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Evaluation of the Effect of Impregnation Coatings on Concrete Protection 评估浸渍涂层对混凝土保护的影响
Q4 Physics and Astronomy Pub Date : 2024-03-25 DOI: 10.4028/p-gei8wj
Lukáš Sedlaček, J. Fládr, I. Broukalová
The paper deals with evaluation and comparison of the effect of two substances on reduction of concrete absorbability and increasing the durability. In four tests the effect of hydrophobic impregnation of investigated substances on various properties of test specimens was examined. The penetration depth, the rate of water absorption and alkali resistance, drying ratio and weight loss after freeze-and-thaw cycles in sodium chloride solution were the followed parameters. The positive effect of both substances on the final durability of concrete was confirmed.
本文论述了两种物质对降低混凝土吸水性和提高耐久性效果的评估和比较。在四次试验中,考察了所研究物质的疏水浸渍对试样各种性能的影响。试验参数包括渗透深度、吸水率和耐碱性、干燥比以及在氯化钠溶液中冻融循环后的重量损失。这两种物质对混凝土最终耐久性的积极影响得到了证实。
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引用次数: 0
Composite Conductive Carbon-Polymer Paints as a Replacement for the “Faraday Cage” 替代 "法拉第笼 "的碳-聚合物复合导电涂料
Q4 Physics and Astronomy Pub Date : 2024-03-25 DOI: 10.4028/p-way26a
V. Barsukov, I. Senyk, Borys Haliuk, Yaroslav Kuryptia, Volodymyr H Khomenko, O. Butenko, O. Chernysh, Iryna Makyeyeva, Mirella Suchea, Emmanuel Koudoumas
We have developed composite paint based on graphite, carbon black and some other not expensive components, which can be used as a clay court for sustainable buildings and electronic devices. This paint can reduce sufficiently the problem, which is related to the effects of electromagnetic radiation (EMR) on human health. Cellular and radiotelephones, as well as their broadcast antennas, especially which use of the 5G, 6G communication system, may pose a high risk of cancer, reproductive disorders, memory, cellular stress, neurological and mental disorders. The medical disorders are already often experienced by servicemen working at radar stations, observation posts and other similar facilities associated with high-frequency EMR. The effect of EMR is especially dangerous for children of preschool and school age, so, it is necessary to use similar paints first of all for such buildings. Carbon-based composite paints have been developed, which can be used as a clay court for sustainable buildings and electronic devices. This paint can reduce sufficiently the problem, which is related to the effects of electromagnetic radiation (EMR) on human health. Cellular and radiotelephones, as well as their broadcast antennas, especially which use of the 5G, 6G communication system, may pose a high risk of cancer, reproductive disorders, memory, cellular stress, neurological and mental disorders. The medical disorders are already often experienced by servicemen working at radar stations, observation posts and other similar facilities associated with high-frequency EMR. The effect of EMR is especially dangerous for children of preschool and school-age, so, it is necessary to use similar paints first of all for such buildings. It is also necessary to note the significant impact of EMR on electronic equipment. First of all, this is a well-known problem of providing the so-called "electronic compatibility", when simultaneously operating different electronic equipment (e.g., thermal imager and radio transmitter) interfere with each other. A number of scientific developments have been implemented and work is underway under the NATO SfS international grant in this area.
