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Online since: February 2022
Authors: Alexey V. Shalin, Aleksander S. Stepushin, Sergey M. Sarychev, Olga Gvozdeva
The military-industrial complex accumulates advanced developments in materials science, which, on the one hand, increases the lethality of military equipment, and on the other, improves the armor protection materials to counter new types of weapons [1, 2].
It is shown that such alloys have found application as III armor class materials, due to their higher strength compared to aluminum alloys (AMg5, B95, 1901), lower density than classical armored steels (77, 44S, Ts85, SPS-43) and less brittleness in comparison with ceramic materials based on oxides and carbides (Al2O3, SiC, B4C) [3-6].
This makes it possible to obtain materials with a higher hardness in the surface layers and a higher elasticity in its core, which provides an increased toughness, a slower crack propagation rate and a high dynamic resistance of the armor material.
[4] Mylnikov V V, Abrosimov A A, Romanov I D and Romanov A D 2014 Technical Science 9 pp 143 – 147 [5] Grinevich A V and Lavrov A V 2018 Proceedings of VIAM 3(63) pp 95-102 [6] Minhyung Lee, Sangwon Park, Ilguk Jo and Sangkwan Lee. 2017 Procedia Engineering 204 pp 100-107 [7] Ilyin A A, Skvortsova S V, Spector V S, Kudelina I M and Mamontova N A 2011 Light alloy technology 2 pp 37-41 [8] Mamonov A M, Safaryan A I, Agarkova E O, Zhilyakova M A 2018 Metal Science and Heat Treatment V 60 I 1-2 pp 80-88 [9] Senkevich K S, Skvortsova S V, Kudelina I M, Knyazev M I and Zasypkin V V 2014 Metals 1 pp 77-82 [10] Gvozdeva O N, Shalin A V and Stepushin A S 2020 IOP Conference Series Materials Science and Engineering V 889 I 1 A 012005 pp 1-7 [11] Gvozdeva O N, Shalin A V, Stepushin A S and Ovchinnikov A V 2020 IOP Conference Series Materials Science and Engineering V 971 I 1 A 052016 pp 1-5 [12] Skvortsova S V, Gvozdeva O N, Shalin A V, Sarychev S M and Stepushin A S 2020 Sixth interdisciplinary
scientific forum with international participation "New materials and advanced technologies" V I pp 81-86 [13] Lukina E A 2019 Journal of Physics: Conference Series. – IOP Publishing.
It is shown that such alloys have found application as III armor class materials, due to their higher strength compared to aluminum alloys (AMg5, B95, 1901), lower density than classical armored steels (77, 44S, Ts85, SPS-43) and less brittleness in comparison with ceramic materials based on oxides and carbides (Al2O3, SiC, B4C) [3-6].
This makes it possible to obtain materials with a higher hardness in the surface layers and a higher elasticity in its core, which provides an increased toughness, a slower crack propagation rate and a high dynamic resistance of the armor material.
[4] Mylnikov V V, Abrosimov A A, Romanov I D and Romanov A D 2014 Technical Science 9 pp 143 – 147 [5] Grinevich A V and Lavrov A V 2018 Proceedings of VIAM 3(63) pp 95-102 [6] Minhyung Lee, Sangwon Park, Ilguk Jo and Sangkwan Lee. 2017 Procedia Engineering 204 pp 100-107 [7] Ilyin A A, Skvortsova S V, Spector V S, Kudelina I M and Mamontova N A 2011 Light alloy technology 2 pp 37-41 [8] Mamonov A M, Safaryan A I, Agarkova E O, Zhilyakova M A 2018 Metal Science and Heat Treatment V 60 I 1-2 pp 80-88 [9] Senkevich K S, Skvortsova S V, Kudelina I M, Knyazev M I and Zasypkin V V 2014 Metals 1 pp 77-82 [10] Gvozdeva O N, Shalin A V and Stepushin A S 2020 IOP Conference Series Materials Science and Engineering V 889 I 1 A 012005 pp 1-7 [11] Gvozdeva O N, Shalin A V, Stepushin A S and Ovchinnikov A V 2020 IOP Conference Series Materials Science and Engineering V 971 I 1 A 052016 pp 1-5 [12] Skvortsova S V, Gvozdeva O N, Shalin A V, Sarychev S M and Stepushin A S 2020 Sixth interdisciplinary
scientific forum with international participation "New materials and advanced technologies" V I pp 81-86 [13] Lukina E A 2019 Journal of Physics: Conference Series. – IOP Publishing.
