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Online since: July 2020
Authors: Yan Li Chen, Satoshk Ueharo
Orthogonal Test of Glass Fiber Reinforced Cement
Raw materials.
Journal of the Mechanical Behavior of Materials, 26(5-6) (2018) 193-203
Glass Technology: European Journal of Glass Science and Technology Part A, 58(5) (2017) 145-155
Materials Science Forum, 969(2019) 321-326
Materials Science Forum, 898(2017) 2065-2070
Journal of the Mechanical Behavior of Materials, 26(5-6) (2018) 193-203
Glass Technology: European Journal of Glass Science and Technology Part A, 58(5) (2017) 145-155
Materials Science Forum, 969(2019) 321-326
Materials Science Forum, 898(2017) 2065-2070
Online since: January 2013
Authors: Xian Li Liu, Yuan Sheng Zhai, Yu Wang
The tool material is cemented carbide YT15.
References [1] A.G.Mamalis, A.S.Branis: Journal of Materials Processing Technology, Vol, 123 (2002), pp. 464-475 [2] Yung-Chang Yen, Anurag Jain, Taylan Altan: Journal of Materials Processing Technology Vol, 146 (2004), pp. 72-81 [3] Lin,Z.
C.Lin, Y.Y: Journal of Materials Processing Technology, Vol, 115 (2001), pp.313-325 [4] Y.
Liu: Journal of Manufacturing Science and Engineering,Vol 124 (2002), pp. 190-199 [5] Gang Fang, Pan Zeng: Journal of Materials Processing Technology, Vol 168 (2005), pp. 42–48 [6] Li, R,A, J.
Shih: International Journal of Advanced Manufacturing Technology, Vol. 29(2006), pp. 253-261 [7] Y.S.Zhai, Y.C.Liang, and Q.S.Bai: Applied Mechanics and Materials Vols. 10-12 (2008), pp. 923-927
References [1] A.G.Mamalis, A.S.Branis: Journal of Materials Processing Technology, Vol, 123 (2002), pp. 464-475 [2] Yung-Chang Yen, Anurag Jain, Taylan Altan: Journal of Materials Processing Technology Vol, 146 (2004), pp. 72-81 [3] Lin,Z.
C.Lin, Y.Y: Journal of Materials Processing Technology, Vol, 115 (2001), pp.313-325 [4] Y.
Liu: Journal of Manufacturing Science and Engineering,Vol 124 (2002), pp. 190-199 [5] Gang Fang, Pan Zeng: Journal of Materials Processing Technology, Vol 168 (2005), pp. 42–48 [6] Li, R,A, J.
Shih: International Journal of Advanced Manufacturing Technology, Vol. 29(2006), pp. 253-261 [7] Y.S.Zhai, Y.C.Liang, and Q.S.Bai: Applied Mechanics and Materials Vols. 10-12 (2008), pp. 923-927
Online since: June 2012
Authors: Lu Jun
At the present, organic materials like foamed polystyrene board, polystyrene mortar, etc are widely used as the main thermal insulating materials in the external walls of buildings.
In comparison, the resources of inorganic materials are very ample in our country, and great progresses of inorganic thermal insulation materials in some critical problems make them the most likely substitute for organic heat-resisting materials in exterior walls.
Durability Inorganic heat-insulating materials like silicate, sulfur aluminate etc have the same material with the main structure of buildings.
Conclusions Sulfur aluminate heat insulating materials is a new generation high effective inorganic heat insulating materials developing from traditional foamed silicate heat insulating materials.
Journal of Zhejiang University of Science and Technology.2010.2:pp:120-124
In comparison, the resources of inorganic materials are very ample in our country, and great progresses of inorganic thermal insulation materials in some critical problems make them the most likely substitute for organic heat-resisting materials in exterior walls.
Durability Inorganic heat-insulating materials like silicate, sulfur aluminate etc have the same material with the main structure of buildings.
Conclusions Sulfur aluminate heat insulating materials is a new generation high effective inorganic heat insulating materials developing from traditional foamed silicate heat insulating materials.
Journal of Zhejiang University of Science and Technology.2010.2:pp:120-124
Online since: November 2013
Authors: Michael Ferry, Yi Cao, Kevin J. Laws
Metallurgical and Materials Transactions A, 1988. 19(2): p. 391-393
Materials Science and Engineering: A, 1994. 179-180(Part 1): p. 8-16
Materials Science and Engineering, 1988. 97(0): p. 385-390
The Open Materials Science Journal, 2011. 5: p. 40-44
Materials Transactions, JIM, 2006. 47(7): p. 1737-1742
Materials Science and Engineering: A, 1994. 179-180(Part 1): p. 8-16
Materials Science and Engineering, 1988. 97(0): p. 385-390
The Open Materials Science Journal, 2011. 5: p. 40-44
Materials Transactions, JIM, 2006. 47(7): p. 1737-1742
Test Study on Road Performance of Soils Stabilized by Liquid Stabilizer in Seasonally Frozen Regions
Online since: July 2012
Authors: Yi Qiu Tan, Yao Chen
However, the quantum of materials required for the construction is usually huge.
It can be used to form subase, road base and surface courses, a great deal of granular materials and cementious materials can be saved.
Experimental Process 1.1 Materials Liquid stabilizer—‘BS-100’,it contains no acids or explosive materials and is environmentally safe, non-toxic, non-corrosive, non-flammable,non-allergenic.
“Properties of S-soil solidified-agent for road performance.”Journal of Chang’an University (Natural Science Edition) J., 22(5): 20-23
Journal of South China University of Technology(Natural Science Edition) J., 34(9): 56-61
It can be used to form subase, road base and surface courses, a great deal of granular materials and cementious materials can be saved.