我们已经开发出基于石墨、炭黑和其他一些并不昂贵的成分的复合涂料,可用作可持续建筑和电子设备的粘土球场。这种涂料可以充分减少电磁辐射(EMR)对人体健康的影响。手机和无线电话及其广播天线,尤其是使用 5G、6G 通信系统的手机和无线电话,可能会引发癌症、生殖系统疾病、记忆力、细胞压力、神经和精神疾病等高风险。在雷达站、观察哨和其他与高频电磁辐射有关的类似设施工作的军人已经经常出现这些病症。电磁辐射对学龄前和在校儿童的危害尤为严重,因此有必要首先在此类建筑中使用类似的涂料。目前已开发出碳基复合涂料,可用作可持续建筑和电子设备的粘土球场。这种涂料可以充分减少电磁辐射(EMR)对人体健康的影响。手机和无线电话及其广播天线,尤其是使用 5G、6G 通信系统的手机和无线电话,可能会引发癌症、生殖系统疾病、记忆力、细胞压力、神经和精神疾病等高风险。在雷达站、观察哨和其他与高频电磁辐射有关的类似设施工作的军人已经经常出现这些病症。电磁辐射对学龄前和学龄儿童的影响尤为危险,因此有必要首先在此类建筑中使用类似的涂料。还必须注意到电磁辐射对电子设备的重大影响。首先,这是一个众所周知的所谓 "电子兼容性 "问题,即同时运行的不同电子设备(如热成像仪和无线电发射机)会相互干扰。在北约 SfS 国际赠款的资助下,在这一领域已经取得了一些科学进展,并正在开展工作。
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引用次数: 0
Selected Mechanical Properties of Concrete with Regard to the Type of Steel Fibers 与钢纤维类型有关的部分混凝土力学性能
Q4 Physics and Astronomy Pub Date : 2024-03-25 DOI: 10.4028/p-ag0dte
Radoslav Gandel
Not only in the construction industry, but also in other technical areas, efforts are being made to reduce the costs or difficulty of producing a certain product and at the same time to improve some of its properties. With the development of modern technologies come new possibilities in the development and production of such products. Fiber reinforced concrete is one of them. Fiber reinforced concrete does not fully replace reinforced concrete, but even with a reduction in price and production time, it has a certain part of the properties of reinforced concrete, which can be used for structural elements with specifically required properties. The subject of the presented paper is the testing and comparison of compressive and split tensile strength of steel fiber reinforced concrete (SFRC) with steel fibers MasterFiber 482 with dosage 60 kg/m3 and 90 kg/m3 and SFRC with 5 different types of steel fibers with dosage 50 kg/m3, where dosage 0 kg/m3 represents ordinary portland concrete (OPC). Submitted paper is also focused on specific test methods of concrete, such as measurement of resistance to frost and defrosting chemicals and pressure water seepage.
不仅在建筑业,在其他技术领域,人们也在努力降低生产某种产品的成本或难度,同时改进其某些性能。随着现代技术的发展,这类产品的开发和生产也有了新的可能性。纤维增强混凝土就是其中之一。纤维增强混凝土并不能完全取代钢筋混凝土,但即使在降低价格和缩短生产时间的情况下,它也具有钢筋混凝土的部分性能,可用于具有特定性能要求的结构构件。本文的主题是测试和比较钢纤维加固混凝土(SFRC)的抗压和劈裂拉伸强度,其中钢纤维 MasterFiber 482 的用量为 60 千克/立方米和 90 千克/立方米,SFRC 的用量为 50 千克/立方米,其中 0 千克/立方米的用量代表普通硅酸盐混凝土(OPC)。本文还重点介绍了混凝土的具体测试方法,如抗冻和抗解冻化学品以及压力渗水的测量方法。
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引用次数: 0
Replacement of Fine Aggregates in Fine-Grained Concrete by Waste Material from Cetris Boards Production 用生产 Cetris 板的废料替代细粒混凝土中的细骨料
Q4 Physics and Astronomy Pub Date : 2024-03-25 DOI: 10.4028/p-smci67
Kateřina Matýsková, Vlastimil Bílek, Lukáš Procházka, Radka Hédlová, Marie Horňáková
Given the increasing amount of waste in the world, it is essential not only to reduce waste generation but also to explore potential uses for the waste produced. This includes waste generated in the production of building materials. The construction industry is a significant contributor to global waste and carbon dioxide emissions, making it crucial to address these issues for sustainable development. During the production of CETRIS boards, approximately 7 600 tons of waste are generated annually. One of the waste materials obtained during the board processing is a fine powder. This waste material can potentially be reused in two ways: it can be incorporated back into the process of producing CETRIS boards or utilized in the production of building materials. This research project focuses on examining the possibility of using this waste material as a substitute for fine aggregate in fine-grained concrete. To investigate its viability, the waste material underwent testing for dry density and absorbency. Subsequently, a reference mixture and concretes with different replacement rates (50%, and 100%) of natural fine aggregate were produced to create self-healing concrete mixtures. The study examined the density, and compressive strength of these concrete samples 28 days after concreting. The findings indicated that as the amount of waste material in the concrete increased, the measured properties decreased. However, despite the decrease, the compressive strengths of the concrete remained very high, leading to the classification as high-strength concrete. Further exploration and optimization of the replacement rates could lead to the development of environmentally friendly and sustainable building materials.
