Abstract
<div class="section abstract"><div class="htmlview paragraph">The process of assembling the bearing and crimp ring to the steering pinion shaft is intricate. The bearing is pressed into its position via the crimp ring, which is tipped inward and fully fitted into a groove on the pinion shaft. Only when the bearing is pressed to a low surface on the pinion shaft, the caulking force for the crimp ring is achieved. The final caulking distance for the crimp ring confirms the proper bearing position. Simulating this transient fitting process using CAE is a challenging topic. Key factors include controlling applied force, defining contact between bearing and pinion surface, and defining contact between crimp ring and bearing surface from full close to half open transition. The overall CAE process is validated through correlation with testing.</div></div>
Reference5 articles.
1. Rusu , G.-P. , Popp , M.-O. , Bârsan , A. , and Oleksik , M. Crimping Profile Optimization on the Air Spring Using Finite Element Method ACTA Universitatis Cibiniensis 70 1 2018 43 47 10.2478/aucts-2018-0007
2. Yao , Y. , Qamhiyah , A. , and Fang , X. Finite Element Analysis of the Crimping Process of the Piston-Slipper Component in Hydraulic Pumps Journal of Mechanical Design - J MECH DESIGN. 122 2000 10.1115/1.1286188
3. Shirgaokar , M. , Cho , H. , Ngaile , G. , Altan , T. et al. Optimization of Mechanical Crimping to Assemble Tubular Components Journal of Materials Processing Technology 146 1 2004 35 43 https://doi.org/10.1016/S0924-0136(03)00842-2
4. Kodli , B.S. and Kapte , V. Leak Proof Sheet Metal Crimp Simulation and Stress Analysis Using FEM International Journal of Applied Engineering Research and Development 2 8 August 2012 40 45 e-ISSN: 2278-067X
5. https://www.engineeringtoolbox.com/friction-coefficientsd_778.html