In the rapidly evolving automotive industry, the longevity and reliability of materials and structures are paramount. This research paper presents a comprehensive Finite Element Analysis (FEA)-based investigation into the fatigue life and durability of materials and structures commonly employed in automotive applications. Utilizing state-of-the-art FEA tools, the study evaluates the stress distributions, strain concentrations, and fatigue-induced deformations under cyclic loading conditions representative of real-world automotive scenarios. A comparative analysis of various automotive materials, including advanced high-strength steels, aluminium alloys, and novel composite materials, is conducted to discern their fatigue performance. The re...
Abstract. As the aluminum alloy car body was used to the lightweight design of railway vehicle, the ...
The recent emphasis on more reliable life predictions for fatigue-critical parts in ground vehicles ...
Replicated with permission by SAE, Copyright © 2016 SAE International. Further distribution of this...
This research describes the majority of interesting findings in the use of the Finite Element Analys...
A 6082 aluminium alloy has been characterized with regard to the influence of surface roughness on f...
Fatigue is one of the critical design aspects with immense significance where thefatigue life of a m...
This paper presents a study on fatigue life prediction of an aluminium alloy (AA) 7075-T6 coupon usi...
The origin of fatigue failure that occurs on the air ventilation holes of a newly designed heavy com...
The aim of the paper is at qualifying a methodology for the fatigue life assessment of structural co...
Elastomers have large reversible elastic deformation, good damping and high energy absorption capabi...
Aluminum alloys are one of the most promising materials selections for automobiles parts and electri...
The automotive industries are always carrying out the optimizations on vehicle's performance and cos...
Operation of machines and equipment is accompanied by an impact produced by various types of loads l...
This study was carried out to predict the durability of automotive car jounce bumper using Finite El...
In this study, the fatigue characteristics of aluminum alloys and mechanical components were investi...
Abstract. As the aluminum alloy car body was used to the lightweight design of railway vehicle, the ...
The recent emphasis on more reliable life predictions for fatigue-critical parts in ground vehicles ...
Replicated with permission by SAE, Copyright © 2016 SAE International. Further distribution of this...
This research describes the majority of interesting findings in the use of the Finite Element Analys...
A 6082 aluminium alloy has been characterized with regard to the influence of surface roughness on f...
Fatigue is one of the critical design aspects with immense significance where thefatigue life of a m...
This paper presents a study on fatigue life prediction of an aluminium alloy (AA) 7075-T6 coupon usi...
The origin of fatigue failure that occurs on the air ventilation holes of a newly designed heavy com...
The aim of the paper is at qualifying a methodology for the fatigue life assessment of structural co...
Elastomers have large reversible elastic deformation, good damping and high energy absorption capabi...
Aluminum alloys are one of the most promising materials selections for automobiles parts and electri...
The automotive industries are always carrying out the optimizations on vehicle's performance and cos...
Operation of machines and equipment is accompanied by an impact produced by various types of loads l...
This study was carried out to predict the durability of automotive car jounce bumper using Finite El...
In this study, the fatigue characteristics of aluminum alloys and mechanical components were investi...
Abstract. As the aluminum alloy car body was used to the lightweight design of railway vehicle, the ...
The recent emphasis on more reliable life predictions for fatigue-critical parts in ground vehicles ...
Replicated with permission by SAE, Copyright © 2016 SAE International. Further distribution of this...