Static Frictional Contact of the Space Shuttle Nose-Gear Tire

Tanner, John A.; Martinson, Veloria J.; Robinson, M. P.

doi:10.2346/1.2139544

Cited by 7 publications

(2 citation statements)

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“…In addition, the analytical method is another way to mathematically address the interface friction [17,18,19,20,21]. Brush tire model and vibration-based methods have been adopted to estimate the friction coefficient in the previous researches [22].…”

Section: Introductionmentioning

confidence: 99%

Finite Element Method-Based Skid Resistance Simulation Using In-Situ 3D Pavement Surface Texture and Friction Data

Peng

Zhan

et al. 2019

Materials

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Skid resistance is an important surface characteristic that influences roadway safety. Various studies have been performed to understand the interaction between pavement and tires through numerical simulation for skid resistance prediction. However, the friction parameters required for simulation inputs are generally determined by objective assumptions. This paper develops a finite element method (FEM)-based skid resistance simulation framework using in-situ 3D pavement surface texture and skid resistance data. A 3D areal pavement model is reconstructed from high resolution asphalt pavement surface texture data. The exponential decay friction model is implemented in the simulation and the interface friction parameters required for the simulation are determined using the binary search back-calculation approach based on a trial process with the desired level of differences between simulated and observed skid numbers. To understand the influence of texture characteristics on interface friction parameters, the high-resolution 3D texture data is separated into macro- and micro-scales through Butterworth filtering and various areal texture indicators are calculated at both levels. Principal component analysis (PCA) regression analysis is conducted to quantify the relationship between various texture characteristics and the interface friction parameters. The results from this study can be used to better prepare the inputs of friction parameters for FEM simulation.

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Section: Introductionmentioning

confidence: 99%

Finite Element Method-Based Skid Resistance Simulation Using In-Situ 3D Pavement Surface Texture and Friction Data

Peng

Zhan

et al. 2019

Materials

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“…In general, FE simulations of the tire-pavement interaction include three main aspects, namely, modeling of pavement roughness and structure, modeling of tire structure and modeling of tire-pavement contacts ( 11 ). Tanner ( 12 ) presented a numerical model for the solution of the frictional contact problems for the tire-pavement interaction. Davis ( 13 ) proposed a numerical model primarily to study tire mechanical properties.…”

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confidence: 99%

Finite Element Studies of Skid Resistance under Hot Weather Condition

Tang

Anupam

Kasbergen

et al. 2018

Transportation Research Record: Journal of the Transportation R

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The skid resistance of a pavement surface is an important characteristic that influences traffic safety. Previous studies have shown that skid resistance varies with temperature. However, relatively limited work has been carried out to study the effect of temperature on skid resistance in hot climates. Recent developments in computing and computational methods have encouraged researchers to analyze the mechanics of the tire-pavement interaction phenomenon. The aim of this paper is to develop a thermo-mechanical tire pavement interaction model that would allow more robust and realistic modeling of skid resistance using the Finite Element (FE) method. The results of this model were validated using field tests that were performed in the State of Qatar. Consequently, the validated FE model was used to quantify the effect of factors such as speed, inflation pressure, wheel load, and ambient temperature on the skid resistance/braking distance. The developed model and analysis methods are expected to be valuable for road engineers to evaluate the skid resistance and braking distance for pavement management and performance prediction purposes.

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