Experimental Process 1.1 Materials Liquid stabilizer—‘BS-100’,it contains no acids or explosive materials and is environmentally safe, non-toxic, non-corrosive, non-flammable,non-allergenic.
“Properties of S-soil solidified-agent for road performance.”Journal of Chang’an University (Natural Science Edition) J., 22(5): 20-23
Journal of South China University of Technology(Natural Science Edition) J., 34(9): 56-61
Online since: January 2017
Authors: Sen Yu, Zhen Tao Yu, Jin Long Niu, Xi Qun Ma, Han Yuan Liu, Jun Cheng
Zhang: Journal of the Mechanical Behavior of Biomedical Materials, Vol. 12 (2012), p.151
Ogawa: Materials Science Engineering C, Vol. 27 (2007) No.1, p.154
Laheurte: Journal of the Mechanical Behavior of Biomedical Materials, Vol. 18 (2013), p. 47
Sakuma: Materials Science Forum, Vol.426-432 (2003) No.1, p.681
Miyazaki: Materials Science and Engineering A, Vol. 438-440(2006), p.839
Ogawa: Materials Science Engineering C, Vol. 27 (2007) No.1, p.154
Laheurte: Journal of the Mechanical Behavior of Biomedical Materials, Vol. 18 (2013), p. 47
Sakuma: Materials Science Forum, Vol.426-432 (2003) No.1, p.681
Miyazaki: Materials Science and Engineering A, Vol. 438-440(2006), p.839
Online since: February 2018
Authors: Xiao Ling Liao, Qiu Hong Huang, Xin Yu Zhang, Mei Yang, Ze Yu Shao, Jin Xia Huang, Wen Feng Xu, Xiao Hu
Chip Materials.
Material is the basis of producing chips and it developed fast and well nowadays.
Accompany with the development of microfluidic chip, many materials was adopted to chip fabrication, such as inorganic polymer, glass, quartz, hydrogel, single crystal silicon, metal, etc.
PDMS material; 3.
Lab Chip, Vol.11 (2011) No.10 P1815-1824 [40] F.C.Yin,H.Wen and G.L.Zhu: Chinese Journal of Chromatography, Vol.34 (2016) No.11 P1031-1042 [41] C.Liu,S.C.Yang and M.Li: Journal of Instrumental Analysis, Vol.34 (2015) No.11 P1324-1330 [42] G.L.Zhang and J.Li: Journal of Yangtze University(Natural Science Edition), (2014) No.34 P52-55 [43] Y.B.Li,B.B.Zhang and Q.D.He: Journal of Instrumental Analysis, c [44] Yang F, Chen ZG, Pan JB, et al.
Material is the basis of producing chips and it developed fast and well nowadays.
Accompany with the development of microfluidic chip, many materials was adopted to chip fabrication, such as inorganic polymer, glass, quartz, hydrogel, single crystal silicon, metal, etc.
PDMS material; 3.
Lab Chip, Vol.11 (2011) No.10 P1815-1824 [40] F.C.Yin,H.Wen and G.L.Zhu: Chinese Journal of Chromatography, Vol.34 (2016) No.11 P1031-1042 [41] C.Liu,S.C.Yang and M.Li: Journal of Instrumental Analysis, Vol.34 (2015) No.11 P1324-1330 [42] G.L.Zhang and J.Li: Journal of Yangtze University(Natural Science Edition), (2014) No.34 P52-55 [43] Y.B.Li,B.B.Zhang and Q.D.He: Journal of Instrumental Analysis, c [44] Yang F, Chen ZG, Pan JB, et al.
Online since: June 2012
Authors: Li Wen Guo, Jia Yong Zhang, Xue Min Gong
Journal of China coal society, 2007, 32(2):173–178.
Journal of China coal society, 2007, 32(9):959–965.
Journal of SICHUAN university (engineering science edition), 2009, 41(6):1–5.
Journal of LIAONING technical university(natural science), 2009, 28(1):44–47.
Coal Science and Technology, 2010, 38(3):58–62.
Journal of China coal society, 2007, 32(9):959–965.
Journal of SICHUAN university (engineering science edition), 2009, 41(6):1–5.
Journal of LIAONING technical university(natural science), 2009, 28(1):44–47.
Coal Science and Technology, 2010, 38(3):58–62.
Online since: July 2011
Authors: Ya Ning Sun, Xiao Qing Guo, Li Jun Qu, De Ling Chi
Materials.
The more HRR or pkHHR is, the more heat materials release during burning, the easier to burn the material.
China's patent:02821560.5,2005.2.9 [2] Libin Wang Jianqi: Submitted to Journal of Polymer Materials Science &Engineering (1998), in Chinese
[4] Lijun Li, Zhongyao Pu, Feng Li: submitted to Journal of Fire Science and Technology (2009), in Chinese
[5] Ying Zhang, Qianwei Tang, Aiping Chen: submitted to Journal of Fire Science and Technology (2009), in Chinese.
The more HRR or pkHHR is, the more heat materials release during burning, the easier to burn the material.
China's patent:02821560.5,2005.2.9 [2] Libin Wang Jianqi: Submitted to Journal of Polymer Materials Science &Engineering (1998), in Chinese
[4] Lijun Li, Zhongyao Pu, Feng Li: submitted to Journal of Fire Science and Technology (2009), in Chinese
[5] Ying Zhang, Qianwei Tang, Aiping Chen: submitted to Journal of Fire Science and Technology (2009), in Chinese.