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Element Deletion in Abaqus based on Continuum Damage Mechanics
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- Опубліковано 24 тра 2021
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Comprehensive Abaqus Package: • Comprehensive Abaqus P...
Including 39 hours of step-by-step tutorials.
Chapters 6 and 11 of the package are related to this tutorial.
Step by step tutorial for defining and using ductile damage model:
• Damage Analysis of Not...
Don’t hesitate to ask any questions you might have about the explanations presented in this video using the comments below. We try to answer all questions regarding the video details in the comments below.
in Continuum Damage Mechanics, damage propagation in the material is modeled by deletion of completely damaged elements. For simulating damage propagation, at first you must define damage initiation and damage propagation (damage evolution) criteria in property module. In addition to these settings, there are several options in Step and Mesh modules to have more control on the damage propagation analysis. In this video, these options and the effect of each of them on the simulation results are explained in detail.
Table of content:
- Status in Field Output request
- SDEG in Field Output request
- DMICRT in Field Output request
- Choosing the appropriate step
- Static general step settings for damage analysis
- Mesh design for damage analysis
- Element specifications in damage analysis
- Comparison of the effects of mesh module settings on the result of tensile test simulation
- Element deletion settings
- Force-Displacement curve of tensile test
- Element Deletion versus no Element Deletion
- Mises Stress-Equivalent Plastic Strain (PEEQ) curve for deleted elements
#tensile_test
#damage_analysis
#continuum_damage_mechanics
#damage
#ductile_damage
#Abaqus
Thank you very much for your explanation. Keep it up. it is perfect.
I want to express my gratitude for you sharing this amazing video.
Thank you so much.
We have also These premium step-by-step tutorials for damage analysis:
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Thanks for such a good video
Hi.
You are welcome.
VERY NICELY EXPLAINED THANK YOU
CAN YOU PLEASE MAKE A VIDEO ON HOW TO GIVE MATERIAL PROPERTIES FOR DYNAMIC EXPLICIT MODELLING...ALONG WITH THE DAMAGE INITIATION AND DAMAGE EVOLUTION CRITERIA IN DETAILS...
tHANK yOU
hi.
you are welcome.
actually we explain what you mentioned in our online tutoring sessions.
for more information about our services you can contact me via email.
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Hi very interesting video. I have a doubt. In a hollow particle and matrix system, I want to provide the damage model to the ceramic hollow particle and metal matrix. Can you suggest the material properties need to be considered along with the other parameters that you have shared in the video. Thank you.
Hi.
Thank you so much.
We have a step by step premium tutorial about damage analysis using the ductile damage model. This is its preview : ua-cam.com/video/DOrYdLNILZ8/v-deo.html
Also please read the description below the video.
You can buy it to get the answer of your questions or you can use our offline or online services.
To know about these services, you can send email to me. This is my email : mirzabozorg71@gmail.com
hi thank you for sharing,how to get strain stress curve,average all element‘s strain and stress values?
hi.
you are welcome.
actually there are to procedures to get the stress-strain curve :
1) using the force-displacement curve. force must be divided to the cross sectional area and displacement must be divided by the length of the specimen. so the nominal stress-strain curve is obtained. finally by using the plasticity equations, we can obtain the true stress-true strain curve. this way works only for the flat dog-bone specimens used for tensile test.
2) using the stress and strain data of a single element and combining them using the XY data tool.
the second way is used in the video and it is more exact in comparison to the first way.
Thank you very much for this useful video.I have plotted misses to peeq in my damage model for one of the damaged elements.However the PEEQ in elastic region wasn't zero!DDoes this mean my model is not correct?
Hi.
You are welcome.
Actually I must check this issue myself in your results. Also your model should be checked. I can do these in an online session. To use our online service, please send an email to me : mirzabozorg71@gmail.com
Excellent presentation. You must have done a thorough research to get this much technical informationn about the ABAQUS implementation and the "secret" switches.
Hi.
Thank you so much.
Actually I am using Abaqus since 2012.
Also there are some other tutorials about damage analysis in our UA-cam Channel.
This one is a free tutorial:
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And these ones are two premium ones:
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Premium ones are completely step by step.
Also if you want to buy each of them or other premium tutorials, you can use the discount code mentioned here: ua-cam.com/video/McXVQ0zDUd0/v-deo.html
I have some questions on the element deletion usage in the Abaqus/Standard environment: since it is an implicit solver, how does Abaqus perform the solution of the implicit FEM equations and solve the deformation problem when the stiffness of elements become zero (when it is fully-damaged)? That is, how does Abaqus perform the implicit calculation and achieve convergence since the global stiffness matrix, K, becomes non-invertible due to elements having zero stiffness?
Thank you so much for your kind explanation. By the way, your UA-cam video is fabulous!
hi.
you are welcome.
actually you asked an important question.
I think its answer is mentioned in the documentation.
as far as I know, when the standard solver is used, Abaqus cannot set the stiffness equal to zero because of the convergence issues. so it set the stiffness to a very small value. actually the fully damaged elements will not be removed from the analysis completely. only they will be removed graphically.
even by using this procedure, convergence issues can arise in the damage propagation analysis.
but as there is no convergence issue in using the explicit solver, always it is the best choice for solving the damage propagation.
this is the link of the preview of one of our premium tutorials about damage analysis via both of the mentioned solvers:
ua-cam.com/video/DOrYdLNILZ8/v-deo.html
during this tutorial, even by implementing all of the available tricks, the standard solver faces difficulty to solve the problem but the explicit solver does not.
Thank you so much.
@@prakashthamburaja574 you are welcome.
@@FemexIran Sir, this is exactly my question. I am using Abaqus Dynamic, Implicit. I noticed that Abaqus removes the fully damaged elements graphically, but a relationship still remains between elements even after fracture. My question is do these deleted elements continue to influence stress and strain after "deletion"? If so, how can we completely remove them and any effects they may still have? (Using only implicit solver)
@@enriquecernasaguilar7463 Hi.
As far As I know and according to my experience, the deleted elements in the Abaqus/standard solver, do not cause any problem or warning or error.
Also no critical point is mentioned about them in the Abaqus documentations.
If you have any problem in your analysis, you must find another source of problem.
Very nice work, i have a problem with my model can you give your email for more detail thanks
hi.
your welcome.
I have mentioned my email address and phone number at the end of this video and the other English videos of our channel.
@@FemexIran thanks
@@aouiched9613 your welcome.