Design and development of an innovative universal rotor holder automotive tool for operational efficiency of partner
Keywords:
Universal rotor holder, Structural analysis, Automotive tool developmentAbstract
This study presents the design and analysis of a universal rotor holder intended for automotive applications, focusing on its structural integrity under static loading conditions. The rotor holder was subjected to a static load at both fixed and sliding retainer, with a fixed geometry support for stability. Using SolidWorks, we conducted simulations to evaluate the Von Mises stress, displacement, and strain of the holder. The analysis revealed a maximum Von Mises stress of 16.390 MPa, which is well below the alloy steel's yield strength of 620.422 MPa, verifying the design's safety during operation. Furthermore, the measured displacement of 0.01214 mm and zero strain highlighted the holder's capability to preserve structural integrity without significant deformation. These results indicate that the universal rotor holder is both durable and dependable, making it ideal for accommodating various rotor sizes in automotive maintenance tasks. The implications of this research highlight the importance of using high-quality materials and precise engineering in tool design, ultimately enhancing safety and efficiency in automotive repair practices. This study contributes to the field by providing a validated design framework for future tool development in the automotive industry.
References
1. Crolla, D.A. Automotive engineering: powertrain, chasis system and vehicle body.
2. Mario H. Castro-Cedeño, P. Introduction to SolidsWorks; 2015;
3. Jauhari, M.F.; Saberani, S. Alat Bantu Penahan Rotor Untuk Mesin Sepeda Motor Yang Disempurnakan 2023.
4. Jauhari, M.F.; Admaja, N.Y.; Arawi, R.R. Alat Bantu Pelepas Pegas Katup Pada Kepala Silinder 2023.
5. Purwono, H. Perancangan Special Tool Remove and Install Hoist Cylinder Pada Unit Dump Truck HD 1500-7. 2018, 1–10.
6. Sunu, P.W.; Gede, S.; Bangse, K. A Design of a Tool of Car Brake Piston Caliper Remover with Pneumatic Power. 2023, 446–450, doi:10.5220/0010947300003260.
7. K Line Industries, I. Valve Spring Compressor - Patent CA 2312123. Paten 2001, CA 2312123, CA 2312123.
8. Eko Siswono, M.M. Static Analysis of Frame Structure of Post-Stroke Patients Tricycle Design with Material Type Variations. R.E.M. (Rekayasa Energi Manufaktur) 2019, 4.
9. Sandy Suryady, E.A.N. Simulasi Faktor Keamanan dan Pembebanan Statik Rangka Pada Turbin Angin Savonius. Jurnal Ilmiah Multidisiplin 2022, 1, 42–48.
10. Kahfi, M.W.; Mufarida, N.A.; Kosjoko, K. Desain dan analisis chassis tipe tubular space frame. ARMATUR : Artikel Teknik Mesin & Manufaktur 2023, 4, 18–30, doi:10.24127/armatur.v4i1.3266.
11. Akin, J.E. Finite Element Analysis Concepts via SolidWorks; World Scientific: Rice University, Houston, Texas, 2009;
12. Shih, R.H. Introduction to Finite Element Analysis Using SolidWorks Simulation 2010; Schroff Development Corporation, 2010;
13. Widiyanti; Puspitasari, P.; Suyetno, A. The development of instructional materials mechanics of materials using solidworks simulation software. AIP Conference Proceedings 2016, 1778, doi:10.1063/1.4965792.
14. Wu, D.; Zhang, Z.; Wang, Z. Application research of solidworks in modeling of straw carbonization preparation plant. Journal of Physics: Conference Series 2019, 1303, doi:10.1088/1742-6596/1303/1/012048.
15. Shinde, J.; Kharade, S.; Mulani, A.; Kokare, K.; Tapase, C.; Terani, A. Design and analysis of front axle using Solidworks simulation. International Research Journal of Engineering and Technology 2022.
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