( approx 0.01 to 50 per second). However I am unable to find it....!!

Using indentation to characterize the poroelasticity of gels

Submitted by Yuhang Hu on

When an indenter is pressed into a gel to a fixed depth, the solvent in the gel migrates, and the force on the indenter relaxes. Within the theory of poroelasticity, the force relaxation curves for indenters of several types are obtained in a simple form, enabling indentation to be used with ease as a method for determining the elastic constants and permeability of the gel. The method is demonstrated with a conical indenter on an alginate hydrogel.

coupled-Field Analysis

Submitted by sagar_009 on

hi all,

In coupled field analysis, the first step is to do thermal analysis, then these thermal results will be imported to structural analysis then the couled analysis is carried out.

My question is, 

for example if the body is subjected to 300deg C. The thermal analysis is carried out with 300deg C.

Analytic Vs Experimental Solution for a simple beam experiment

Submitted by Zartasha Mustansar on

Dear Abaqus Users.

Can anyone pleasehelp me regarding the solution of a simple beam experiment.

I am trying to findthe tip displacement of a cantilever beam and compare the outputs with"Analytic solution" to confirm FE results.

The assumptions thatI am following are:

Length=200mm

Width=20mm

Depth/Thickness=25mm

Force/Load = 100N(concentrated force)

E=209.E3

Poisson's ratio=0.3

Number of elementsused for meshing = 29

Types of elements Iam using for Cantilever beam are:

C3D4 

In desperate need of a paper

Submitted by Ahmed Elkholy on
 
Can anyone help me get a copy of the following paper either by email or regular mail:
 
Elknoly,A.H., Karkoub,M. and Al-Hawaj,O."Computation of Large Strains Associated with Plastic Instability of In-Plane Loaded Plates", AMSE Periodicals, Modelling,Measurement and Control, Modelling B, vol 74, No 3, pp 11-32, 2005
 
My email is   kholy1 [at] gmail.com        My address: A.Elkholy,