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Finite element analysis on the static and fatigue characteristics of composite multi-leaf spring

This paper investigated the static and fatigue behaviors of steel and composite multi-leaf spring using the ANSYS V12 software. The dimensions of an existing conventional leaf spring of a light commercial vehicle were used. The same dimensions were used to design composite multi-leaf spring for the...

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Bibliographic Details
Main Authors: Kueh J.-T.J., Faris T.
Other Authors: 55347509000
Format: Article
Published: 2023
Subjects:
Composites
Deflection
Fatigue
Finite element
Leaf spring
Stress
Finite Element Analysis
Glass
Life Cycle
Properties
Stresses
Vehicles
Composite materials
Deflection (structures)
Fatigue of materials
Finite element method
Life cycle
Light weight vehicles
Materials properties
Bending stress
Design constraints
E-glass fibers
Effects of materials
Fatigue behavior
Fatigue characteristics
Finite Element
Light commercial vehicles
Multi-leaf springs
Transportation industry
Two-materials
Leaf springs
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Description
Summary:This paper investigated the static and fatigue behaviors of steel and composite multi-leaf spring using the ANSYS V12 software. The dimensions of an existing conventional leaf spring of a light commercial vehicle were used. The same dimensions were used to design composite multi-leaf spring for the two materials, E-glass fiber/epoxy and E-glass fiber/vinyl ester, which are of great interest to the transportation industry. Main consideration was given to the effects of material composition and its fiber orientation on the static and fatigue behaviors of leaf spring. The design constraints were bending stresses, deflection and fatigue life. Compared to the steel leaf spring, the designed composite spring has much lower bending stresses and deflections and higher fatigue life cycles. � 2012 Zhejiang University and Springer-Verlag Berlin Heidelberg.

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