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Online since: April 2022
Authors: David Oluwaseyi Israel, Olayinka J. Olaniyan, Enock O. Dare
Hill, Nanoarchitectonics for Mesoporous Materials.
Journal of Materials, (2014), 1–9. doi:10.1155/2014/184216 [12] E.O.
Journal of Hazardous Materials, 290 (2015), 117–126. doi:10.1016/j.jhazmat.2015.02.061 [18] A.
Journal of Colloid and Interface Science, 277(2), 316 326. doi:10.1016/j.jcis.2004.04.051 [23] E.E.
Advanced Materials Research, 626, (2012), 997–1000
Journal of Materials, (2014), 1–9. doi:10.1155/2014/184216 [12] E.O.
Journal of Hazardous Materials, 290 (2015), 117–126. doi:10.1016/j.jhazmat.2015.02.061 [18] A.
Journal of Colloid and Interface Science, 277(2), 316 326. doi:10.1016/j.jcis.2004.04.051 [23] E.E.
Advanced Materials Research, 626, (2012), 997–1000
Online since: December 2025
Authors: Radek Kottner, Michal Volf, Eva Nezbedová
Application of Composite Materials for Thermal Storage in the Heat Supply System in the Czech Republic
Michal VOLF1,a*, Eva NEZBEDOVÁ1,b
and Radek KOTTNER2,c
1Ing.
This paper investigates the application of polymer materials for low-temperature, pressure-less a thermal storage in Czech district heating systems integrated with high-performance heat pumps.
While composite materials are widely applied in aviation and the chemical industry [4][5], their use in the energy sector—particularly for stationary thermal storage—remains less common.
Journal of Science Communication. 2000, 163, pp. 51–59
Meeting the Materials Data Management Needs of Engineering Enterprises [online].
This paper investigates the application of polymer materials for low-temperature, pressure-less a thermal storage in Czech district heating systems integrated with high-performance heat pumps.
While composite materials are widely applied in aviation and the chemical industry [4][5], their use in the energy sector—particularly for stationary thermal storage—remains less common.
Journal of Science Communication. 2000, 163, pp. 51–59
Meeting the Materials Data Management Needs of Engineering Enterprises [online].
Online since: June 2016
Authors: Wijang Wisnu Raharjo, Eko Surojo, Aditya Utama, Jamasri Jamasri
Brake pad materials are designed to have magnitude of coefficient of friction as required.
Brake pad materials consist of numerous ingredients with different properties.
To provide mechanical strength, reinforcement fibers also are incorporated to brake pad materials.
Dmitriev, Towards a better understanding of brake friction materials, Wear. 263 (2007) 1189–1201
Surojo, Evaluation of ingredient effects on friction brake shoe composite using Taguchi method, Journal of Surface Science and Technology. 30 (2014) 111-128.
Brake pad materials consist of numerous ingredients with different properties.
To provide mechanical strength, reinforcement fibers also are incorporated to brake pad materials.
Dmitriev, Towards a better understanding of brake friction materials, Wear. 263 (2007) 1189–1201
Surojo, Evaluation of ingredient effects on friction brake shoe composite using Taguchi method, Journal of Surface Science and Technology. 30 (2014) 111-128.
Online since: January 2012
Authors: Xue Jian Shi, Xiao Qing Wu
Meanwhile, the results of exploration and research to promote the fiber-reinforced cement-based composite materials science and technology development.
2 Fiber-reinforced cement-based composites
2.1 Glass fiber.
Journal Of Building Materials, 2005(03): 250-255
JIANGXI HYDRAULIC SCIENCE & TECHNOLOGY,2010(01): 18-23
Journal of Building Materials, 2009(05): 590-594
[26] Jiujun Yang.Effect of The Component Gradient Distribution on The Strength of Cement-Based Composite Materials.JOURNAL OF THE CHINESE CERAMIC SOCIETY, 2002(06): 803-806.
Journal Of Building Materials, 2005(03): 250-255
JIANGXI HYDRAULIC SCIENCE & TECHNOLOGY,2010(01): 18-23
Journal of Building Materials, 2009(05): 590-594
[26] Jiujun Yang.Effect of The Component Gradient Distribution on The Strength of Cement-Based Composite Materials.JOURNAL OF THE CHINESE CERAMIC SOCIETY, 2002(06): 803-806.
