Properties of Basalt Fiber Core Rods and Their Application in Composite Cross Arms of a Power Distribution Network

Liu, Yunpeng; Zhang, Mingjia; Liu, Hechen; Lin, Tao; Liu, Jie; Fu, Chuanfu; Fu, Xiaotao

doi:10.3390/polym14122443

Cited by 7 publications

(2 citation statements)

References 24 publications

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“…Studies related to the study of the mechanical properties of basalt composites and the use of this material for various products and structures have been the subject of considerable attention of many Russian and foreign scientists, for example [5][6][7][8][9][10][11][12][13]. Basalt composite has serious potential for its widest application, offering an excellent cost-quality ratio, high resistance to aggressive environments of alkalis and acids, good dielectric properties, heat resistance, radio transparency and simple manufacturing technology for various products.…”

Section: Literature Reviewmentioning

confidence: 99%

Effect of gamma irradiation on morphology and local elemental composition of basalt-based composite material

Oniskiv,

Stolbov,

Ibragimova

2023

JDS

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Scanning electron microscopy (SEM) was used to examine the polished surface of samples made of basalt-based composite material before and after gamma irradiation. Morphology and local elemental composition changes in binder, filler and boundary of composite components depending on radiation dose were revealed. The samples were irradiated within a dose range of 5 to 15 Mrad. It has been shown that at radiation doses up to 10 Mrad, new intermolecular bonds are formed and the material is strengthened. With large doses of radiation, the destruction of bonds and the formation of a gas phase is observed. This results in softening of the composite. A sufficiently large amount of nitrogen has been detected in the highly irradiated binder. A possible mechanism has been proposed to explain this phenomenon.

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Section: Literature Reviewmentioning

confidence: 99%

Effect of gamma irradiation on morphology and local elemental composition of basalt-based composite material

Oniskiv,

Stolbov,

Ibragimova

2023

JDS

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“…In many areas, a latticed transmission tower is usually used due to their ability to withstand higher wind loads and various land topography surfaces. The latticed transmission tower has been widely used in Malaysia since 1929 [4][5][6]. The latticed tower is divided into several sections and components, which include a cross arm, peak, boom tower body, and cage.…”

Section: Introductionmentioning

confidence: 99%

Conceptual Design of a Sustainable Bionanocomposite Bracket for a Transmission Tower’s Cross Arm Using a Hybrid Concurrent Engineering Approach

et al. 2023

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This research article elaborates on the conceptual design development of a sustainable bionanocomposite bracket for bracing installation in composite cross arm structures. The product design development employed the hybrid techniques of the theory of inventive problem solving (TRIZ), morphological chart, and analytic network process (ANP) methods. The current bracket design in the braced composite cross arm is composed of heavy and easy-to-rust steel material. Therefore, this research aims to develop a new bionanocomposite bracket design to replace the heavy and easy-to-rust steel bracket. This research also aims to implement a concurrent engineering approach for the conceptual design of bionanocomposite bracket installation to enhance the overall insulation performance. A preliminary process was implemented, which covered the relationship between the current problem of the design and design planning to build a proper direction to create a new design product using TRIZ. Later, the TRIZ inventive solution was selected based on the engineering contradiction matrix with specific design strategies. From the design strategies, the results were refined in a morphological chart to form several conceptual designs to select the ANP technique to systematically develop the final conceptual design of the bionanocomposite bracket for the cross arm component. The outcomes showed that Concept Design 1 scored the highest and ranked first among the four proposed designs. The challenges of the bionanocomposite bracket design for cross arm structures and the improvement criteria in concurrent engineering are also presented.

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Interfacial and mechanical properties of silane coupling agent interface‐modified basalt fiber reinforced thermoplastic polypropylene resin composites

Zhang,

Sun,

Huang

et al. 2024

Polymer Composites

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Basalt fiber (BF)‐reinforced thermoplastic composites are not only made with little environmental pollution and recyclable, with obvious environmental value, but also have excellent mechanical properties, excellent resistance to high temperature and corrosion. In the present study, modifications to the interface of BF were performed using monoaminosilane and diaminosilane agents, specifically 3‐aminopropyltrimethoxysilane (SATMS) and N‐(2‐aminoethyl)‐3‐aminopropyltrimethoxysilane (DATMS), along with a urea‐modified silane, 3‐urethylpropyltrimethoxysilane (SUTMS). These modifications were evaluated against one another. Utilizing a film lamination technique, composites of BF and thermoplastic polypropylene resin (BF‐PP) were fabricated. Analytical assessments included examining the modified fibers' surface morphology, chemical structure, and roughness. Mechanical assessments of the modified BF‐PP composites were conducted, revealing that composites treated with the urea‐inclusive silane agent (BF/SUTMS‐PP) exhibited superior performance, enhancing flexural strength by 26%, tensile strength by 22.4%, and notched Izod impact strength by 21%. However, because of the lower thermal stability of SUTMS, when the processing temperature exceeds 240°C, there is a decomposition of the heated Y‐base end, thus affecting the mechanical properties of BF/SUTMS‐PP.Highlights The basalt fibers were modified by SATMS, DATMS, and SUTMS. The urea‐containing silane coupling agent has the strongest enhancement effect. Composite reinforced with SUTMS‐BF displayed the best mechanical properties.

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Properties of Basalt Fiber Core Rods and Their Application in Composite Cross Arms of a Power Distribution Network

Cited by 7 publications

References 24 publications

Effect of gamma irradiation on morphology and local elemental composition of basalt-based composite material

Effect of gamma irradiation on morphology and local elemental composition of basalt-based composite material

Conceptual Design of a Sustainable Bionanocomposite Bracket for a Transmission Tower’s Cross Arm Using a Hybrid Concurrent Engineering Approach

Interfacial and mechanical properties of silane coupling agent interface‐modified basalt fiber reinforced thermoplastic polypropylene resin composites

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