Validation of A356T6 automobile wheel fatigue strength using the finite elements method

Okan Ceylan; Ferhat Aydoğan

doi:10.26701/ems.1117395

Research Article

Validation of A356T6 automobile wheel fatigue strength using the finite elements method

Year 2022, Volume: 6 Issue: 3, 207 - 212, 20.09.2022

Okan Ceylan Ferhat Aydoğan

https://doi.org/10.26701/ems.1117395

Abstract

In this study, A356T6 wheel bending fatigue test limits determined using the finite element methods and compared to experimental test results. In experimental test, zinc-glycerin was applied front surfaces of wheels to obtain fatigue detects. Short and long cycle bending fatigue tests (200.000 and 1.800.000 respectively) were performed. Simulation model was created in Ansys by defining A356 S-N curve. Simulation performed has been with test parameters. According to simulation results, the crack starts 225.000 cycle in short-test and 2.000.000 cycle in long -test. According to the results, it has been revealed that the experimental and analysis data are parallel to each other.

Keywords

Bending fatigue, A356T6, Finite Element Methods, Crack, Simulation

References

[1] Tebaldini, M., Petrogalli, C., Donzella, G., Gelfi, M., La Vecchia, G.M., (2018). A356-T6 wheels: Influence of casting defects on fatigue design. Fatigue and Fracture of Engineering Materials and Structures. 41(8): 1784–93. doi: 10.1111/ffe.12820.
[2] TS EN ISO 6506-2., (2019). Metallic materials - Brinell hardness test - Part 2: Verification and calibration of testing machines.
[3] ISO., (2019). Metallic Materials - Tensile testing -Part 1: Method of test at room temperature (ISO 6892-1:2019).” 2019.
[4] ASTM., (2002). Standard Practice for Conducting Force Controlled Constant Amplitude Axial Fatigue Tests of Metallic Materials. Test.: 4–8.
[5] TS ISO 3006., (2015). Road vehicles - Passenger car wheels for road use - Test methods (112): 18.
[6] UNITED NATIONS., (2007). UNIFORM PROVISIONS CONCERNING THE APPROVAL OF WHEELS FOR PASSENGER CARS AND THEIR TRAILERS.

Year 2022, Volume: 6 Issue: 3, 207 - 212, 20.09.2022

Okan Ceylan Ferhat Aydoğan

https://doi.org/10.26701/ems.1117395

Abstract

References

[1] Tebaldini, M., Petrogalli, C., Donzella, G., Gelfi, M., La Vecchia, G.M., (2018). A356-T6 wheels: Influence of casting defects on fatigue design. Fatigue and Fracture of Engineering Materials and Structures. 41(8): 1784–93. doi: 10.1111/ffe.12820.
[2] TS EN ISO 6506-2., (2019). Metallic materials - Brinell hardness test - Part 2: Verification and calibration of testing machines.
[3] ISO., (2019). Metallic Materials - Tensile testing -Part 1: Method of test at room temperature (ISO 6892-1:2019).” 2019.
[4] ASTM., (2002). Standard Practice for Conducting Force Controlled Constant Amplitude Axial Fatigue Tests of Metallic Materials. Test.: 4–8.
[5] TS ISO 3006., (2015). Road vehicles - Passenger car wheels for road use - Test methods (112): 18.
[6] UNITED NATIONS., (2007). UNIFORM PROVISIONS CONCERNING THE APPROVAL OF WHEELS FOR PASSENGER CARS AND THEIR TRAILERS.

There are 6 citations in total.

Details

Primary Language	English
Subjects	Mechanical Engineering
Journal Section	Research Article
Authors	Okan Ceylan 0000-0001-8491-312X Ferhat Aydoğan This is me 0000-0002-3085-810X
Publication Date	September 20, 2022
Acceptance Date	July 20, 2022
Published in Issue	Year 2022 Volume: 6 Issue: 3

Cite

APA	Ceylan, O., & Aydoğan, F. (2022). Validation of A356T6 automobile wheel fatigue strength using the finite elements method. European Mechanical Science, 6(3), 207-212. https://doi.org/10.26701/ems.1117395
AMA	Ceylan O, Aydoğan F. Validation of A356T6 automobile wheel fatigue strength using the finite elements method. EMS. September 2022;6(3):207-212. doi:10.26701/ems.1117395
Chicago	Ceylan, Okan, and Ferhat Aydoğan. “Validation of A356T6 Automobile Wheel Fatigue Strength Using the Finite Elements Method”. European Mechanical Science 6, no. 3 (September 2022): 207-12. https://doi.org/10.26701/ems.1117395.
EndNote	Ceylan O, Aydoğan F (September 1, 2022) Validation of A356T6 automobile wheel fatigue strength using the finite elements method. European Mechanical Science 6 3 207–212.
IEEE	O. Ceylan and F. Aydoğan, “Validation of A356T6 automobile wheel fatigue strength using the finite elements method”, EMS, vol. 6, no. 3, pp. 207–212, 2022, doi: 10.26701/ems.1117395.
ISNAD	Ceylan, Okan - Aydoğan, Ferhat. “Validation of A356T6 Automobile Wheel Fatigue Strength Using the Finite Elements Method”. European Mechanical Science 6/3 (September 2022), 207-212. https://doi.org/10.26701/ems.1117395.
JAMA	Ceylan O, Aydoğan F. Validation of A356T6 automobile wheel fatigue strength using the finite elements method. EMS. 2022;6:207–212.
MLA	Ceylan, Okan and Ferhat Aydoğan. “Validation of A356T6 Automobile Wheel Fatigue Strength Using the Finite Elements Method”. European Mechanical Science, vol. 6, no. 3, 2022, pp. 207-12, doi:10.26701/ems.1117395.
Vancouver	Ceylan O, Aydoğan F. Validation of A356T6 automobile wheel fatigue strength using the finite elements method. EMS. 2022;6(3):207-12.

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