Online since: June 2020
Authors: Xiao Ju Gao, Hasigaowa Hasigaowa, Peng Man, Meng Yong Sun, Cheng Dong Liao, Wei Ping Huang, Wu Zhang, Ya Wei Zhou
Diamond and Related Materials, 2009, 18(1): 27-33
Journal of Inorganic Materials, 2015, 30(1):102-106
Journal of materials science letters, 2002, 21(9): 703-706
Rare Metal Materials and Engineering, 2011, 40: 536-539
Journal of Materials Science, 2002, 37(23): 5007–5012
Journal of Inorganic Materials, 2015, 30(1):102-106
Journal of materials science letters, 2002, 21(9): 703-706
Rare Metal Materials and Engineering, 2011, 40: 536-539
Journal of Materials Science, 2002, 37(23): 5007–5012
Online since: July 2011
Authors: Yan Li Li, Shao Chun Xu, Yao Xing Xu, Yan Sun, Yong Liu
Materials and methods
Materials.
Kawashima: Journal of Controlled Release Vol. 102(2005), p. 373–381
Wu: Chinese Journal of Chemistry Vol. 20(2009), p. 79-83
Li: Journal of Applied Polymer Science Vol. 114 (2009), p. 2639-2647
Couarraze: European Journal of Pharmaceutical Sciences Vol. 15(2002), p. 425-432
Kawashima: Journal of Controlled Release Vol. 102(2005), p. 373–381
Wu: Chinese Journal of Chemistry Vol. 20(2009), p. 79-83
Li: Journal of Applied Polymer Science Vol. 114 (2009), p. 2639-2647
Couarraze: European Journal of Pharmaceutical Sciences Vol. 15(2002), p. 425-432
Online since: October 2014
Authors: Chalamalasetti Srinivasa Rao, Damera Nageswara Rao, Kondapalli Siva Prasad
Prasad Rao, Weld microstructure refinement in a 1441 grade aluminium-lithium alloy, Journal of Material Science, 32 (1997) 4117-4126
Niu , Application of Artificial Neural Network modeling to Plasma Arc Welding of Aluminum alloys, Journal of Advanced Metallurgical Sciences,13 (2000) 194-200
Wang Huang, Optimization of Plasma Arc Welding Parameters by Using the Taguchi Method with the Grey Relational Analysis, Journal of Materials and Manufacturing Processes, 23 (2008) 51–58
Babu, Predicted the Dilution of Plasma Transferred Arc Hardfacing of Stellite on Carbon Steel using Response Surface Methodology, Metals and Materials International, 14 (2008) 779-789
Nageswara Rao, Application of Design of Experiments to Plasma Arc Welding: A Review, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 35 (2012) 75-81.
Niu , Application of Artificial Neural Network modeling to Plasma Arc Welding of Aluminum alloys, Journal of Advanced Metallurgical Sciences,13 (2000) 194-200
Wang Huang, Optimization of Plasma Arc Welding Parameters by Using the Taguchi Method with the Grey Relational Analysis, Journal of Materials and Manufacturing Processes, 23 (2008) 51–58
Babu, Predicted the Dilution of Plasma Transferred Arc Hardfacing of Stellite on Carbon Steel using Response Surface Methodology, Metals and Materials International, 14 (2008) 779-789
Nageswara Rao, Application of Design of Experiments to Plasma Arc Welding: A Review, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 35 (2012) 75-81.
Online since: November 2012
Authors: Xu Shu Sun, Jian Lin Li, Shi Zhou, Jun Lei Bai
Material parameters are shown in Tab. 1, characteristic points P1, P2, P3 and P4 are shown in Fig. 2.
Acknowledgements This work was financially support by National Natural Science Foundation of China (No: 51079077, No: 51109120, No: 51009083), Natural Science Foundation of Educational Commission of Hubei Province China (No: Q20101201).
Frangos: Journal of Geophysical Research, Vol. 73(1968), p. 2225-2236
[3] Jones Jr., Frank O., Amoco Production Co.: Journal of Petroleum Technology, Vol. 27(1975), p. 21-27
[7] Mingqing You: Chinese Journal of Rock Mechanics and Engineering, Vol. 22(2003), p. 53-60.
Acknowledgements This work was financially support by National Natural Science Foundation of China (No: 51079077, No: 51109120, No: 51009083), Natural Science Foundation of Educational Commission of Hubei Province China (No: Q20101201).
Frangos: Journal of Geophysical Research, Vol. 73(1968), p. 2225-2236
[3] Jones Jr., Frank O., Amoco Production Co.: Journal of Petroleum Technology, Vol. 27(1975), p. 21-27
[7] Mingqing You: Chinese Journal of Rock Mechanics and Engineering, Vol. 22(2003), p. 53-60.