Online since: October 2006
Authors: K Pietrzak, D. Kalinski, M. Chmielewski
MATERIALS AND EXPERIMENTAL PROCEDURE
The two materials intended for joining were alumina (99.5%Al2O3) and high chromium steel H25T
type (samples sized at ∅10x10mm).
Rath: Journal of Amer.
Zhao: Materials Science and Engineering, No.A 252, (1998), p. 117-132, [4] J.T.
Yang: Journal of Amer.
Wlosinski: Al2O3-Cu and Al2O3-Cr composite technology and properties, Materials Science Monographs 25, G.S.
Rath: Journal of Amer.
Zhao: Materials Science and Engineering, No.A 252, (1998), p. 117-132, [4] J.T.
Yang: Journal of Amer.
Wlosinski: Al2O3-Cu and Al2O3-Cr composite technology and properties, Materials Science Monographs 25, G.S.
Online since: April 2013
Authors: Gilles Lefebvre, Said Makhlouf, Souad Khedache, Dihia Djefel
Researchers in materials science and civil engineering are constantly listening to the industry and continue to innovate in this field.
MATERIALS AND METHODS Fibers preparation In this study, we used animal fibers, especially turkey feathers.
Influence of volcanic originated natural materials as additives on the setting time and some mechanical properties of concrete, Construction and Building Materials 21 (2007)1274–1278
Ecole Inter-Etats des Sciences et Médecine Vétérinaires de DAKAR (2009)
Mechanical properties of high-strength fiber reinforced concrete, ACI Materials Journal 89 (5) (1992) 449–455.
MATERIALS AND METHODS Fibers preparation In this study, we used animal fibers, especially turkey feathers.
Influence of volcanic originated natural materials as additives on the setting time and some mechanical properties of concrete, Construction and Building Materials 21 (2007)1274–1278
Ecole Inter-Etats des Sciences et Médecine Vétérinaires de DAKAR (2009)
Mechanical properties of high-strength fiber reinforced concrete, ACI Materials Journal 89 (5) (1992) 449–455.
Online since: July 2022
Authors: Yong Fa Zhang, Sebastian Münstermann, Fu Hui Shen, Wei Jian Han, Jiang Zheng
Katgerman, Modelling of defects in aluminium cast products, Progress in Materials Science (2021)
Liu, Porosity quantification for ductility prediction in high pressure die casting AM60 alloy using 3D X-ray tomography, Materials Science and Engineering: A 772 (2020) 138781
Xia, The gradient microstructure and deformation heterogeneity in HPDC AM60 alloy, Materials Science and Engineering: A 792 (2020)
Wierzbicki, Calibration of ductile fracture properties of a cast aluminum alloy, Materials Science and Engineering: A 459(1-2) (2007) 156-166
Lian, Local formability of medium-Mn steel, Journal of Materials Processing Technology 299 (2022)
Liu, Porosity quantification for ductility prediction in high pressure die casting AM60 alloy using 3D X-ray tomography, Materials Science and Engineering: A 772 (2020) 138781
Xia, The gradient microstructure and deformation heterogeneity in HPDC AM60 alloy, Materials Science and Engineering: A 792 (2020)
Wierzbicki, Calibration of ductile fracture properties of a cast aluminum alloy, Materials Science and Engineering: A 459(1-2) (2007) 156-166
Lian, Local formability of medium-Mn steel, Journal of Materials Processing Technology 299 (2022)
Online since: July 2012
Authors: G. Venkatachalam, S. Narayanan, Narayanan C. Sathiya
[7] J.Lian and B.Baudelet: Material Science and Engineering, Vol.86, (1987), p.137-144
[9] F.K.Chen: Journal of Materials Processing Technology, Vol.37, (1993), p.175–188
[13] Y.C.Lee and F.K.Chen: Journal of Materials Processing Technology, vol.103, (2000), p.353–361
[14] K.Elangovan, C.Sathiya Narayanan and R.Narayanasamy: Computational Materials Science, Vol.47, (2010), p.1072-1078
[15] S.C.Baik, K.H.Oh and D.N.Lee: Journal of Materials Processing Technology, Vol.58, (1996), p.139-144.
