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Online since: October 2011
Authors: Wen Biao Li, Da Hua Jiang, Jian Hong Deng
Journal of solar energy, 2006,27(7):725-730
Materials science and engineering, 2005,21(1): 276-279 4] Li hui, FangGuiYin.
Journal of materials science and engineering, 2001,21(6):842-844 [5] JiangDaHua, ZhouYang, carleton ruthling.
Journal of chemical industry, 2004,55(4):678-681
Materials science and engineer, 2001,17(5):137-139
Materials science and engineering, 2005,21(1): 276-279 4] Li hui, FangGuiYin.
Journal of materials science and engineering, 2001,21(6):842-844 [5] JiangDaHua, ZhouYang, carleton ruthling.
Journal of chemical industry, 2004,55(4):678-681
Materials science and engineer, 2001,17(5):137-139
Online since: August 2009
Authors: Zhuo Qiu Li, Ya Wen Dai, Xiao Yu Zhang, Si Rong Zhu
Virtual Experimental Studies on
Carbon Fiber Smart Materials Resistivity Tomography
Yawen Daia, Zhuoqiu Lib, Xiaoyu Zhang, Sirong Zhu
School of Science, Wuhan University of Technology, Wuhan,China
a
daiyaweny@163.com, bscience@whut.edu.cn
Keywords: carbon fiber smart materials,virtual experiment,resistivity tomography, field monitoring.
Introduction With development of smart materials and sensor technology, it is possible to diagnose and supervise security service characteristics of critical civil engineering [1].
With conductivity and piezoresistivity of smart materials and resistivity tomography, it is hopeful to realize visible field monitoring on civil engineering structure.
Acknowledgement The work was supported by the National Natural Science Foundation of China (No. 50878169).
Chung, Carbon Fiber-Reinforced Cement as a Strain-Sensing Coating, Cement and Concrete Research, 2001, 31:665-667 [4] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Zhu Sirong, Manufacture and Characteristics of Cement-Based Smart Surface, Huazhong University of Science and Technology Journal (natural science edition), 2006, 34(8): 97-99 [5] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Study on Sensing Feature of Carbon Fiber Smart Layer, Huazhong University of Science and Technology Journal 2008, 25(2): 36-38 [6] Mei Shuhui, Array Simulation on Carbon Fiber Smart Layer and its Structure [D], Wuhan University of Technology Master Paper, 2007.5
Introduction With development of smart materials and sensor technology, it is possible to diagnose and supervise security service characteristics of critical civil engineering [1].
With conductivity and piezoresistivity of smart materials and resistivity tomography, it is hopeful to realize visible field monitoring on civil engineering structure.
Acknowledgement The work was supported by the National Natural Science Foundation of China (No. 50878169).
Chung, Carbon Fiber-Reinforced Cement as a Strain-Sensing Coating, Cement and Concrete Research, 2001, 31:665-667 [4] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Zhu Sirong, Manufacture and Characteristics of Cement-Based Smart Surface, Huazhong University of Science and Technology Journal (natural science edition), 2006, 34(8): 97-99 [5] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Study on Sensing Feature of Carbon Fiber Smart Layer, Huazhong University of Science and Technology Journal 2008, 25(2): 36-38 [6] Mei Shuhui, Array Simulation on Carbon Fiber Smart Layer and its Structure [D], Wuhan University of Technology Master Paper, 2007.5
Online since: September 2014
Authors: Yan Hong Zhao, Hu Zhu Zhang
A Study on Anti-cracking Performance of Lime and Fly-ash Stabilized Coal Gangue Roadbase Materials
Huzhu Zhang1,a, Yanhong Zhao 2,b
1 School of Traffic Science and Engineering, Jilin Jianzhu University, Changchun 130118, China
2 Department of Municipal Planning &Design, Anyang Institute of Urban Planning & Design, Anyang, 455000, China
a113140014@qq.com, b609831173@qq.com
Keywords: Lime and fly-ash stabilized coal gangue; roadbase materials; Anti-cracking performance; Quality ratio of lime to fly-ash
Abstract.
