isponmo
Aerospace
- Jul 20, 2012
- 39
Hello!
I have a question about how strength should be assessed in satellites structures and their payloads. I have seen different ways of doing the task, and it is not clear to me what is right and what is wrong. Some people calculate stresses directly from dynamic loads caused by random and sinusoidal vibrations using frequency response analyses, whereas others calculate stresses only from static analysis with limit load factors (obtained, for example, from a Mass acceleration curve). Which methodology is more adequate? Are the "design limit loads" always defined as equivalent static load factors and do they include the dynamic effects, covering sine, random, etc.?
I would also like to ask another question: How is the structural design process carried out from the structural analysis point of view? Would the following sequence be valid?:
1. Creation of a structural (static) math model and preliminary sizing and strength assessment using generic limit loads from the launcher authority or given requirements.
2. Creation of a dynamic math model.
3. Correlation of the dynamic math model with test results. (Is a modal survey or a low level sine sweep enough for this purpose?)
4. Reduction of the correlated dynamic math model to be provided for the CLA.
5. Strength analysis of the static model using the updated limit loads obtained from the CLA (how are those load factors obtained?)
6. Base-driven frequency response analysis of the correlated dynamic model using transfer functions from the CLA to get responses in several points of the model and define limit loads for subsystems or payloads. (Should this step happen before?)
Thanks a lot!
I have a question about how strength should be assessed in satellites structures and their payloads. I have seen different ways of doing the task, and it is not clear to me what is right and what is wrong. Some people calculate stresses directly from dynamic loads caused by random and sinusoidal vibrations using frequency response analyses, whereas others calculate stresses only from static analysis with limit load factors (obtained, for example, from a Mass acceleration curve). Which methodology is more adequate? Are the "design limit loads" always defined as equivalent static load factors and do they include the dynamic effects, covering sine, random, etc.?
I would also like to ask another question: How is the structural design process carried out from the structural analysis point of view? Would the following sequence be valid?:
1. Creation of a structural (static) math model and preliminary sizing and strength assessment using generic limit loads from the launcher authority or given requirements.
2. Creation of a dynamic math model.
3. Correlation of the dynamic math model with test results. (Is a modal survey or a low level sine sweep enough for this purpose?)
4. Reduction of the correlated dynamic math model to be provided for the CLA.
5. Strength analysis of the static model using the updated limit loads obtained from the CLA (how are those load factors obtained?)
6. Base-driven frequency response analysis of the correlated dynamic model using transfer functions from the CLA to get responses in several points of the model and define limit loads for subsystems or payloads. (Should this step happen before?)
Thanks a lot!
![[pipe]](/data/assets/smilies/pipe.gif "[pipe] [pipe]")