[9] F.K.Chen: Journal of Materials Processing Technology, Vol.37, (1993), p.175–188
[13] Y.C.Lee and F.K.Chen: Journal of Materials Processing Technology, vol.103, (2000), p.353–361
[14] K.Elangovan, C.Sathiya Narayanan and R.Narayanasamy: Computational Materials Science, Vol.47, (2010), p.1072-1078
[15] S.C.Baik, K.H.Oh and D.N.Lee: Journal of Materials Processing Technology, Vol.58, (1996), p.139-144.
Online since: December 2010
Authors: Xiang Qiu Wang, Zhi Guo Zhou, Yu Hong Zhang
Model of calculation
On the basis of the past experience and the practical conditions, some hypothesis are established for the FEM model as follow: (1) the stress-strain relationships is satisfied to the basic hypothesis of plain strain problem; (2) the anchor bolt and lining are belong to elastic materials, but the rock mass and soften joints are considered as elastic-plastic medium; (3) the normal of the isotropic surface is orthogonal to the axis of underground opening.
The deformation modulus of interfaceequals to 500kpa, equals to 400kpa andequals to 50000kpa, other material parameters are shown in Tab.1.
Acknowledgment This work is supported by Guangdong Natural Science Fund Committee under grant 0629445, Foshan Science Technology Developing Fund Committee under grant 200606005 and Science Technology Developing Fund of Foshan University.
Alfi: Engineering Geology Vol.101(2008), P.174 [2]Zuo yujun, Tang chunan, Zhu wancheng: Journal of Central South University of Technology Vol.15 (2008), p.632 [3]R.
Chinese Journal of Geotechnical Engineering Vol.3 (1999), p.307 (in Chinese) [5]Yu xuefu, Zhen yingren, in:The stability analysis for the surrounding rock mass of the underground project,. edited by the press of coal industry, Beijing, China (1986) (in Chinese) [6] Sun jun, Wang sijing: International Journal of Rock Mechanics and Mining Sciences, Vol.37(2000), p.447 [7]Yu.
The deformation modulus of interfaceequals to 500kpa, equals to 400kpa andequals to 50000kpa, other material parameters are shown in Tab.1.
Acknowledgment This work is supported by Guangdong Natural Science Fund Committee under grant 0629445, Foshan Science Technology Developing Fund Committee under grant 200606005 and Science Technology Developing Fund of Foshan University.
Alfi: Engineering Geology Vol.101(2008), P.174 [2]Zuo yujun, Tang chunan, Zhu wancheng: Journal of Central South University of Technology Vol.15 (2008), p.632 [3]R.
Chinese Journal of Geotechnical Engineering Vol.3 (1999), p.307 (in Chinese) [5]Yu xuefu, Zhen yingren, in:The stability analysis for the surrounding rock mass of the underground project,. edited by the press of coal industry, Beijing, China (1986) (in Chinese) [6] Sun jun, Wang sijing: International Journal of Rock Mechanics and Mining Sciences, Vol.37(2000), p.447 [7]Yu.
Online since: December 2019
Authors: Z.A. Meretukov, E.A. Khadykina
Composite Material Based on Plant Raw Materials
E.A.
For this reason, it can be the artificial building materials and building mixtures and mortars basis.
Methods and Materials The walnut shell grinding was carried out in an MSL-1P drum mill (laboratory ball mill).
Klimenko, Production of building materials from wood waste, SI, Moscow, 1977
Jiang, Effect of composite set-accelerator on the properties of ultra-lightweight foamed concrete (Article) View Correspondence (jump link),Journal of Functional Materials.46 (12) (2015)12116-12121 and 12126
For this reason, it can be the artificial building materials and building mixtures and mortars basis.
Methods and Materials The walnut shell grinding was carried out in an MSL-1P drum mill (laboratory ball mill).
Klimenko, Production of building materials from wood waste, SI, Moscow, 1977
Jiang, Effect of composite set-accelerator on the properties of ultra-lightweight foamed concrete (Article) View Correspondence (jump link),Journal of Functional Materials.46 (12) (2015)12116-12121 and 12126