How to apply pressure of 0 to 0.409 MPa at constant for a time from t=0 to t=1.6ms?
How to apply pressure of 0 to 0.409 MPa at constant for a time from t=0 to t=1.6ms?
(OP)
I don't really get this.
I have a balloon and stent, and I need to apply an internal pressure on the inner surface of balloon. The balloon will expand, then the stent will expand as well.
However, when I review work done by other, I came up with this statement.
"As illustrated in Fig. 2, the balloon was subjected to an uniform internal pressure increasing from 0 to 0.409MPa at a constant rate for 1.635 ms"
You can see the attachment in Figure.
Thanks for your help
I have a balloon and stent, and I need to apply an internal pressure on the inner surface of balloon. The balloon will expand, then the stent will expand as well.
However, when I review work done by other, I came up with this statement.
"As illustrated in Fig. 2, the balloon was subjected to an uniform internal pressure increasing from 0 to 0.409MPa at a constant rate for 1.635 ms"
You can see the attachment in Figure.
Thanks for your help





RE: How to apply pressure of 0 to 0.409 MPa at constant for a time from t=0 to t=1.6ms?
Han primo incensus
RE: How to apply pressure of 0 to 0.409 MPa at constant for a time from t=0 to t=1.6ms?
Do you mind explain a little bit more?
By amplitude, I assume this is the fatigue analysis.
RE: How to apply pressure of 0 to 0.409 MPa at constant for a time from t=0 to t=1.6ms?
0,0
1.6,0.4 (if your units are ms and MPa)
Then you assign the amplitude to the pressure load, which you give value 1
RE: How to apply pressure of 0 to 0.409 MPa at constant for a time from t=0 to t=1.6ms?
0,0
1.6,0.4 (if your units are ms and MPa)
Then you assign the amplitude to the pressure load, which you give value 1