World Electric Vehicle Journal (Dec 2020)

Lightweight Chassis Design of Hybrid Trucks Considering Multiple Road Conditions and Constraints

  • Shuvodeep De,
  • Karanpreet Singh,
  • Junhyeon Seo,
  • Rakesh K. Kapania,
  • Erik Ostergaard,
  • Nicholas Angelini,
  • Raymond Aguero

DOI
https://doi.org/10.3390/wevj12010003
Journal volume & issue
Vol. 12, no. 1
p. 3

Abstract

Read online

The paper describes a fully automated process to generate a shell-based finite element model of a large hybrid truck chassis to perform mass optimization considering multiple load cases and multiple constraints. A truck chassis consists of different parts that could be optimized using shape and size optimization. The cross members are represented by beams, and other components of the truck (batteries, engine, fuel tanks, etc.) are represented by appropriate point masses and are attached to the rail using multiple point constraints to create a mathematical model. Medium-fidelity finite element models are developed for front and rear suspensions and they are attached to the chassis using multiple point constraints, hence creating the finite element model of the complete truck. In the optimization problem, a set of five load conditions, each of which corresponds to a road event, is considered, and constraints are imposed on maximum allowable von Mises stress and the first vertical bending frequency. The structure is optimized by implementing the particle swarm optimization algorithm using parallel processing. A mass reduction of about 13.25% with respect to the baseline model is achieved.

Keywords