Hamed Fathi scite author profile

This paper aimed to investigate the cornering characteristics of a Regional Haul Steer II, RHS 315/80 R22.5 truck tire traveling on a dry, hard surface using the Finite element analysis (FEA). This research was carried out using commercial Finite Element software and Pam-Crash in an Explicit Environment. A finite element truck tire model was developed to apply the tire terrain cornering condition. The concentrated loads and boundary conditions for the rim and wheel were applied to the model. The rubber material was defined using the Mooney–Rivlin model. The truck tire cornering operating conditions, including three different speeds with respect to various positive slip angles, were investigated. Several simulations were repeated at various operating conditions, including three different inflation pressures and three different vertical loads. Subsequently, the tire lateral force was computed using the local and global frame coordinates. Additionally, the self-aligning moment was extracted from the tire cross-section at each operating condition. Finally, a comparison between the simulation results showed that the tire lateral force was highly sensitive to the variation of the slip angles at the higher domain, and also that the tire inflation pressure, regardless of the speed, was considered to be one of the main parameters directly affecting the tire-cornering properties.

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Investigating the Code Requirements and Influential Factors on the Determination of the Percentage of Maximum and Minimum Shear Reinforcement for Reinforced Concrete Deep Beams

Rad

Kelareh²,

Fathi³

et al. 2022

Iran J Sci Technol Trans Civ Eng

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Hamed Fathi

A new approach for crack detection in plate structures using an integrated extended finite element and enhanced vibrating particles system optimization methods

An Advancement in Truck-Tire–Road Interaction Using the Finite Element Analysis

Investigating the Code Requirements and Influential Factors on the Determination of the Percentage of Maximum and Minimum Shear Reinforcement for Reinforced Concrete Deep Beams

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