鉴于世界上的废物数量不断增加,不仅要减少废物的产生,还要探索废物的潜在用途。这包括在建筑材料生产过程中产生的废物。建筑业是全球废物和二氧化碳排放的重要来源,因此解决这些问题对于可持续发展至关重要。在 CETRIS 板材的生产过程中,每年大约会产生 7 600 吨废弃物。板材加工过程中产生的废料之一是细粉末。这种废料可以通过两种方式进行再利用:将其重新用于 CETRIS 板材的生产过程或用于建筑材料的生产。本研究项目的重点是研究将这种废料用作细粒混凝土中细骨料替代品的可能性。为研究其可行性,对废料进行了干密度和吸水性测试。随后,生产了一种参考混合物和不同天然细骨料替代率(50% 和 100%)的混凝土,以制作自愈合混凝土混合物。研究检测了这些混凝土样本在浇筑 28 天后的密度和抗压强度。研究结果表明,随着混凝土中废料含量的增加,测得的性能也随之降低。尽管如此,混凝土的抗压强度仍然很高,因此被归类为高强度混凝土。对替代率的进一步探索和优化可促进环境友好型和可持续建筑材料的开发。
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引用次数: 0
High Performance and Ultra-High Performace Fibre Reinforced Concrete with Stabilized Homogeneity 具有稳定均质性的高性能和超高性能纤维增强混凝土
Q4 Physics and Astronomy Pub Date : 2024-03-25 DOI: 10.4028/p-47eirw
L. Musil, Jan Vesecký, Jan Kubát, Jan Vodička
This paper describes the segregation of fibres in high performance and high strength concretes. It focuses on both laboratory and practical conditions. It compares different mixtures produced and processed in the laboratory and in the precast concrete company. Two methods are chosen in the paper to avoid fibre segregation. The first method is a suitable mix design considering the water/cement ratio and the amount of superplasticizer. The second method is the addition of synthetic fibres to the mixture while maintaining sufficient workability. The paper examines the consistence of each mixture according to the concrete placement location, segregation of fibres in the fresh mixture and hardened composite. Both methods under laboratory and practical conditions have shown a positive impact on the reduction of segregation of steel fibres in the mixture. Simultaneously, the strength properties of all mixtures were compared, which depended mainly on the type of synthetic fibres used.
本文介绍了高性能和高强度混凝土中的纤维离析。重点关注实验室和实际条件。它比较了实验室和预制混凝土公司生产和处理的不同混合物。本文选择了两种方法来避免纤维离析。第一种方法是在考虑水灰比和超塑化剂用量的基础上进行适当的混合设计。第二种方法是在混合物中添加合成纤维,同时保持足够的可加工性。本文根据混凝土浇筑位置、纤维在新鲜混合物和硬化复合材料中的离析情况,研究了每种混合物的稠度。在实验室和实际条件下,这两种方法都对减少混合物中的钢纤维离析产生了积极影响。同时,对所有混合物的强度特性进行了比较,这主要取决于所用合成纤维的类型。
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引用次数: 0
3D Printed Cement Composites Testing 3D 打印水泥复合材料测试
Q4 Physics and Astronomy Pub Date : 2024-03-25 DOI: 10.4028/p-qfstv6
Denisa Jancarikova, I. Khongová, Petr Bibora, Halina Szklorzova
Testing of the properties of cement mortars for 3D printing has not been standardized yet. Manufacturers of dry mixes declares tensile strength and compressive strength, but these properties are determined on standard beams for cement mortars, and their values may differ from the material actually formed by the 3D printing method. Another factor affecting strength is the printing process itself, where different printing machines require different consistencies and therefore different amount of water. Last but not least, it is necessary to take into account the different properties of the printed material depending on the direction of testing. Presented article brings results of determination the compressive strength, flexural tensile strength, splitting tensile strength and uniaxial tensile strength of the cement mortar from 3D printing loaded in different directions in relation to the axis of the print and comparing them with the parameters determined on standard beams made of the same material. A commercially produced dry mixture was used. Rectangular object was printed. Before the actual printing and also the fresh mixture was taken from the print head directly into the molds for the production of standard beams 40×40×160 mm. The printed object and the beams were placed in a water environment after 24 hours and the properties were determined at the age of 28 days. Cubes with dimensions of 40×40×40 mm and beams of 40×40×160 mm were subsequently cut from the printed object. The results of the testing point to a relatively large variability of the strength characteristics not only according to the direction of the load forces, but also in different places of the printed object (samples were taken in the bottom part, in the middle and in top of the printed object). Strengths of the standard beams were significantly higher than strengths of samples cut out from 3D printed object.
