Quiz — Modeling of Stents
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Question 1 of 19
1. Question
1. Which of the following can be used to create 3D stent?
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Question 2 of 19
2. Question
2. Which of the following process is the most preceding one (among the ones indicated below) in the stent manufacture to deployment cycle:
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Question 3 of 19
3. Question
3. What is the length of the pattern used for wrapping?
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Question 4 of 19
4. Question
4. Nitinol is an alloy of:
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Question 5 of 19
5. Question
5. Nitinol exhibits which of the following behavior:
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Question 6 of 19
6. Question
6. Which of the following phase of material looks relevant to low and high temperature respectively?
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Question 7 of 19
7. Question
7. In the Lecture Workshop the diameter of the Stent changes from:
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Question 8 of 19
8. Question
8. What is the value of equivalent plastic strain (in mm/mm) seen during the expansion?
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Question 9 of 19
9. Question
9. In the shape setting process before crimping the temperature to which the Nitinol is heated is:
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Question 10 of 19
10. Question
10. Crimping reduces the stent diameter to a diameter:
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Question 11 of 19
11. Question
11. In the Homework Problem for Stent Expansion, Shape Setting and Crimping, what is the maximum equivalent stress seen by the Stent:
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Question 12 of 19
12. Question
12. In the Homework Problem for Stent Expansion, Shape Setting and Crimping, where is the maximum equivalent plastic strain is seen?
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Question 13 of 19
13. Question
13. In the Homework Problem for Stent Expansion, Shape Setting and Crimping, how to change the material of the stent from Stent Elastic Plastic to SMA?
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Question 14 of 19
14. Question
14. For Stent Expansion, Shape Setting and Crimping homework, what is the maximum equivalent stress corresponding to a crimping radial deformation of 3mm?
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Question 15 of 19
15. Question
15. In the Homework Problem for Preliminary design assessment, when the stent expands from the crimped state to the vessel radius, how does the length of the stent change:
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Question 16 of 19
16. Question
16. In the Homework Problem for Preliminary design assessment, is there a hysteresis in the reaction force vs. Crimp displacement curve during the repeating crimping and expansion process? Why?
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Question 17 of 19
17. Question
17. In the Homework Problem for Preliminary design assessment using arc-shaped crimpers, what is the maximum equivalent stress in the stent?
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Question 18 of 19
18. Question
18. In the Homework Problem for Preliminary design assessment using arc-shaped crimpers, which statement is true?
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Question 19 of 19
19. Question
19. In the Homework Problem for Preliminary design assessment using arc-shaped crimpers, what is the maximum radial reaction force level for each arc?