Effects of soil mechanical properties on the height and tractive performance of rubber grouser at different moisture contents

Shaikh, Sher Ali; Li, Yaoming; Ma, Zheng; Chandio, Farman Ali; Tunio, Mazhar Hussain; Ahmad, Feroz

doi:10.25165/j.ijabe.20221506.7137

Cited by 2 publications

(2 citation statements)

References 29 publications

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“…However, fluctuations in soil hydraulic conductivity were found to be associated with the first 10 years of restoration (Ren et al 2016). Previous studies have shown that soil moisture is closely related to soil physical properties such as infiltration performance, particle size distribution, and pore condition (Shaikh et al 2022;Yuan et al 2020) An other former studies reported that plant physiological parameters also very important because these parameters directly or indirectly its effect on soil physical properties (Solangi et al 2021;Tunio et al 2020). Salt sress also important factor which change the soil physical properties (Ali ).…”

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confidence: 95%

Assessment of Saturated Hydraulic Conductivity with Using Soil Particle Size Distribution: A Comparative Study of Constant Head and Falling Head Methods

2024

Global NEST Journal

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<p>The purpose of soil hydraulic conductivity is to retain soil water contents, and soil water pressure. In this study investigates two different methods to understand the soil hydraulic conductivity of loam and clay soils. The present research conducted a laboratory experiment to measure the saturated hydraulic conductivity (Ksat) using two different methods: the constant head and falling head methods. The constant head method utilized a soil column with a length of 8.5 cm, and three soil columns were occupied with various soil texture classes (%). The study results demonstrate that the classification of soil texture was predominantly sandy loam with porosity varying between 35%, 43%, and 50% within the clay soil category. Furthermore, the average value of Ksat for the soil samples using the constant head method was 0.00142 cm/sec, while the falling head method provides average values of 0.00123, 0.00172, and 0.00144 for sandy loam and 0.0000146 cm/sec for clay soil. It is concluded that the falling head method indicates greater accuracy, particularly evident in the concurrent analysis of three samples. This study suggested that determination of Ksat through laboratory method is suitable due to cost effectiveness and simplicity.</p>

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confidence: 95%

Assessment of Saturated Hydraulic Conductivity with Using Soil Particle Size Distribution: A Comparative Study of Constant Head and Falling Head Methods

2024

Global NEST Journal

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“…They facilitate controlled experiments, illuminating the interplay between various soil factors like type, density, and moisture content. Pioneering studies, such as those by Shaikh et al [9] and Oh et al [10], have harnessed soil bins to understand the profound effects of soil moisture content and soil compaction, respectively, on pressure sinkage and bearing capacity in the context of tracked vehicles. However, despite the wealth of knowledge derived from these studies, a gap remains in the realm of real-world field tests.…”

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confidence: 99%

Evaluation of Ground Pressure, Bearing Capacity, and Sinkage in Rigid-Flexible Tracked Vehicles on Characterized Terrain

Rauf,

Yang,

Ming

et al. 2023

Preprint

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Tracked vehicles play a significant role in engineering. Supportive trafficability is the salvation of any tracked vehicle. Terrain characteristics have a substantial impact on tracked vehicle mobility. We consider a tracked vehicle traversing known terrain in this paper. Vehicle-terrain interaction covers track-soil friction, soil compaction, traction, bearing capacity, and sinkage resistance. Identifying the soil parameters upon which a tracked vehicle moves will likely lead to more accurate traversability predictions, better traction control, and more accurate trajectory tracking. Conventional terramechanical models cannot adequately describe the connection between tracks and soil. Obtaining real-time measurements of the ground pressure of the soil as the unmanned tracked vehicle moves in the soil bin of dimensions 610 cm long, 245 cm wide, and 180 cm deep is challenging. The utilization of real-time data enables monitoring dynamic variations in ground pressure exerted by the operational components within a soil bin. A ground pressure monitoring device suitable for wet and dry soil was designed to reduce the accumulation of choked damp soil, clay, or mud in the sensor, sensor bracket, track, and other equipment. The device uses a pressure sensor, a data logger, and wireless measurement technology. It can simultaneously measure up to 8 pressure sensors and transmit measurement data remotely to a computer. This reduces the labor intensity of measuring personnel in muddy soil. Data analysis showed that the crewless tracked vehicle’s ground pressure and forward resistance increased with forward speed and vertical load. A law was also discovered explaining how ground pressure (sinkage) spreads between the trackpad and the soil. A general technique is presented in this paper that can be applied to any tracked vehicle. The conclusions show that the ground pressure measurement system works steadily in different humidity scenarios. In addition, the data that has been gathered can be transmitted to a computer using wireless communication methods.

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Effects of soil mechanical properties on the height and tractive performance of rubber grouser at different moisture contents

Cited by 2 publications

References 29 publications

Assessment of Saturated Hydraulic Conductivity with Using Soil Particle Size Distribution: A Comparative Study of Constant Head and Falling Head Methods

Assessment of Saturated Hydraulic Conductivity with Using Soil Particle Size Distribution: A Comparative Study of Constant Head and Falling Head Methods

Evaluation of Ground Pressure, Bearing Capacity, and Sinkage in Rigid-Flexible Tracked Vehicles on Characterized Terrain

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