Effect of Particle Morphology on Stiffness, Strength and Volumetric Behavior of Rounded and Angular Natural Sand

Sharma, Aashish; Leib-Day, Alexia R.; Thakur, Mohmad Mohsin; Penumadu, Dayakar

doi:10.3390/ma14113023

Cited by 14 publications

(4 citation statements)

References 67 publications

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“…Particle morphology plays a crucial role in determining the interactions between particles, thereby influencing the mechanical response characteristics of geomaterials. For example, under low-stress conditions, such as stiffness [1] and compressibility [2], the macroscopic mechanical properties of sand soil particles are affected by particle morphology. Similarly, under high-stress conditions, particle breakage behaviour [3,4] is also influenced by particle morphology.…”

Section: Introductionmentioning

confidence: 99%

Morphological characterization of concave particle based on convex decomposition

Du,

Li,

Liu

et al. 2024

Meas. Sci. Technol.

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Particle morphology is an important factor affecting the mechanical properties of granular materials. However, it is difficult to quantify the morphology characteristics of the complex concave particle. Fortunately, complex particle can be segmented by convex decomposition, so a new shape index named convex decomposition coefficient (CDC) related to the number of segmentations is proposed. First, the pocket concavity was introduced to simplify the morphology hierarchically. Second, the cut weight linked to concavity was defined and convex decomposition was linearly optimised by maximizing the total cut weights. Third, the CDC was defined as the minimum block number where the block area ratio cumulatively exceeded 0.9 in descending order. Finally, the proposed index was used to quantify the particle morphology of coral sand. The results demonstrate that the CDC of coral sands mainly ranges from 2 to 6, with a positively skewed distribution. Furthermore, CDC correlates well with three shape indices: sphericity, particle size, and convexity. Larger CDC is associated with smaller sphericity, larger particle size, and smaller convexity. The index has certain scientific research value and practical significance.

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Section: Introductionmentioning

confidence: 99%

Morphological characterization of concave particle based on convex decomposition

Du,

Li,

Liu

et al. 2024

Meas. Sci. Technol.

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“…In recent years, there has been an accelerated movement towards energy transition, with numerous initiatives aiming to gradually replace the use of fossil energy resources with renewable sources, including photovoltaic energy [1]. Despite these advancements, the share of renewable energy in global energy consumption remains relatively low, representing less than 25% [2].…”

Section: Introductionmentioning

confidence: 99%

Extraction of Silica from Natural Deposits for the Production of Silicon in Photovoltaic Applications

Zeboudj*,

Hamzaoui

2023

J Biomed Res Environ Sci

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The growing demand for renewable energy sources has driven extensive research and development in photovoltaic technologies. Silicon, in the form of single-crystalline or multi-crystalline wafers, dominates the photovoltaic industry due to its well-established fabrication processes and desirable electrical characteristics Silicon (Si) has long been recognized as the primary material in photovoltaic devices due to its excellent electrical properties and abundance. In this work, we provide a comprehensive review of the elaboration process of silicon for photovoltaic applications. We discuss the various techniques used to produce high-quality silicon, the main steps of the silicon elaboration process can be summarized as: Raw material preparation: Quartz sand, primarily composed of Silicon dioxide (SiO2), undergoes thorough treatment to eliminate undesired impurities. It is subjected to processes such as washing, crushing, and purification to obtain high-quality raw material. Silica reduction: The SiO2 raw material is then subjected to a high-temperature chemical reaction to reduce it into metallurgical silicon (Si). Various methods, including carbothermic reduction, are employed for this process. In carbothermic reduction, carbon, typically in the form of coke, acts as a reducing agent to react with the silica and produce pure silicon. Also the purification methods, and crystal growth techniques. Furthermore, we highlight the importance of silicon's material properties and their impact on photovoltaic device performance. The aim of work is to provide a deeper understanding of the elaboration of silicon we explore our chemical methods used to produce high-quality silicon, including the purification techniques and silicon precursor synthesis and its crucial role in the development of efficient and sustainable photovoltaic technologies.

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“…Recently, with the application of the computer image processing technology, the accuracy of the particle shape measurements has been improved. An image-based method is known to be a relatively convenient and accurate method, which can obtain particle shape data by using image processing software [22][23][24][25][26][27][28][29][30][31][32][33][34]. Basically, particles are usually pictured finely or roughly and the photos are processed in specific software such as ImageJ [22,31,33] and OnDemand3D [34] to obtain the particle shape indices.…”

Section: Introductionmentioning

confidence: 99%

“…An image-based method is known to be a relatively convenient and accurate method, which can obtain particle shape data by using image processing software [22][23][24][25][26][27][28][29][30][31][32][33][34]. Basically, particles are usually pictured finely or roughly and the photos are processed in specific software such as ImageJ [22,31,33] and OnDemand3D [34] to obtain the particle shape indices. Some researchers used professional instruments to measure the particle shape of sand and review the particle shape effect on mechanical behavior such as QIC-PIC [23,24,29], Sedimaging [26], and CX2 [32] systems.…”

Section: Introductionmentioning

confidence: 99%

An Image-Based Gradation Calculation Method considering Crushed Stone Morphology

et al. 2022

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An image-based gradation calculation method considering crushed stone morphology is proposed in this paper. Eight kinds of crushed stones are prepared to figure out the effect of the particle shape on the gradation. All particles are pictured, and the photos are processed to obtain particle shape indices by using the image-based method. A minimum Feret diameter analysis method is used, which can reflect the influence of the particle shape. Then, the paper proposes a developed overall regularity to describe the morphology of particles, which is calculated by the weight of three shape indices: aspect ratio, convexity, and sphericity. The developed overall regularity is applied on gradation curve equations to provide an image-based gradation calculation method. And the provided method is validated to well fit the actual case. Furthermore, the method is also applied on two examples of gradation designation and the result proves to be feasible and practicable.

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Effect of Particle Morphology on Stiffness, Strength and Volumetric Behavior of Rounded and Angular Natural Sand

Cited by 14 publications

References 67 publications

Morphological characterization of concave particle based on convex decomposition

Morphological characterization of concave particle based on convex decomposition

Extraction of Silica from Natural Deposits for the Production of Silicon in Photovoltaic Applications

An Image-Based Gradation Calculation Method considering Crushed Stone Morphology

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