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Online since: June 2024
Authors: Cynthia Chinasa Nwaeju, Silas Oseme Okuma, Martins Obaseki, Okiemute Dickson Ofuyekpone, Ejovi Okuma Ogagavwodia
Nevertheless, corrosion-resistant materials lack the economic viability to completely replace mild steel as the preferred material.
Materials and Corrosion, 70(6), (2019) 1111-1119
Journal of Electrochemical Science and Engineering, 13(3), (2023) 469-490
Materials 14(21) (2021) 6596. https:// doi. org/ 10.3390/ ma142 16596 [40] P.Kumari and M.
Advances in Materials and Processing Technologies ;8(sup3), (2022) 1227-44
Materials and Corrosion, 70(6), (2019) 1111-1119
Journal of Electrochemical Science and Engineering, 13(3), (2023) 469-490
Materials 14(21) (2021) 6596. https:// doi. org/ 10.3390/ ma142 16596 [40] P.Kumari and M.
Advances in Materials and Processing Technologies ;8(sup3), (2022) 1227-44
Online since: October 2010
Authors: Mei Yang, Wei Xing Zhang, Qing Shen Zeng
The effective properties of woven-composite materials can be determined by analyzing a unit cell [1-8].
Table 1 Properties of materials Material EL(GPa) ET(GPa) GLT(GPa) GTT(GPa) Carbon Fiber 230 40 24 14.3 0.26 Epoxy Resin 2.785 2.785 1.0315 1.0315 0.35 Table 2 Geometry Parameters Parameter t(mm) H(mm) Lu(mm) a(mm) Value 1.27 2.6 10.0 2.2 The stiffness matrices were determined.
W.Chou, Journal of materials science, 1982, P.3211-3220
[2] Naik,N.K. and Shembekar, P.S., J. of composite materials, Vol.26, No. 17,1992, P.2522-2541
[3] Hossein Golestanian and Sherif El-Giazwy, Journal of composite materials, 23(1997); P.2403-2423
Table 1 Properties of materials Material EL(GPa) ET(GPa) GLT(GPa) GTT(GPa) Carbon Fiber 230 40 24 14.3 0.26 Epoxy Resin 2.785 2.785 1.0315 1.0315 0.35 Table 2 Geometry Parameters Parameter t(mm) H(mm) Lu(mm) a(mm) Value 1.27 2.6 10.0 2.2 The stiffness matrices were determined.
W.Chou, Journal of materials science, 1982, P.3211-3220
[2] Naik,N.K. and Shembekar, P.S., J. of composite materials, Vol.26, No. 17,1992, P.2522-2541
[3] Hossein Golestanian and Sherif El-Giazwy, Journal of composite materials, 23(1997); P.2403-2423
Online since: September 2016
Authors: A.I. Bogdanov, Victor Georgievich Shmorgun, Aleksandr O. Taube
Materials and methods
Coatings were obtained by using technologies [7], including the following sequence of operations: deposition on a substrate of NP2 and Cr20Ni80 by the explosion welding aluminum AD1 0.7 mm thick; heat treatment of the samples at 600 °C to form on NP2 or Cr20Ni80 diffusion zone (DZ) [8 – 10].
Zhu, A Phenomenological Model for Lifetime Design of Ni2Al3/Ni Hybrid Coating Formed on Creep Resistant Ferritic Steels, Journal of Materials Science. 47 (2011) 257-266
Bogdanov, The kinetics of diffusion processes in the nickel-aluminum composition, Russian Journal of Non-Ferrous Metals. 50 (2009) 286-289
Krohalev, Investigation of the Phase Composition of the Diffusion Zone in the Al-Ni-Cr Composite Material, Applied Mechanics and Materials. 698 (2015) 430-433
Okamoto, Al-Ni (Aluminum-Nickel), Journal of Phase Equilibria and Diffusion. 25 (2004) 394-396.
Zhu, A Phenomenological Model for Lifetime Design of Ni2Al3/Ni Hybrid Coating Formed on Creep Resistant Ferritic Steels, Journal of Materials Science. 47 (2011) 257-266
Bogdanov, The kinetics of diffusion processes in the nickel-aluminum composition, Russian Journal of Non-Ferrous Metals. 50 (2009) 286-289
Krohalev, Investigation of the Phase Composition of the Diffusion Zone in the Al-Ni-Cr Composite Material, Applied Mechanics and Materials. 698 (2015) 430-433
Okamoto, Al-Ni (Aluminum-Nickel), Journal of Phase Equilibria and Diffusion. 25 (2004) 394-396.
