Developing automotive vehicles and components to achieve light-weight designs and to meet design targets on structural stiffness, modal frequencies, durability, and crashworthiness, can no longer be driven by a “trial-and-error ” strategy. Structural optimization tools provide the necessary analyses during the initial stages of vehicle development to arrive at the most efficient and effective designs. In this paper, we illustrate the importance of topological and gage optimization in achieving mass reduction without compromising on the structural requirements through two design examples
Ride and handling are important areas for safety and improved vehicle control during driving. To mee...
An important design challenge of modern vehicles is mass reduction. Hence in many cases, mechanical ...
AbstractAs a follow up of the light weight design policies, topology optimization of aerospace mille...
Improvements in structural components design are often achieved on a trial-and-error basis guided by...
European Regional Development Fund-Project “Application of Modern Technologies in Medicine and Indu...
In order to meet today's vehicle design requirements and to improve the cost and fuel efficiency, th...
In today’s automotive industry there is a growing demand for more fuel efficient vehicles and reduce...
Abstract The design of a suspension system emphasizes weight reduction in this high-computation tech...
Abstract- This work is based on the analysis of engine mounting bracket. There are four mounting bra...
The topological optimization of components to maximize crash energy absorption for a given volume is...
New optimization strategies for lighter and safer vehicle structures are developed at the German Aer...
Practical structural design problems, involving the layout of material and/or stiffeners in a given ...
This paper is about to study topology optimization for automotive part design for optimized solution...
This research is based on a design process flow, which deals with the improvement of the current way...
ABSTRACT This paper presents a methodology to perform structural topology design optimization for cr...
Ride and handling are important areas for safety and improved vehicle control during driving. To mee...
An important design challenge of modern vehicles is mass reduction. Hence in many cases, mechanical ...
AbstractAs a follow up of the light weight design policies, topology optimization of aerospace mille...
Improvements in structural components design are often achieved on a trial-and-error basis guided by...
European Regional Development Fund-Project “Application of Modern Technologies in Medicine and Indu...
In order to meet today's vehicle design requirements and to improve the cost and fuel efficiency, th...
In today’s automotive industry there is a growing demand for more fuel efficient vehicles and reduce...
Abstract The design of a suspension system emphasizes weight reduction in this high-computation tech...
Abstract- This work is based on the analysis of engine mounting bracket. There are four mounting bra...
The topological optimization of components to maximize crash energy absorption for a given volume is...
New optimization strategies for lighter and safer vehicle structures are developed at the German Aer...
Practical structural design problems, involving the layout of material and/or stiffeners in a given ...
This paper is about to study topology optimization for automotive part design for optimized solution...
This research is based on a design process flow, which deals with the improvement of the current way...
ABSTRACT This paper presents a methodology to perform structural topology design optimization for cr...
Ride and handling are important areas for safety and improved vehicle control during driving. To mee...
An important design challenge of modern vehicles is mass reduction. Hence in many cases, mechanical ...
AbstractAs a follow up of the light weight design policies, topology optimization of aerospace mille...