Online since: January 2013
Authors: Ya Qing Jiang, Jun Yang, Yun Chen
Cellular concrete panels (CCP) have been developed in China as external wall insulation materials in recent years.
Materials Cement.
ACI Materials Journal V. 103 (2006), p. 45
Construction and Building Materials V. 26 (2012), p. 619
Chinese Journal of Chemical Engineering V. 19 (2011), P. 489.
Materials Cement.
ACI Materials Journal V. 103 (2006), p. 45
Construction and Building Materials V. 26 (2012), p. 619
Chinese Journal of Chemical Engineering V. 19 (2011), P. 489.
Online since: April 2014
Authors: Xian Zheng Gong, Bo Xue Sun, Yu Liu, Zhi Hong Wang, Chen Li, Xian Ce Meng
The LCI results show that if the waste quarries could be recovered after the exploration, the environmental damages from the marble decorative materials would be much less.
China needs to produce more and more marble materials to support the fast development of building constructions, and China can earn a lot from the exportation.
The input and output data was from the development planning report by China Development Strategy Institute for Building Materials Industry and local government.
Every stage from the production of the raw materials to the end of their usage lives should be included with the concept of “from cradle to grave”.
Journal of Cleaner Production.
China needs to produce more and more marble materials to support the fast development of building constructions, and China can earn a lot from the exportation.
The input and output data was from the development planning report by China Development Strategy Institute for Building Materials Industry and local government.
Every stage from the production of the raw materials to the end of their usage lives should be included with the concept of “from cradle to grave”.
Journal of Cleaner Production.
Online since: May 2020
Authors: V.Yu. Timofeev, D.V. Shmidt, Bashar Issa
The incoming raw materials are sent for preliminary parts disassembly.
Series: Journal of Physics: Conf.
Materials Science Forum, 927, 190–194. https://doi.org/10.4028/www.scientific.net/msf.927.19
[16] Darin A.A., Telyakov N.M., Processing of ferromanganese concretions with the use of sulfatising roasting/Journal of Engineering and Applied Sciences, № 12, V 5, 2017. pp. 1113 -1115
Environmental-Toxicological Characteristics of Waters and Their Sources at Magnitogorsk With the Its Iron and Steel Industry. // In IOP Conference Series: Materials Science and Engineering (Vol. 142, No. 1, p. 012117).
Series: Journal of Physics: Conf.
Materials Science Forum, 927, 190–194. https://doi.org/10.4028/www.scientific.net/msf.927.19
[16] Darin A.A., Telyakov N.M., Processing of ferromanganese concretions with the use of sulfatising roasting/Journal of Engineering and Applied Sciences, № 12, V 5, 2017. pp. 1113 -1115
Environmental-Toxicological Characteristics of Waters and Their Sources at Magnitogorsk With the Its Iron and Steel Industry. // In IOP Conference Series: Materials Science and Engineering (Vol. 142, No. 1, p. 012117).
Online since: August 2013
Authors: Wen Rong Wu, Xiao Min Yang, Qing Jie Tang, Gui Qin Zhu
Journal of Anhui Agricultural Sciences.2011, 39(6):3444-3448
[2] HAN Bin, ZHOU Mei-hua, RONG Da.
Journal of Agro-Environment Science.2009, 28(4):828-832 [3] Zhou Shixue.
Materials Review, 2007, 21(11A):291-294
SELECTION OF BIOMASS MATERIALS PRODUCING CHAR AND ANALYSIS OF CALORIC REQUIREMENT [J].
Journal of Combustion Science and Technology, 2010, 16(1):1-4.
Journal of Agro-Environment Science.2009, 28(4):828-832 [3] Zhou Shixue.
Materials Review, 2007, 21(11A):291-294
SELECTION OF BIOMASS MATERIALS PRODUCING CHAR AND ANALYSIS OF CALORIC REQUIREMENT [J].
Journal of Combustion Science and Technology, 2010, 16(1):1-4.
Online since: December 2012
Authors: Fa Zhang, Bao Zhong Sun, Li Min Jin
Introduction
Early uses of laminated composite materials revealed that delamination was one of the major failure mechanisms [1].
Kaw, Mechanics of Composite Materials, Taylor & Francis Group, 2006 [2] B.
Composites Science and Technology. 71(2011) 1196-1208
Journal of Composite Materials. 36(2002) 93-124
Journal of Composite Materials. 45(2011) 1499-1509
Kaw, Mechanics of Composite Materials, Taylor & Francis Group, 2006 [2] B.
Composites Science and Technology. 71(2011) 1196-1208
Journal of Composite Materials. 36(2002) 93-124
Journal of Composite Materials. 45(2011) 1499-1509