Dear Experts,
I am conducting a fatigue analysis study on Caesar II and I have some questions regarding the input of data for a suction tube.
The suction of a pump is affected by vibrations with a frequency of 4,667 Hz (in the second 90º bend) and an amplitude of 1 mm in the horizontal direction. A pump operates at 3,600 RPM (60 Hz). From what I understand, the motivation is generated due to the turbulent flow caused by the flow velocity.
I would like to clarify the following questions:
Fatigue Analysis: To perform a fatigue analysis, I can use the static input of the program and apply the frequency to the curve. Is my understanding correct?
Harmonic Analysis in Caesar II: In harmonic analysis, how can I input this data to assess whether there is a risk of resonance?
I am conducting a fatigue analysis study on Caesar II and I have some questions regarding the input of data for a suction tube.
The suction of a pump is affected by vibrations with a frequency of 4,667 Hz (in the second 90º bend) and an amplitude of 1 mm in the horizontal direction. A pump operates at 3,600 RPM (60 Hz). From what I understand, the motivation is generated due to the turbulent flow caused by the flow velocity.
I would like to clarify the following questions:
Fatigue Analysis: To perform a fatigue analysis, I can use the static input of the program and apply the frequency to the curve. Is my understanding correct?
Harmonic Analysis in Caesar II: In harmonic analysis, how can I input this data to assess whether there is a risk of resonance?
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