@@hnrwagner I mean can you perform the numerical analysis of ring- and/or stringer-stiffened cylinder under combined loading? For example tension leg platform structures.
I added Timecodes for better Overview: Timecodes: 0:00 - Intro 1:15 - Create Part 2:02 - Create Partitions 4:19 - Assembly and mirror part 4:56 - Define Material Data for CFRP 5:30 - Define Material Data for Sandwich 6:30 - Define Orientation and Coordinate System 7:00 - Define Laminate Stacking 12:17 - Define Analysis Step (Linear Buckle) 12:41 - Define Rigid Body Constraints and Reference Points 13:33 - Define Boundary Conditions and Loading 14:01 - Define Mesh 14:30 - Prepare Nonlinear Model 14:40 - Define Analysis Step (Nonlinear Static General) 15:05 - Modify Boundary Conditions 16:40 - Results of Linear Analysis 17:14 - Results of Non-Linear Analysis 19:00 - Export Load-displacement Curve to MS Excel 20:11 - Comparison of Test and Simulation 20:40 - Calculate Knockdown Factor 21:20 - Experimental Test Video
thank you so much. can you please give me your what's app number? or email? I want to discuss something with you. I sent you email on the address given in the video. but it was bounced back
Hi. if we want to add imperfections on which step on the timecode we can insert that. if possible please make a video on that too. and also in BC and loading section I haven't seen where you put the loading force.
Sir, where can I get the data of axial force to axial displacement of experimental? I want to practice making graphs use excel just like the video. Your serials of abaqus tutorial are very helpful. Thank you very much .
@@hnrwagner In this report,the predicted buckling loads and measured buckling loads agreed within 1%, so why NASA concerned about the knockdown factors?
@@zhiminghe6310 @Zhiming He a KDF is always required for certification plus an additional safety factor. The official KDF for this shell would be 0.60 according to the NASA SP-8007. The KDF with respect to the exp. test is 0.87. The KDF according to new design methods would be for this shell 0.68.
just watched the entire video and added timecodes for better overview. What is too fast for you? I think it is appropriate, it is not for beginners for sure.
What kind of shell buckling analysis do you want to see next ? comment below !
Finite elastoplasticity shell (isotropic / orthotropic)!
Can you consider the effects of the stiffened cylinders on their strength? It í very interesting.
@@kitty861987
I do not understand the question ? could you rephrase it and give an example.
@@hnrwagner I mean can you perform the numerical analysis of ring- and/or stringer-stiffened cylinder under combined loading? For example tension leg platform structures.
Sir, is modelling of ETTA1similar to this
Excellent videos, Doc
I added Timecodes for better Overview:
Timecodes:
0:00 - Intro
1:15 - Create Part
2:02 - Create Partitions
4:19 - Assembly and mirror part
4:56 - Define Material Data for CFRP
5:30 - Define Material Data for Sandwich
6:30 - Define Orientation and Coordinate System
7:00 - Define Laminate Stacking
12:17 - Define Analysis Step (Linear Buckle)
12:41 - Define Rigid Body Constraints and Reference Points
13:33 - Define Boundary Conditions and Loading
14:01 - Define Mesh
14:30 - Prepare Nonlinear Model
14:40 - Define Analysis Step (Nonlinear Static General)
15:05 - Modify Boundary Conditions
16:40 - Results of Linear Analysis
17:14 - Results of Non-Linear Analysis
19:00 - Export Load-displacement Curve to MS Excel
20:11 - Comparison of Test and Simulation
20:40 - Calculate Knockdown Factor
21:20 - Experimental Test Video
thank you so much. can you please give me your what's app number? or email? I want to discuss something with you. I sent you email on the address given in the video. but it was bounced back
@@waqashafizmuhammad5756
Email given in the video has a spelling error:
Ro.wagner@tu-braunschweig.de
@@hnrwagner please check your email
Hi. if we want to add imperfections on which step on the timecode we can insert that. if possible please make a video on that too. and also in BC and loading section I haven't seen where you put the loading force.
@@waqashafizmuhammad5756
Loading for linear Analysis at 13:50
Loading for nonlinear Analysis at 16:10
I make a new video soon with imperfections.
Sir, where can I get the data of axial force to axial displacement of experimental? I want to practice making graphs use excel just like the video. Your serials of abaqus tutorial are very helpful. Thank you very much .
ntrs.nasa.gov/api/citations/20180002092/downloads/20180002092.pdf
@@hnrwagner In this report,the predicted buckling loads and measured buckling loads agreed within 1%, so why NASA concerned about the knockdown factors?
@@zhiminghe6310 @Zhiming He a KDF is always required for certification plus an additional safety factor. The official KDF for this shell would be 0.60 according to the NASA SP-8007. The KDF with respect to the exp. test is 0.87. The KDF according to new design methods would be for this shell 0.68.
Dear sir,
how can we get thickness distribution in metal forming in abaqus
Can you give a reference? Dont know what you mean
what happened to you? why are you so fast. please repeat the steps slowly. very difficult to follow you
just watched the entire video and added timecodes for better overview. What is too fast for you? I think it is appropriate, it is not for beginners for sure.