Title :
Electromagnetic field effect and analysis of composite structure
Author :
Tzeng, Jerome T. ; Kuo-Ta Hsieh
Author_Institution :
US Army Res. Lab., Aberdeen Proving Ground, MD, USA
Abstract :
The electromagnetic and thermal response of composites subjected to magnetic fields is simulated by solving Maxwell and heat transfer equations simultaneously. The developed analysis accounts for the anisotropic nature of the electrical and thermal properties in three dimensions. A finite element code is developed to predict the response of composite structures subjected to transient magnetic fields. The analysis has been validated against a closed form solution and applied to simulate the induction heating process of composite cylinders. The developed analysis can be applied to the design of modern electrical weapons and used to simulate composite manufacturing processes such as induction cure.
Keywords :
Maxwell equations; composite materials; electromagnetic fields; finite element analysis; heat transfer; magnetic fields; thermal properties; Maxwell equations; closed form solution; composite cylinders; composite manufacturing processes; composite structure; electrical properties; electromagnetic field effect; electromagnetic response; finite element code; heat transfer equations; induction cure; induction heating process; magnetic fields; modern electrical weapons; thermal properties; thermal response; Curing; Electromagnetic heating; Equations; Heat transfer; Magnetic fields; Mathematical model;
Conference_Titel :
Electromagnetic Launch Technology (EML), 2014 17th International Symposium on
Conference_Location :
La Jolla, CA
DOI :
10.1109/EML.2014.6920160
