Tire Science And Technology Volume 30: Issue 4

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Volume 30: Issue 4

Publication Date: 01 Oct 2002

Online ISSN: 1945-5852

Print ISSN: 0090-8657

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Estimation of Tire Wear and Traumatic Event Intensities

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DOI: 10.2346/1.2135256

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Stress Analysis of the Multi‐Layered System of a Truck Tire

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DOI: 10.2346/1.2135257

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Application of STOM to the Optimal Tire Contour Design by Introducing the Aspiration‐level Indicator

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DOI: 10.2346/1.2135258

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Comparison Between Tire Rolling Resistance Measurements on a Flat Track and a Test Drum Under Non-Steady-State Conditions

Lisa Ydrefors,

Mattias Hjort,

Sogol Kharrazi,

Jenny Jerrelind, and

Annika Stensson Trigell

Critical Plane Analysis of Surface-Proximal Fields for the Simulation of Thermo-Mechanical Wear

William V. Mars,

Thomas G. Ebbott,

Ethan C. Steiner,

Lewis Tunnicliffe, and

James Kollar

Enhancing Tire Model Parameterization for Rollover Simulation: A Validated Approach

C. Ludwig,

F. Birnbaum,

H. Abel,

H. Olsson, and

G. Prokop

Research on Fast and Efficient Virtual Sample Delivery Method of Tire Mechanical Characteristics

Wenhao Yang and

Lu Dang

Prediction of the Frictional Power Distribution in the Tire Contact Patch Based on an Empirical Tire Model and an Artificial Neural Network

Lars Muth,

Raphael Zharia,

Hürkan Sahin, and

Walter Sextro

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eISSN: 1945-5852

ISSN: 0090-8657

Estimation of Tire Wear and Traumatic Event Intensities

Abstract

Stress Analysis of the Multi‐Layered System of a Truck Tire

Abstract

Application of STOM to the Optimal Tire Contour Design by Introducing the Aspiration‐level Indicator

Abstract

Comparison Between Tire Rolling Resistance Measurements on a Flat Track and a Test Drum Under Non-Steady-State Conditions

Critical Plane Analysis of Surface-Proximal Fields for the Simulation of Thermo-Mechanical Wear

Enhancing Tire Model Parameterization for Rollover Simulation: A Validated Approach

Research on Fast and Efficient Virtual Sample Delivery Method of Tire Mechanical Characteristics

Prediction of the Frictional Power Distribution in the Tire Contact Patch Based on an Empirical Tire Model and an Artificial Neural Network