Coupled multi-disciplinary composites behavior simulation
Abstract
The capabilities of the computer code CSTEM (Coupled Structural/Thermal/Electro-Magnetic Analysis) are discussed and demonstrated. CSTEM computationally simulates the coupled response of layered multi-material composite structures subjected to simultaneous thermal, structural, vibration, acoustic, and electromagnetic loads and includes the effect of aggressive environments. The composite material behavior and structural response is determined at its various inherent scales: constituents (fiber/matrix), ply, laminate, and structural component. The thermal and mechanical properties of the constituents are considered to be nonlinearly dependent on various parameters such as temperature and moisture. The acoustic and electromagnetic properties also include dependence on vibration and electromagnetic wave frequencies, respectively. The simulation is based on a three dimensional finite element analysis in conjunction with composite mechanics and with structural tailoring codes, and with acoustic and electromagnetic analysis methods. An aircraft engine composite fan blade is selected as a typical structural component to demonstrate the CSTEM capabilities. Results of various coupled multi-disciplinary heat transfer, structural, vibration, acoustic, and electromagnetic analyses for temperature distribution, stress and displacement response, deformed shape, vibration frequencies, mode shapes, acoustic noise, and electromagnetic reflection from the fan blade are discussed for their coupled effects in hot and humid environments. Collectively, these results demonstrate the effectiveness of the CSTEM code in capturing the coupled effects on the various responses of composite structures subjected to simultaneous multiple real-life loads.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- February 1993
- Bibcode:
- 1993STIN...9322481S
- Keywords:
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- Composite Materials;
- Composite Structures;
- Computer Programs;
- Computerized Simulation;
- Coupling;
- Dynamic Structural Analysis;
- Finite Element Method;
- Structural Analysis;
- Structural Vibration;
- Acoustic Coupling;
- Aircraft Engines;
- Deformation;
- Displacement;
- Dynamic Response;
- Electromagnetic Coupling;
- Engine Parts;
- Fan Blades;
- Mechanical Properties;
- Vibration Mode;
- Structural Mechanics