Noise Identification for an Automotive Wheel Bearing

Kim, Jae-Won; Kwon, Seongmin; Ryu, Seokwon; Lee, Seungpyo; Jeong, Jaeil; Chung, Jintai

doi:10.3390/app12115515

Cited by 4 publications

(1 citation statement)

References 19 publications

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“…Magnesium alloy material was selected for the wheel designed in this paper, and this lightweight material can effectively reduce the weight of the wheel. Three-dimensional modeling and structure optimization were carried out by using the three-dimensional software PROE, and finite element analysis software ANSYS Workbench was used for analysis [12]. The force and modal analysis of the wheel under design conditions were obtained, and it was found that the original design might be too redundant.…”

Section: Introductionmentioning

confidence: 99%

Modal Analysis of Automobile Wheels based on Lightweight Technology

Xinqiao Ding

2024

jes

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Compared with traditional wheels, magnesium alloy wheels have the advantages of higher strength, toughness, lighter weight, beautiful appearance and so on. This paper takes magnesium alloy wheel as the research object, and uses Pro/e and ANSYS to help complete a lot of work such as 3D model construction and finite element analysis and calculation, to ensure that the magnesium alloy wheel can meet its strength requirements while being lightweight. The strength analysis and modal analysis of the designed wheel model are carried out under various working conditions. According to the analysis results, the first design model is further simplified, and then the calculation and analysis are repeated many times. It is found that the new model meets the mechanical properties requirements under multi-working conditions, ensures that the requirements of lightweight design are met, and provides relevant theories and methods for wheel design and structural optimization of other materials.

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Section: Introductionmentioning

confidence: 99%

Modal Analysis of Automobile Wheels based on Lightweight Technology

Xinqiao Ding

2024

jes

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Application of the vibro-acoustic signal to evaluate wear in the spindle bearings of machining centres. In-service diagnostics in the automotive industry

Nawrocki¹,

Stryjski

Kostrzewski

et al. 2023

Journal of Manufacturing Processes

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Uniaxial Load Specification for Vehicle Knuckle Part Using Maximum Stress Similarity in Triaxial Load Case

Kim

2022

Machines

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Knuckle parts have a complex relationship with adjacent vehicle parts, making it difficult to determine the proper fatigue evaluation specification when considering vehicle operation. An accelerated triaxial load case for the knuckle part was derived using a combination of four event modules from the test code developed by the Korea Automotive Technology Institute. The fatigue damage analysis of the front and rear knuckle models was conducted with respect to the accelerated triaxial load case, and the maximum stress was measured at hotspots for the magnitude and orientation of the critical plane. The sensitivity analysis of the knuckle models was conducted for six directions of the unit force, and the proper uniaxial force orientations of the two knuckle models were determined for the maximum stress similarity in the triaxial load case in terms of the magnitude and orientation of the critical plane. The final uniaxial load specification was derived by adjusting the magnitude of the candidate uniaxial load and the error analysis showed reliable results through inverse safety factors with 0.02, 0.04 error, and critical plane angles with 10.8, 0.8 degrees error for front and rear knuckles, respectively, verified by comparing the maximum stress similarity between the triaxial and uniaxial load cases.

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Noise Identification for an Automotive Wheel Bearing

Cited by 4 publications

References 19 publications

Modal Analysis of Automobile Wheels based on Lightweight Technology

Modal Analysis of Automobile Wheels based on Lightweight Technology

Application of the vibro-acoustic signal to evaluate wear in the spindle bearings of machining centres. In-service diagnostics in the automotive industry

Uniaxial Load Specification for Vehicle Knuckle Part Using Maximum Stress Similarity in Triaxial Load Case

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