A big thanks brother. Great work. You have shown step by step how to do a machining simulation.👍👍

@pinalrana

2 жыл бұрын

Glad it helped

Hi thanks for the video. could you please tell me which paper you referred to get the parameters of the material AI2024

can you please share the pdf, its not opening in google drive now

Thank you so much. Although I follow your tutorials, I can't simulate the models.

@pinalrana

8 ай бұрын

Please let me know the error.

How to get Tool wear rate using Usui wear model in Abaqus?. If you have any idea about how to calculate tool wear rate using abaqus or any other software do let me know.

Nice Video!! Thanks for sharing

@pinalrana

2 жыл бұрын

Your welcome

What does the subroutine code? Why do we need it?

Videonun bazı yerleri yanlış. Türkiye'den izleyenler yorumlarda belirtsin.

First of all thank you very much for this video! May I ask you a question? I did an orthogonal cutting simulation with a rigid tool... my van M.-stress is about 8e8 Pa so 800 MPa, wich seems normal for my parameters. But my reaction forces RF1 and RF2 at the reference point are quite high. The max RF1 is like 150 000 N (0.15e6) (I'm using SI units kg, m, ..) In my understanding the reaction force RF1 at the reference point in orthogional cutting should be the cutting force wich would be more like 1000 N max. Are your reaction forces also that high? Or do you have any suggestions?

@pinalrana

2 жыл бұрын

You can check your boundary conditions and material properties?.

From which papers did you took the properties of workpiece and tool as in your document it was cited as [16] and [17]. Kindly send that paper also as it will be helpful.

thank s for this tuto

@pinalrana

2 жыл бұрын

You're welcome 😊

Thank s for this tutorial. Do you have an idea on the machining simulation of a composite material?

@pinalrana

2 жыл бұрын

Sorry, I don't have any background in composite material.

@benjamincffoster4574

5 ай бұрын

did you do it

How to contact you bro

Salam, I have 'i5 4 ram' pc.Can I use it for simulation Withe abaqus /explicite (I need to simulate orthogonale cutting) Thanks

@pinalrana

2 жыл бұрын

Yes sure.

Thank you very much! Could you please repost the Google drive file?

@pinalrana

2 жыл бұрын

Updated.

@ownagain

2 жыл бұрын

@@pinalrana Thank you! The file is a Fortran code, I was wondering if you can share the pdf with the problem statement and material properties.

@pinalrana

2 жыл бұрын

@@ownagain Updated.

Salam How can I make the chip not overlap each other and into the piece? Thanks

@pinalrana

2 жыл бұрын

You need to change failure criteria according.

@nekkaryounes631

2 жыл бұрын

@@pinalrana where can I find this setting (failure cretira ) exactly ? Thanks

@pinalrana

2 жыл бұрын

In Johnson-Cook damage for displacement (7:35 in the video). Discontinuous chip is generally observed in a brittle material. So, you also need to change the properties accordingly.

Sir how to change feed rate in this model

@pinalrana

Жыл бұрын

In the present simulation study you have only 2 parameters depth of cut and speed. Feed is equal to width of cut or width of workpiece.

Aluminium is ductile, so the chip formation should be continuous , serrated and not break apart into discontinuous chips like we see in the simulation. How should we rectify this?

@pinalrana

2 жыл бұрын

To do so you have to use modified Johnson-Cook or incorporate Johnson-Cook plasticity.

@AkulaSriRahul

2 жыл бұрын

@@pinalrana I'm new to all the this ,could you please guide ? Can you pls explain how did we take a specific value, in this case 0.0001 for disp at failure in the damage evolution? Where should those changes be made since there is only one Johnson cook option. Should viscoelasticity be selected under elasticity options?

@AkulaSriRahul

2 жыл бұрын

@@pinalrana Also, if we use titanium alloy for workpiece , can we use the same procedure with only changing Johnson cook parameter values , keeping displacement at Failure as 0.0001?

@pinalrana

2 жыл бұрын

@@AkulaSriRahul yes you can.

@AkulaSriRahul

2 жыл бұрын

@@pinalrana Can u explain why we used that value for displacement at failure ?