Online since: January 2022
Authors: Ahmad Zahirani Ahmad Azhar, Afifah Ali, Hanisah Manshor
Stevens, Zirconia-toughened alumina (ZTA) ceramics, Journal of Materials Science 24.10 (1989) 3421–3440
Lange, Powder processing science and technology for increased reliability, Journal of the American Ceramic Society 72.1 (1989) 3-15
Ahmad, Effect of Cr2O3-TiO2 addition on the physical properties of zirconia toughened alumina, Materials Science Forum 840 (2016) 34–38
Ahmad, The effects of CeO2 addition on the physical, microstructural and mechanical properties of yttria stabilized zirconia toughened alumina (ZTA), International Journal of Refractory Metals and Hard Materials 36 (2013) 162-166
Ahmad, Effect of titania and magnesia on the physical properties of zirconia toughened alumina, Materials Science Forum 840 (2016) 82–86
Lange, Powder processing science and technology for increased reliability, Journal of the American Ceramic Society 72.1 (1989) 3-15
Ahmad, Effect of Cr2O3-TiO2 addition on the physical properties of zirconia toughened alumina, Materials Science Forum 840 (2016) 34–38
Ahmad, The effects of CeO2 addition on the physical, microstructural and mechanical properties of yttria stabilized zirconia toughened alumina (ZTA), International Journal of Refractory Metals and Hard Materials 36 (2013) 162-166
Ahmad, Effect of titania and magnesia on the physical properties of zirconia toughened alumina, Materials Science Forum 840 (2016) 82–86
Online since: March 2014
Authors: Rui Zhang, Hao Chen, Xiao Xuan Pian, Bing Bing Fan, Chen Yang Wang, Biao Zhao, Wen Li, Bing Sun, Bin Bin Wang
André, The wetting of solids by molten metals and its relation to the preparation of metal-matrix composites composites, Journal of Materials Science 22 (1) (1987) 1-16
LC, Metal-coated colloidal particles, Journal of Materials Science 28 (13) (1993) 3427-3432
Lei, Fabrication and mechanical properties of β-sialon-FexSiy-CNTs composites, Journal of Materials Science 48 (19) (2013) 6673-6681
Toyohiko, Microstructure, mechanical and thermal properties of B4C/CNT composites with Al additive, Journal of Nuclear Materials 440 (1-3) (2013) 524-529
Rui, Preparation of SiC-SiO2-CuO composites, Journal of Materials Science 42 (17) (2007) 7457-7460
LC, Metal-coated colloidal particles, Journal of Materials Science 28 (13) (1993) 3427-3432
Lei, Fabrication and mechanical properties of β-sialon-FexSiy-CNTs composites, Journal of Materials Science 48 (19) (2013) 6673-6681
Toyohiko, Microstructure, mechanical and thermal properties of B4C/CNT composites with Al additive, Journal of Nuclear Materials 440 (1-3) (2013) 524-529
Rui, Preparation of SiC-SiO2-CuO composites, Journal of Materials Science 42 (17) (2007) 7457-7460
Online since: August 2013
Authors: Zhi Qiang Yang, Yong Liu, Bao Hong Tian, Yi Zhang
Hot compression performance of TiC10/Cu-Al2O3 composite prepared by vacuum hot-pressed sintering
Zhiqiang Yang1,a, Yong Liu1,2,b, Baohong Tian 1,2, Yi Zhang1,2
1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471023, henan China
2 Henan Key Laboratory of Advanced Non-Ferrous Materials, Luoyang 471023, China
ayzq871024@163.com, bliuyong@haust.edu.cn
Keywords: vacuum-pressed sintering; TiC10/Cu-Al2O3 composite; microstructure; flow stress
Abstract.
Fu, Journal of Materials Processing Technology, Vol. 113 (2001), p. 63 [2] Tiejun Wang , Sigui Qin, Wuping.Zhou, et al.
Ordnance Material Science and Engineering Vol. 29(2006), p. 37 (In Chinese) [3] S.
Materials Science and Engineering A, Vol. 502 (2009), p. 91 [4] Qingguo Xiao, Feng Duan, Qunhu Xue, et al.
Materials Science and Engineerin A,Vol. 502 (2009), p. 91
Fu, Journal of Materials Processing Technology, Vol. 113 (2001), p. 63 [2] Tiejun Wang , Sigui Qin, Wuping.Zhou, et al.
Ordnance Material Science and Engineering Vol. 29(2006), p. 37 (In Chinese) [3] S.
Materials Science and Engineering A, Vol. 502 (2009), p. 91 [4] Qingguo Xiao, Feng Duan, Qunhu Xue, et al.
Materials Science and Engineerin A,Vol. 502 (2009), p. 91
Online since: December 2013
Authors: Oleg L. Khasanov, Vasiliy K. Struts, Alexey O. Khasanov, Edgar S. Dvilis, Valentina V. Polisadova, Zulfa G. Bikbaeva, G. J. Omarov
Formation of cracks in the lateral indentation of brittle ceramic materials is described in several researches [1, 2].
Acknowledgements The work was supported by the RF Ministry of Education and Science: State assignment "Science", State Contract No.14.513.11.0039.