Raw materials Raw materials’ property
LIU: Journal of Highway and Transportation Research and Development, Vol. 19(2002), p.1 [2] S.J HE: Journal of Railway Engineering Society, Vol. 61(1999), p.114 [3] H.Z.
CHEN: Shanxi Science &Technology of Communications (1999), p. 29 [5] A.M.
HAO: Journal of Chang’an University(Natural Science Edition), Vol. 22(2002) , p. 13
Raw materials Raw materials’ property
LIU: Journal of Highway and Transportation Research and Development, Vol. 19(2002), p.1 [2] S.J HE: Journal of Railway Engineering Society, Vol. 61(1999), p.114 [3] H.Z.
CHEN: Shanxi Science &Technology of Communications (1999), p. 29 [5] A.M.
HAO: Journal of Chang’an University(Natural Science Edition), Vol. 22(2002) , p. 13
Online since: July 2014
Authors: Jian Zhong Cui, Song Lin Huang
Metallographic examination is one of the essential means of materials science research.
It also shows that automation and computerization in the field of material is not only feasible, but also essential for materials science research.
Zhang: Journal of Materials Processing Technology,Vol. 11 (2001) No.7, p.84
Zhou: Journal of Materials Science & Technology, Vol. 17 (2001) No.3, p.306
Yang and Z.L.Hu: Materials Review, Vol. 14 (2000) No.7, p.3.
It also shows that automation and computerization in the field of material is not only feasible, but also essential for materials science research.
Zhang: Journal of Materials Processing Technology,Vol. 11 (2001) No.7, p.84
Zhou: Journal of Materials Science & Technology, Vol. 17 (2001) No.3, p.306
Yang and Z.L.Hu: Materials Review, Vol. 14 (2000) No.7, p.3.
Online since: December 2005
Authors: Bing He Sun, Xian Qing Xie, Tian Chi Wang, Toshihiro Okabe, Tong Xiang Fan, Di Zhang
Synthesis of morph-genetic materials derived from biological structures by rapid,
high temperature conversion represents a novel technology of advanced materials processing.
Woods were selected as raw materials.
C.Wang and J.Tian: Chinese Journal of Materials Research Vol10(4)(1995), p.435 [12] X.
Fan et al.: Chinese Journal of Materials Research Vol. 16 (3)(2002), p.259 [13] T.Hirose, T.Fujino and T.
Xie, D.Zhang and T.X.Fan et al.: Materials Letters Vol.56(2002), p.102 [20] X.Q.Xie, T.X.Fan and B.H.Sun et al.: Materials Science and Engineering.
Woods were selected as raw materials.
C.Wang and J.Tian: Chinese Journal of Materials Research Vol10(4)(1995), p.435 [12] X.
Fan et al.: Chinese Journal of Materials Research Vol. 16 (3)(2002), p.259 [13] T.Hirose, T.Fujino and T.
Xie, D.Zhang and T.X.Fan et al.: Materials Letters Vol.56(2002), p.102 [20] X.Q.Xie, T.X.Fan and B.H.Sun et al.: Materials Science and Engineering.
Online since: April 2015
Authors: Wei Zhang, Sen Zhang, Bei Li, Jie Ping Xu
The development of advanced materials preparation by using levitation melting technology also is introduced in this paper.
In 2012, Zhao-Hui Ma, et al and Qing-Feng Yan,et al[3] reported the domestic relatively new research work and achievement, especially focused on high technology materials and particularly in terms of functional materials.
Fig.4 Cold Crucible Sketch design Fig.5 Cold crucible continuous casting sketch Functional Materials and Metal Single Crystal.