用于 3D 打印的水泥砂浆的性能测试尚未标准化。干混料制造商宣称具有抗拉强度和抗压强度,但这些性能是根据水泥砂浆的标准梁确定的,其数值可能与 3D 打印方法实际形成的材料不同。另一个影响强度的因素是打印过程本身,不同的打印机器需要不同的稠度,因此需要不同的水量。最后但并非最不重要的一点是,根据测试方向的不同,有必要考虑到打印材料的不同特性。本文介绍了三维打印水泥砂浆的抗压强度、挠曲拉伸强度、劈裂拉伸强度和单轴拉伸强度的测定结果,这些强度是在与打印轴线相关的不同方向上加载的,并与相同材料制成的标准梁上测定的参数进行了比较。使用的是市售的干混合物。打印的是矩形物体。在实际打印之前,将新鲜混合物从打印头直接放入用于生产 40×40×160 毫米标准横梁的模具中。24 小时后,将印刷好的物体和横梁置于水环境中,28 天后测定其性能。随后从打印物体上切割出尺寸为 40×40×40 毫米的立方体和 40×40×160 毫米的横梁。测试结果表明,强度特性的变化相对较大,不仅取决于载荷力的方向,还取决于印刷物体的不同位置(在印刷物体的底部、中部和顶部取样)。标准横梁的强度明显高于从三维打印物体上切割下来的样品的强度。
{"title":"3D Printed Cement Composites Testing","authors":"Denisa Jancarikova, I. Khongová, Petr Bibora, Halina Szklorzova","doi":"10.4028/p-qfstv6","DOIUrl":"https://doi.org/10.4028/p-qfstv6","url":null,"abstract":"Testing of the properties of cement mortars for 3D printing has not been standardized yet. Manufacturers of dry mixes declares tensile strength and compressive strength, but these properties are determined on standard beams for cement mortars, and their values may differ from the material actually formed by the 3D printing method. Another factor affecting strength is the printing process itself, where different printing machines require different consistencies and therefore different amount of water. Last but not least, it is necessary to take into account the different properties of the printed material depending on the direction of testing. Presented article brings results of determination the compressive strength, flexural tensile strength, splitting tensile strength and uniaxial tensile strength of the cement mortar from 3D printing loaded in different directions in relation to the axis of the print and comparing them with the parameters determined on standard beams made of the same material. A commercially produced dry mixture was used. Rectangular object was printed. Before the actual printing and also the fresh mixture was taken from the print head directly into the molds for the production of standard beams 40×40×160 mm. The printed object and the beams were placed in a water environment after 24 hours and the properties were determined at the age of 28 days. Cubes with dimensions of 40×40×40 mm and beams of 40×40×160 mm were subsequently cut from the printed object. The results of the testing point to a relatively large variability of the strength characteristics not only according to the direction of the load forces, but also in different places of the printed object (samples were taken in the bottom part, in the middle and in top of the printed object). Strengths of the standard beams were significantly higher than strengths of samples cut out from 3D printed object.","PeriodicalId":11306,"journal":{"name":"Defect and Diffusion Forum","volume":" 27","pages":""},"PeriodicalIF":0.0,"publicationDate":"2024-03-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"140383633","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
引用次数: 0
Effect of the Non-Linear Radiative Unsteady Mixed Convective Flow over a Curved Stretching Surface with Soret and Dufour Effects: A Numerical Study 具有索雷特和杜富尔效应的弯曲伸展表面上的非线性辐射非稳态混合对流的影响:数值研究
Q4 Physics and Astronomy Pub Date : 2024-01-09 DOI: 10.4028/p-8dz1ax
Temjennaro Jamir, H. Konwar
The subject of unsteady convective flow with non-linear thermal radiation has become an important issue of research, due to its implications in advanced energy conversion systems operating at high temperature, solar energy technology and chemical process at high operation temperature. Due to the importance of this issue, a time dependent incompressible viscous fluid flow, heat and mass transfer over a curved stretching surface has been numerically analysed by taking into account the heat flux due to concentration gradient and mass flux due to temperature gradient. Together with this the Rosseland approximation is being employed for the nonlinear thermal radiation impact in presence of thermal slip. With the aid of non-dimensional variables and the corresponding physical boundary conditions, the leading nonlinear momentum, energy, and species equations are converted into a set of coupled ordinary differential equations. These equations are then resolved using the MATLAB bvp4c solver. The stability of the numerical technique has been verified and compared with available literatures. The resultant parameters of engineering interest and the boundary layer flow field parameters and have been presented using tables and graphically plots. The study concludes that for lesser curvature parameter (0.5≤K≤0.7) the surface drag force, heat and mass transfer rates can improve by about 9.59%, 2.87% and 1.67% each respectively. The presence of the temperature ratio parameter and the non-linear thermal radiation are found to greatly influence the temperature profile and the heat transfer rate of the system. Results show that the heat transfer rate improves by about 24.39% and 16.66% for varying non-linear thermal radiation (1≤Rd≤1.5) and temperature ratio parameter (1.2≤θw≤1.4) respectively. Results obtained also show that improving the thermal slip parameter (0.4≤L≤0.6) can reduce heat transfer rate by about 13.62% and reduce the surface temperature profile.
