A lightweight design method based on the idea of secondary optimization was proposed for a certain commercial vehicle front axle.The finite element model of the front axle was established and simulated.Combined with the fatigue endurance test,the true load of the front axle was investigated to verify the accuracy of the finite element model.The static tensile load and bending fatigue test of the real material of the front axle are taken as the light weight reference for obtaining the mechanical performance index of the front axle material after heat treatment.The overall model of the front axle is optimized and secondary optimization based on the mechanical model to ensure that the structure of the front axle meets the requirements of stren...
Leaf spring and rear axle are major parts of vehicle suspension system which is subjected to million...
An important design challenge of modern vehicles is mass reduction. Hence in many cases, mechanical ...
Automobile bumper subsystem is the frontal and rear structure of the vehicle that has the purpose of...
Front axle (FA) is the most important part especially in a load carrying vehicle. The failure of fro...
The body lightweight is important to the vehicle design and development, which has become one of the...
The unsprung mass of an electric vehicle is increased because of the placement of electric driving s...
In this paper, the authors describe the optimization of a rear axle housing for a 2013 Ford Mustang ...
This article investigates options for lightweighting truck trailers through a combination of materia...
The presented research activity is focused on the lightweight construction of a of truck wheel, with...
ABSTRACT: The objective of this paper is to analyse the proposed optimum design of tractor front axl...
Abstract: It is well known that the targeted fuel efficiency could only be achieved by more than 40 ...
To reduce the transportation cost and improve the fuel economy of a dump truck in road transport, ve...
Overall weight of vehicle contributes significantly towards fuel efficiency. Components used in vehi...
Shell Eco-marathon is an international competition to develop a vehicle with the lowest fuel consump...
Leaf spring and rear axle are major parts of vehicle suspension system which is subjected to million...
Leaf spring and rear axle are major parts of vehicle suspension system which is subjected to million...
An important design challenge of modern vehicles is mass reduction. Hence in many cases, mechanical ...
Automobile bumper subsystem is the frontal and rear structure of the vehicle that has the purpose of...
Front axle (FA) is the most important part especially in a load carrying vehicle. The failure of fro...
The body lightweight is important to the vehicle design and development, which has become one of the...
The unsprung mass of an electric vehicle is increased because of the placement of electric driving s...
In this paper, the authors describe the optimization of a rear axle housing for a 2013 Ford Mustang ...
This article investigates options for lightweighting truck trailers through a combination of materia...
The presented research activity is focused on the lightweight construction of a of truck wheel, with...
ABSTRACT: The objective of this paper is to analyse the proposed optimum design of tractor front axl...
Abstract: It is well known that the targeted fuel efficiency could only be achieved by more than 40 ...
To reduce the transportation cost and improve the fuel economy of a dump truck in road transport, ve...
Overall weight of vehicle contributes significantly towards fuel efficiency. Components used in vehi...
Shell Eco-marathon is an international competition to develop a vehicle with the lowest fuel consump...
Leaf spring and rear axle are major parts of vehicle suspension system which is subjected to million...
Leaf spring and rear axle are major parts of vehicle suspension system which is subjected to million...
An important design challenge of modern vehicles is mass reduction. Hence in many cases, mechanical ...
Automobile bumper subsystem is the frontal and rear structure of the vehicle that has the purpose of...