prediction of temperature distribution of steady state rolling tires e. ledbury, l. wang, d....

Prediction of Temperature Distribution of Steady State Rolling Tires

E. Ledbury, L. Wang, D. Johnson, C. Bouvard, S.D. Felicelli

Mississippi State University

Introduction

Diagram of an example of a coupled thermo-mechanical model including three modules

Deformation Module

• Use ABAQUS tire analysis capability

• Hyperelastic material

• Steady-state rolling analysis

• Input: weight, speed, inflation pressure, road friction

• Output: Strain – Stress

Mechanical Analysis Sequence

Dissipation Module

The energy dissipated in the tire by viscoelastic effects can be obtained from the hysteresis of the material

totalU

lossU Strain energy lost by dissipation

Total strain energy in tire (obtained from Mechanical Module)

H Hysteresis (obtained from DMA testing)

)( totalUH

Heat generationD

VUq Lloss

LV Vehicle speed

D Tire diameter

2D Axi-symmetric Tire Model

Tire (185/60 R15) Geometry and Meshing

Material Properties(Lin and Hwang, 2004)

Components Apex InnerLiner Bead Rubber, Ply SideWall TreadMaterial Apex InnerLiner Rebar Rubber SideWall

CompoundTread

Properties Hyperelastic Hyperelastic Elastic Hyperelastic Hyperelastic HyperelasticDensity (kg/m³) 1200 1200 6500 1200 1200 1200

Poison's Ratio - - 0.3 - -

Young's Modulus (Pa)

- - 207×109 - -

Mooney-Rivlin Constants (MPa)

C10 = 118.9C01= -71.8D1 = 0.003

C10 = 118.9C01= -71.8D1 = 0.01

- C10 = 118.9C01= -71.8D1 = 0.03

C10 = 118.9C01= -71.8D1 = 0.01

C10 = 118.9C01= -71.8D1 = 0.04

Displacement Contour

Displacement for half-tire static modeling (6 kN, 50 psi)

Displacement vs. Loading

Comparison between model prediction and experiments (Lin and Hwang, 2004)

3D Full-Tire Steady State Rolling

Displacement

Displacement for 3D full-tire steady state rolling modeling (6kN, 50 psi, 80 km/h)

Strain Energy Density

ESEDEN at the cross-section connecting to the road contact for 3D full tire steady state

rolling modeling (6kN, 50 psi, 80 km/h)

Temperature Distribution (50 psi, 60 km/h)

Max Temp. in Tire Shoulder

prediction of temperature distribution of steady state rolling tires e. ledbury, l. wang, d....

tire shoulder

halftire static modeling

materialstrain energy

model prediction

kmhstrain energy densityeseden

road frictionoutput

mechanical modulehysteresis

road contact

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