Modeling and Verification of Rolling Resistance Torque of High-Speed Rubber Track Assembly Considering Hysteresis Loss

Kang, Liang; Tu, Qunzhang; Shen, Xinmin; Dai, Juying; Yin, Qiang; Xue, Jinmei; Xuan, Dong

doi:10.3390/polym15071642

Cited by 3 publications

(1 citation statement)

References 30 publications

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“…Research [19,23] indicates factors that have a significant impact on the internal motion resistance of rubber track running gear: track scrolling speed, diameters of driving, idler, and road wheels, as well as stiffness and damping of the track belt, depending on the type of rubber and structure of the track belt. These properties not only increase the track bending resistance but also cause the track belt to heat up and increase its temperature [24,25]. This may change its stiffness, lead to track elongation and shedding while driving, cause devulcanization, and accelerate the degradation of the track structure [26].…”

Section: Introductionmentioning

confidence: 99%

Susceptibility Modeling of a Rubber Track for Lightweight Mobile Robots

Szpaczyńska,

Łopatka,

Krogul

2023

Applied Sciences

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The elastic-damping properties of the rubber track structure can have a significant impact on the running gear performance of lightweight mobile robots. Taking these properties into account is particularly important for modeling obstacle negotiation and estimating the robot’s driving force. The article presents track susceptibility identification using both static and dynamic tests. The experimental results were used to validate the multi-body dynamics model of the rubber track for three modeling methods and for three track link number model variants. The methods and variants were compared by the accuracy of the susceptibility parameters obtained using them. The impact of the modeling methods on the track bending resistance simulations was also checked.

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Section: Introductionmentioning

confidence: 99%

Susceptibility Modeling of a Rubber Track for Lightweight Mobile Robots

Szpaczyńska,

Łopatka,

Krogul

2023

Applied Sciences

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Characterization of Viscoelastic Properties Considering the Nonrelaxation for Filled Rubber

Lin,

Huang,

Wang

et al. 2023

Advances in Polymer Technology

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The influence of nonrelaxation on the Payne effect of carbon black-filled rubber is studied. The prestrain is introduced in the Kraus model in the form of exponential growth. Combined with studies of temperature correlations, an explicit model for predicting the Payne effect at different prestrains and temperatures is developed. Dynamic mechanical analyses are performed to determine model parameters and validate the proposed model. To further verify the proposed model, the heat buildup of rubber columns under dynamic tensile load is tested and simulated. The comparison between simulated and measured data shows that the simulation considering nonrelaxation is more accurate than without considering. With the increase of prestrain, the accuracy of considering nonrelaxation becomes more obvious.

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