Reference [1] He-Li Luo and Feng-Zhong Li: submitted to Journal of Vacuum 1993(02) [2] Rui-Run Chen,Hong-Sheng Ding,et al: submitted to Journal of Rare metal materials and engineering Vol. 34, (2005), No. 4,p.510 [3] Zhao-Hui Ma, Qing-Feng Yan, et al: submitted to Journal of Material science (2012) [4] Bing-Bo Wei,et al: submitted to Journal of Aerospace 1988(12) [5] Xiao-Dong Wang, Kai-Dong Shang, et al: submitted to Journal of Vacuum (2006) [6] Quan Lu: submitted to Journal of Nanjing University 1988(02) [7] Di Feng, He-Li Luo,et al: submitted to Journal of Iron and Steel Research 1994(04) [8] Jun Zhang,Xie-Min Mao,et al: submitted to Journal of Solar Energy 1998( 02) [9] Kang Deng,et al: submitted to Journal of Metal 1999(07) [10] Jian-Qiang Chen and Zhong-Ming Ren: submitted to Journal of Iron and Steel research (2000) [11] De-Lin Li and Xie-Min Mao: submitted to Journal of Solar Energy 1993(03) [12] Yan-Li Wang and Hong-Sheng Ding: submitted to Journal of Special Casting
and Nonferrous Alloys 2005(11) [13] Heng-Zhi Fu,Hong-Sheng Ding,et al: submitted to Journal of Rare metal materials and engineering Vol. 37 (2008),(04) [14] Bei Li, China Patent ZL01274217.1 (2002) [15] Bei Li, China Patent ZL02110945.1 (2005) [16] Zeng-Lin Zhou, Yue-Qing Song,Shun Cui,et al:submitted to Journal of Nonferrous Metals(2007) [17] Da-Liang Sun, Min-Hua Jiang, Huan-Chu Chen,et al: submitted to Journal of Science (1987) [18] Yi-Ling Zhang, Qiang Li,et al: submitted to Journal of Material Science and Engineering (2000) [19] Guang-Heng Wu,et al: submitted to Journal Progress in Natural Science 1995, 5(6): 115-119
In 2012, Zhao-Hui Ma, et al and Qing-Feng Yan,et al[3] reported the domestic relatively new research work and achievement, especially focused on high technology materials and particularly in terms of functional materials.
Fig.4 Cold Crucible Sketch design Fig.5 Cold crucible continuous casting sketch Functional Materials and Metal Single Crystal.
Reference [1] He-Li Luo and Feng-Zhong Li: submitted to Journal of Vacuum 1993(02) [2] Rui-Run Chen,Hong-Sheng Ding,et al: submitted to Journal of Rare metal materials and engineering Vol. 34, (2005), No. 4,p.510 [3] Zhao-Hui Ma, Qing-Feng Yan, et al: submitted to Journal of Material science (2012) [4] Bing-Bo Wei,et al: submitted to Journal of Aerospace 1988(12) [5] Xiao-Dong Wang, Kai-Dong Shang, et al: submitted to Journal of Vacuum (2006) [6] Quan Lu: submitted to Journal of Nanjing University 1988(02) [7] Di Feng, He-Li Luo,et al: submitted to Journal of Iron and Steel Research 1994(04) [8] Jun Zhang,Xie-Min Mao,et al: submitted to Journal of Solar Energy 1998( 02) [9] Kang Deng,et al: submitted to Journal of Metal 1999(07) [10] Jian-Qiang Chen and Zhong-Ming Ren: submitted to Journal of Iron and Steel research (2000) [11] De-Lin Li and Xie-Min Mao: submitted to Journal of Solar Energy 1993(03) [12] Yan-Li Wang and Hong-Sheng Ding: submitted to Journal of Special Casting
and Nonferrous Alloys 2005(11) [13] Heng-Zhi Fu,Hong-Sheng Ding,et al: submitted to Journal of Rare metal materials and engineering Vol. 37 (2008),(04) [14] Bei Li, China Patent ZL01274217.1 (2002) [15] Bei Li, China Patent ZL02110945.1 (2005) [16] Zeng-Lin Zhou, Yue-Qing Song,Shun Cui,et al:submitted to Journal of Nonferrous Metals(2007) [17] Da-Liang Sun, Min-Hua Jiang, Huan-Chu Chen,et al: submitted to Journal of Science (1987) [18] Yi-Ling Zhang, Qiang Li,et al: submitted to Journal of Material Science and Engineering (2000) [19] Guang-Heng Wu,et al: submitted to Journal Progress in Natural Science 1995, 5(6): 115-119
Online since: July 2011
Authors: Yong Bo Wu, Zhi Qiang Liang, Yun Feng Peng, T. Jiang, X. Chen, Yin Biao Guo
Research on the Ductile Chip Formation in Grinding of Brittle Materials
Y.F.