具有非线性热辐射的非稳态对流已成为一个重要的研究课题,因为它对在高温下运行的先进能源转换系统、太阳能技术和在高运行温度下的化学过程都有影响。鉴于这一问题的重要性,通过考虑浓度梯度引起的热通量和温度梯度引起的质量通量,对弯曲拉伸表面上与时间相关的不可压缩粘性流体流动、热量和质量传递进行了数值分析。此外,还采用了罗斯兰德近似法来计算存在热滑移时的非线性热辐射影响。借助非维度变量和相应的物理边界条件,主要的非线性动量、能量和物种方程被转换成一组耦合常微分方程。然后使用 MATLAB bvp4c 求解器对这些方程进行求解。数值技术的稳定性已得到验证,并与现有文献进行了比较。研究结果中的工程参数和边界层流场参数已通过表格和图解形式呈现。研究得出结论,当曲率参数(0.5≤K≤0.7)较小时,表面阻力、传热和传质率可分别提高约 9.59%、2.87% 和 1.67%。温度比参数和非线性热辐射的存在对系统的温度曲线和传热速率有很大影响。结果表明,改变非线性热辐射(1≤Rd≤1.5)和温度比参数(1.2≤θw≤1.4),传热率分别提高了约 24.39% 和 16.66%。所得结果还表明,提高热滑移参数(0.4≤L≤0.6)可将传热率降低约 13.62%,并减小表面温度曲线。
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引用次数: 0
Wear of the 3D Printed Polylactic Acid Elements Sliding against the Synthetic Resins at the Higher Speed Friction 3D 打印聚乳酸元件与合成树脂在高速摩擦下的磨损情况
Q4 Physics and Astronomy Pub Date : 2024-01-09 DOI: 10.4028/p-akaa6p
Yuh-Ping Chang, C. Liu, Jin Chi Wang, Kao Wei Chen, Mei Fen Suyeh
Since the requirement of high dust-free levels, it is necessary to develop the technologies with anti-wear and low dust generation for drive elements that can be quickly printed. Polylactic acid and synthetic resins are often paired with each other for the 3D printed driven elements. To achieve "smooth friction", the adhesion wear under dry friction conditions should be reduced. To achieve a "high dust-free level", the anti-wear of the paired elements under higher speed friction should be improved to reduce the generation of abrasive dust. Therefore, wear of the 3D printed polylactic acid elements sliding against the synthetic resins at the high speed friction are investigated in this paper.
