Title :
Numerical study on groove formation of rails for various materials
Author_Institution :
Inst. for Adv. Technol., Texas Univ., Austin, TX, USA
Abstract :
Recovered rails exhibit groove formation along the outer edge of the armature/rail contact surface in many experiments. Different causes are hypothesized, such as local melting resulting from the concentration of current density, material yielding due to high contact pressure, and material softening at elevated temperatures. Numerical simulations using the hybrid finite element/boundary element code EMAP3D were conducted to identify the cause of this damage. Various rail materials such as chrome copper, 7055 aluminum alloy, beryllium copper, and dispersion-strengthened copper are investigated. The results are presented in this paper, and they do show that groove formation is due to the effect of both material softening at high local temperature and material yielding.
Keywords :
aluminium alloys; beryllium compounds; boundary-elements methods; chromium compounds; copper; current density; finite element analysis; melting; railguns; softening; 7055 aluminum alloy; EMAP3D; armature surface; beryllium copper; boundary element code; chrome copper; current density; dispersion-strengthened copper; hybrid finite element code; magnetic sawing; material softening; material yielding; melting; numerical simulation; rail contact surface; rail material damage; rails groove formation; Aluminum alloys; Conducting materials; Copper; Magnetic materials; Material properties; Numerical simulation; Rails; Softening; Temperature; Thermal stresses;
Conference_Titel :
Electromagnetic Launch Technology, 2004. 2004 12th Symposium on
Print_ISBN :
0-7803-8290-0
DOI :
10.1109/ELT.2004.1398105