Acknowledgement This work was supported by China National Natural Science Foundation (No.50905150).
Stephenson: Advances in Technology of Materials and Materials Processing Vol. 8(1) (2006), pp: 13-22
McPherson: Fine Scale Abrasive Wear of Ceramics by a Plastic Cutting Process, Science of Hard Materials, Institute Physics Conference Series Vol. 75(9) 1986, pp: 856-871
Li: Journal of Materials Processing Technology Vol. 113 (2001), pp: 348-354
Acknowledgement This work was supported by China National Natural Science Foundation (No.50905150).
Stephenson: Advances in Technology of Materials and Materials Processing Vol. 8(1) (2006), pp: 13-22
McPherson: Fine Scale Abrasive Wear of Ceramics by a Plastic Cutting Process, Science of Hard Materials, Institute Physics Conference Series Vol. 75(9) 1986, pp: 856-871
Li: Journal of Materials Processing Technology Vol. 113 (2001), pp: 348-354
Online since: August 2021
Authors: Anatoly Volodchenko, Aleksandr Volodchenko, Irina Cherepanova, Valery Lesovik
Nakhaev, Composite Binders with the Use of Fine Raw Materials of Volcanic Origin, International journal of environmental & science education. 11 (18) (2016) 12711-12716
Suleymanov, Energy-efficient concretes for green construction, Research journal of applied sciences. 9 (12) (2014) 1087-1090
Klyuev, A.V.Olisov, A.Taskin, Ali Mosaberpanah M., Effect of ash-slag mix and polypropylene fiber on the performances of concrete composite, Materials Science Forum. 1017 (2021) 1–17 [9] R.V.
Mugahed, Enhancing performances of clay masonry materials based on nanosize mine waste, Construction and Building Materials. 269 (2021) 121333
Bogusevich, Energy saving raw materials for the production of new generation silicate materials, International Journal of Pharmacy and Technology. 8 (4) (2016) 22673–22686.
Suleymanov, Energy-efficient concretes for green construction, Research journal of applied sciences. 9 (12) (2014) 1087-1090
Klyuev, A.V.Olisov, A.Taskin, Ali Mosaberpanah M., Effect of ash-slag mix and polypropylene fiber on the performances of concrete composite, Materials Science Forum. 1017 (2021) 1–17 [9] R.V.
Mugahed, Enhancing performances of clay masonry materials based on nanosize mine waste, Construction and Building Materials. 269 (2021) 121333
Bogusevich, Energy saving raw materials for the production of new generation silicate materials, International Journal of Pharmacy and Technology. 8 (4) (2016) 22673–22686.
Online since: March 2017
Authors: Gao Jun An, Xu Dong Wang, Chun Hua Xiong, Chang Bo Lu, You Jie Zhou, Zhen Li Yang
Study on Properties of Spherical Non-Metallic Explosion Suppression Materials
Zhou Youjiea,1, Lu Changbo b,1, Chunhua Xiong c,1, Yang Zhenli d,2,
An Gaojun e,1, Wang Xudong f,1
1 Beijing POL Research Institute, Beijing, 102300, China
2 Nanjing University of Science and Technology, Nanjing, 210094, China
aemail: zhoujie_76@126.com, bemail:luchgnbo@163.com, cemail:xch@sina.com.cn,
demail:258414976@qq.com, eemail: angaojun2013@163.com, femail:wangxudong3637@163.com
Keywords: explosion suppression; spherical explosion suppression materials; cook-off.
Explosion suppression materials of experiment filled with: HDPE spherical non-metallic explosion suppression materials.
China Safety Science Journal, 2013, 23(12):66-70
Journal of Loss Prevention in the Process Industries, 2008, 21(5):493-505
Journal of Shenyang Institute of Engineering, 2006, 2(2):176-178
Explosion suppression materials of experiment filled with: HDPE spherical non-metallic explosion suppression materials.
China Safety Science Journal, 2013, 23(12):66-70
Journal of Loss Prevention in the Process Industries, 2008, 21(5):493-505
Journal of Shenyang Institute of Engineering, 2006, 2(2):176-178