由于对无尘水平的要求很高,因此有必要为可快速打印的驱动元件开发具有抗磨损和低粉尘生成的技术。聚乳酸和合成树脂通常被搭配用于 3D 打印驱动元件。为实现 "平滑摩擦",应减少干摩擦条件下的粘附磨损。为实现 "高无尘水平",应提高配对元件在高速摩擦条件下的抗磨性,以减少磨屑的产生。因此,本文对 3D 打印聚乳酸元件与合成树脂在高速摩擦下的滑动磨损进行了研究。
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引用次数: 0
Effect of Laser Surface Modification on Texture, Roughness, Wettability and Surface Energy of Hastelloy C22, C276 & X 激光表面改性对哈氏合金 C22、C276 和 X 的纹理、粗糙度、润湿性和表面能的影响
Q4 Physics and Astronomy Pub Date : 2024-01-09 DOI: 10.4028/p-5jhop9
P. Suvin, Ambesh Singh, B. D. K. Patro, Vimal Edachery, S. Kailas, J. Horng
Hastelloy is a nickel-chromium-molybdenum-iron-based alloy and a member of the ‘superalloy’ family. Hastelloy has exceptional properties like high strength, wear resistance and high-temperature stress-corrosion resistance. Therefore, Hastelloy is used in gas turbines, power plants, metal injection molding, etc. Many industrial applications are related to the properties of the surface. Wettability is a key surface property that affects applications like lubrication, adhesion, coating, heat conduction, etc. Laser Texturing is an excellent method to modify the surface properties of materials like metal, polymers and ceramic. In the present study, a carbon dioxide laser created unidirectional textures on Hastelloy (C22, C276, X). Different sets of unidirectional textures were formed by changing the laser power and frequency. Various roughness parameters were compared for every laser parameter. In this paper, the effective change in wettability properties of Hastelloy (C22, C276, X) after the Laser texturing process for a range of power and frequency were studied under DI water and glycerol as test fluids. Results show that the contact angle of the test fluid increases as the laser power increases, and the contact angle decreases as the laser frequency increases for all three superalloys. The surface energy of a given set of samples was also measured using the recorded contact angle of DI water and Glycerol by the OWRK equation. Similar trends were found in surface energy for all three Hastelloy.
哈氏合金是一种镍铬钼铁基合金,属于 "超级合金 "家族。哈氏合金具有高强度、耐磨性和耐高温应力腐蚀等优异性能。因此,哈氏合金被广泛应用于燃气轮机、发电厂、金属注射成型等领域。许多工业应用都与表面特性有关。润湿性是影响润滑、粘附、涂层、热传导等应用的关键表面特性。激光纹理加工是改变金属、聚合物和陶瓷等材料表面特性的一种极佳方法。在本研究中,二氧化碳激光在哈氏合金(C22、C276、X)上产生了单向纹理。通过改变激光功率和频率,形成了不同的单向纹理。对每种激光参数的各种粗糙度参数进行了比较。本文研究了在去离子水和甘油作为测试流体的条件下,不同功率和频率的激光纹理加工后哈氏合金(C22、C276、X)润湿性能的有效变化。结果表明,对于所有三种超耐热合金来说,测试流体的接触角随着激光功率的增加而增大,而接触角随着激光频率的增加而减小。还利用 DI 水和甘油的接触角记录,通过 OWRK 方程测量了一组给定样品的表面能。发现所有三种哈氏合金的表面能都有类似的趋势。
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引用次数: 0
Study on Shape Effect of MHD Radiative Ag-Water and CuO-Water Nanofluid Flow in a Semi-Porous Channel 半多孔通道中 MHD 辐射 Ag-Water 和 CuO-Water 纳米流体流动的形状效应研究
Q4 Physics and Astronomy Pub Date : 2024-01-09 DOI: 10.4028/p-1sbxuh
Dhanonjoy Chandra Paul, Md. Abdul Hye, Md. Maidul Islam, Md. Zakir Hosen, M. Alam
This paper studies the two-dimensional unsteady incompressible Ag-water and CuO-water nanofluid flow in a semi-porous expanding-contracting channel in the presence of thermal radiation effect. The continuity equation, Navier-Stokes equation, and energy equation governing the model are transformed into a set of non-dimensional ordinary differential equations using appropriate transformations. These dimensionless governing equations are solved using power series with the aid of the Hermite-Padé approximation method. The influences of physical parameters such as Reynolds number, expansion ratio, solid volume fraction, Prandtl number, Magnetic parameter, and shape factor are depicted in velocity and temperature profiles. Moreover, the average Nusselt number and skin friction coefficient are also investigated with the effect of Reynolds number, solid volume fraction, and expansion ratio. It is observed that the heat transfer rate decreases significantly as the shape factor increases.
本文研究了存在热辐射效应的半多孔膨胀收缩通道中的二维非稳态不可压缩银-水和铜-水纳米流体流动。通过适当的转换,将支配模型的连续性方程、纳维-斯托克斯方程和能量方程转换成一组无量纲常微分方程。借助 Hermite-Padé 近似法,利用幂级数求解这些无量纲控制方程。雷诺数、膨胀比、固体体积分数、普朗特数、磁参数和形状系数等物理参数对速度和温度曲线的影响得到了描述。此外,还研究了雷诺数、固体体积分数和膨胀比对平均努塞尔特数和表皮摩擦系数的影响。结果表明,随着形状系数的增大,传热速率明显降低。
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引用次数: 0
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Defect and Diffusion Forum
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