Richter, Indentation analysis: applications in the strength and wear of brittle materials, Journal of Microscopy, 130 Pt 3 (1983) 295–308
[2] Akio Yonezu, Baoxing Xu, Xi Chen, Indentation induced lateral crack in ceramics with surface hardening, Materials Science and Engineering, A. 507 (2009) 226–235
Dviiis and othe., Spallation destruction of surfaces of ceramics at indentation, Russian Physics Journal, №5/2 (2012) 276–282
Acknowledgements The work was supported by the RF Ministry of Education and Science: State assignment "Science", State Contract No.14.513.11.0039.
Richter, Indentation analysis: applications in the strength and wear of brittle materials, Journal of Microscopy, 130 Pt 3 (1983) 295–308
[2] Akio Yonezu, Baoxing Xu, Xi Chen, Indentation induced lateral crack in ceramics with surface hardening, Materials Science and Engineering, A. 507 (2009) 226–235
Dviiis and othe., Spallation destruction of surfaces of ceramics at indentation, Russian Physics Journal, №5/2 (2012) 276–282
Online since: July 2014
Authors: Yue Wang, Chun Ying Yuan, Qing Man Cui, Shuo Yang
Materials and Methods
Experimental Materials
Biological Materials.
Journal of Dalian Fisheries University, 2008,23(5):359-363
Food Science, 2013, 34(7): 270-274
Beijing: Science Press, 95-97
Chinese Journal of Marine Drugs, 2007, 26(5): 53-59.
Journal of Dalian Fisheries University, 2008,23(5):359-363
Food Science, 2013, 34(7): 270-274
Beijing: Science Press, 95-97
Chinese Journal of Marine Drugs, 2007, 26(5): 53-59.
Online since: October 2009
Authors: Costas P. Providakis
Simultaneous edge debonding monitoring and repair of
dynamically loaded concrete structures strengthened with smart
composite materials
C P Providakis
Department of Applied Science, Technical University of Crete
GR-73100 Chania, Greece
email: cpprov@mred.tuc.gr
Keywords: PZT, Repair, Concrete, Health Monitoring, Electromechanical admittance
Abstract.
The present work considers the possibility of simultaneous health monitoring and active repair of the edge debonding in dynamically loaded smart concrete structures strengthened with fiber reinforced plastic (FRP) composite materials.
In the present study, lead zirconate titanates (PZT), classified as piezoelectric materials are used as surfacemounted PZT admittance calculating sensor (labeled in Figure 1 as ACS) for the measure of the E/M admittance and PZT actuator (labeled in Figure 1 as PZTA) for the activation and the subsequent creation of appropriate forces to restore any observed debonding.
Providakis: Electro-mechanical admittance-based damage detection using extreme value statistics, Key Engineering Materials Journal 385-387, (2008), pp. 561-564 [5] MATLAB, The Mathworks Inc.
Voutetaki: PZT control of edge debonding in dynamically loaded concrete structures strengthened with composite materials in Proceedings of COMPDYN2009: ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering edited by M.
The present work considers the possibility of simultaneous health monitoring and active repair of the edge debonding in dynamically loaded smart concrete structures strengthened with fiber reinforced plastic (FRP) composite materials.
In the present study, lead zirconate titanates (PZT), classified as piezoelectric materials are used as surfacemounted PZT admittance calculating sensor (labeled in Figure 1 as ACS) for the measure of the E/M admittance and PZT actuator (labeled in Figure 1 as PZTA) for the activation and the subsequent creation of appropriate forces to restore any observed debonding.
Providakis: Electro-mechanical admittance-based damage detection using extreme value statistics, Key Engineering Materials Journal 385-387, (2008), pp. 561-564 [5] MATLAB, The Mathworks Inc.
Voutetaki: PZT control of edge debonding in dynamically loaded concrete structures strengthened with composite materials in Proceedings of COMPDYN2009: ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering edited by M.
Online since: January 2014
Authors: Shamsul Baharin Jamaludin, W. Rahman, Mazlee Mohd Noor
All materials were supplied by the Sigma Aldrich Chemistry, Sweden.
Use of microwaves for the synthesis and processing of materials, Bulletin of Material Science 1995;18:447
Microwave sintering of nanocrystalline WC- 12Co: Challenges and perspectives, International Journal of Refractory Metals and Hard Materials. 2010;28:180-6
Journal of the Minerals, Metals and Materials Society. 2000;52:38-40
Journal of Refractory Metals and Hard Materials 35 (2012) 138.
Use of microwaves for the synthesis and processing of materials, Bulletin of Material Science 1995;18:447
Microwave sintering of nanocrystalline WC- 12Co: Challenges and perspectives, International Journal of Refractory Metals and Hard Materials. 2010;28:180-6
Journal of the Minerals, Metals and Materials Society. 2000;52:38-40
Journal of Refractory Metals and Hard Materials 35 (2012) 138.