Effect of Biomimetic Surface Geometry, Soil Texture, and Soil Moisture Content on the Drag Force of Soil-Touching Parts

Salem, Abouelnadar El.; Wang, Hongchang; Gao, Yuan; Zha, Xiantao; Abdeen, Mohamed; Zhang, Guozhong

doi:10.3390/app11198927

Cited by 9 publications

(2 citation statements)

References 25 publications

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“…Its mechanical properties, functions and forms can better meet people's needs for the expected performance, special functions, and aesthetic effects of various products [1,2]. With the development of the global economy, science and technology, and people's pursuit of diversification of industry and life, many more applications of curved surfaces have arisen, for example, architecture [3][4][5], transportation [6][7][8], aerospace [9][10][11], medical devices [12][13][14] and agricultural machinery fields [15][16][17], which cover almost all fields involving physical designs, devices, or objects.…”

Section: Introductionmentioning

confidence: 99%

Research Progress on Curved Plates in China: Applications in Architecture

Song

Wang

Chen³

et al. 2022

Applied Sciences

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Curved surfaces can give plates a unique aesthetic effect and physical advantages in acoustics and optics. Assembling such curved plates can greatly improve the image of buildings and enrich their functions. It is thus not surprising to notice that their wide applications in designed or completed buildings in China have become a trend. Thus, this study offers a comprehensive summary of the application progress of curved plates in the architectural field from three aspects: image expression, acoustic characteristics, and optical characteristics. On this basis, future directions are proposed. The main findings or suggestions are as follows: (1) climate harshness has increased recently, and the safety of structures and materials and the coupling effect of the two must be fully considered when designing the shapes of curved surface buildings; (2) research on the mechanism and numerical calculation of curved diffuser systems with different sizes and curvatures needs to be further developed; and (3) experimental studies of various and complex curved plates and different conditions to explore their optimal reflectivity, transmittance, absorptivity, and other optical properties will be an important development direction.

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Section: Introductionmentioning

confidence: 99%

Research Progress on Curved Plates in China: Applications in Architecture

Song

Wang

Chen³

et al. 2022

Applied Sciences

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“…For digging devices, digging depth and overcoming resistance performance are determined by the shape size and structural form of the shovel. Vibratory [6,7], bionic [8,9], curved [10,11], and other digging shovels are widely studied and applied to sticky soils to achieve resistance reduction, thus reducing the power consumption of the whole machine. Digging depth is an important indicator, as the digging depth increases, the power consumption increases, the probability of potatoes not being harvested decreases.…”

Section: Introductionmentioning

confidence: 99%

Design and Experimental Study of Potato-Soil Separation Device for Sticky Soils Condition

Huang

Qiu

et al. 2021

Applied Sciences

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The potato-soil separation device comprising five function areas (i.e., shearing, bending, throwing, cleaning, and conveying) was developed to address the mentioned problems (e.g., soil with high moisture content, large viscosity, and poor separation efficacy) in the harvesting process for winter idle paddy fields of Southern China. Given the kinetic analyses for the potato-soil mixture of five function areas, the crucial factors of the effect of potato-soil separation were determined. Subsequently, the orthogonal test of 4 factors and 3 levels was performed, and the percentage of small soil λ, the percentage of soil adhering to potato tuber γ, and damage rate of potato tuber K were adopted as assessment indexes. Regression analyses and programming for the orthogonal test result were conducted to optimize the device run parameters, and the optimal run parameters included the rotational speed of the soil-crushing mechanism of 84.18 r/min, linear velocity of second-stage lifting chain of 0.75 m/s, and inclination angle of lifting chain of 15.87°. The field experiments were performed with the modified potato harvester. As indicated from the result, the visible potato rate was 94.31% and damage rate of potato was 0.89%, and the requirement of the national standard was satisfied. This study presented technical feasibility data and equipment for potato-soil separation under sticky soils condition.

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Biomimetic approach in surface modification for improvement in the mechanical properties of implements

Deshmukh,

Gogte

2024

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Effect of Biomimetic Surface Geometry, Soil Texture, and Soil Moisture Content on the Drag Force of Soil-Touching Parts

Cited by 9 publications

References 25 publications

Research Progress on Curved Plates in China: Applications in Architecture

Research Progress on Curved Plates in China: Applications in Architecture

Design and Experimental Study of Potato-Soil Separation Device for Sticky Soils Condition

Biomimetic approach in surface modification for improvement in the mechanical properties of implements

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