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Online since: July 2011
Authors: Jin Hong Gao
Introduction
The purpose of identification of Chinese traditional medicine is to identify whether the medicinal materials are genuine or not.
According to the compositions, structures and properties of medicinal materials, it utilizes the chemical method, instrument method or determination of physical constant to identify the authenticity of the medicinal materials.
Most of the medicinal materials are organic.
Chinese Medicinal Materials, 2006,29(7):663-665
Chinese Journal of Modern Applied Pharmacy, 2000,17(2):114-115
According to the compositions, structures and properties of medicinal materials, it utilizes the chemical method, instrument method or determination of physical constant to identify the authenticity of the medicinal materials.
Most of the medicinal materials are organic.
Chinese Medicinal Materials, 2006,29(7):663-665
Chinese Journal of Modern Applied Pharmacy, 2000,17(2):114-115
Online since: December 2016
Authors: Krystyna Stiller, Magnus Hörnqvist Colliander, Anand Harihara Subramonia Iyer
Sadananda, P.S., Materials science and engineering, 1980. 43(2): p. 159-168
[6] Woodford, D.A., Energy Materials, 2013. 1(1): p. 59-79
[7] Krupp, U., International Materials Reviews, 2005. 50(2): p. 83-97
[8] Viskari, L., et al., Materials Science and Engineering: A, 2011. 528(6): p. 2570-2580
[11] Hörnqvist, M., et al., Materials Science and Engineering: A, 2014. 609: p. 131-140.
[6] Woodford, D.A., Energy Materials, 2013. 1(1): p. 59-79
[7] Krupp, U., International Materials Reviews, 2005. 50(2): p. 83-97
[8] Viskari, L., et al., Materials Science and Engineering: A, 2011. 528(6): p. 2570-2580
[11] Hörnqvist, M., et al., Materials Science and Engineering: A, 2014. 609: p. 131-140.
Online since: February 2014
Authors: Hui Mei Zhang, Ming Liu
Dynamic Reliability of Stochastic Truss Structures under Random Load
Ming Liu a, Huimei Zhangb
College of Sciences, Xi’an University of Science and Technology, Xi’an, 710054, China
a liuming1075@163.com, b zhanghuimei68@163.com
Keywords: Stochastic parameter, Random load, Pseudo excitation method, Random factor method.
The material of this structure is steel.
Chinese journal of computational mechanics,2001,18(4):402-407, in Chinese
Journal of Mechanical Strength, 2005,27(5):590-593, in Chinese
Journal of Harbin Engineering University. 2002,23(1):132-135, in Chinese.
The material of this structure is steel.
Chinese journal of computational mechanics,2001,18(4):402-407, in Chinese
Journal of Mechanical Strength, 2005,27(5):590-593, in Chinese
Journal of Harbin Engineering University. 2002,23(1):132-135, in Chinese.
Online since: June 2014
Authors: Nan Qi Ren, Ai Jie Wang, Jin Yang Li, Sheng Zhou
Experimental
Materials.
Acknowledgements This research was supported by the funding from Project 50821002(National Creative Research Groups) supported by National Nature Science Foundation of China, National water pollution control technology major projects (2008ZX07207-005-003).
Chibowski: Journal of Colloid and Interface Science, 2007. 483(1): p. 201-203
Magriotis: Journal of Molecular Structure, 2008. 329(5): p. 341-345
[6] Yin, Y., et al.: Journal of Power Sources, 2013. 237: p. 58-63
Acknowledgements This research was supported by the funding from Project 50821002(National Creative Research Groups) supported by National Nature Science Foundation of China, National water pollution control technology major projects (2008ZX07207-005-003).
Chibowski: Journal of Colloid and Interface Science, 2007. 483(1): p. 201-203
Magriotis: Journal of Molecular Structure, 2008. 329(5): p. 341-345
[6] Yin, Y., et al.: Journal of Power Sources, 2013. 237: p. 58-63
Online since: December 2014
Authors: Woo Chun Choi, Yoon Keon Kim
The material of the cannonball was copper alloy, and the weight of the cannonball was 46.4kg.
The sand property was selected from ANSYS Explicit Material Data.
Journal of Applied Physics Vol.28(3) (1957), p. 370-376 [2] M.
International Journal of Engineering Science Vol.16(1) (1978), p. 1-99 [3] D.
International Journal of Mechanical Sciences Vol.22(5) (1980), p.297-311 [4] J.
The sand property was selected from ANSYS Explicit Material Data.
Journal of Applied Physics Vol.28(3) (1957), p. 370-376 [2] M.
International Journal of Engineering Science Vol.16(1) (1978), p. 1-99 [3] D.
International Journal of Mechanical Sciences Vol.22(5) (1980), p.297-311 [4] J.
Online since: May 2013
Authors: Chao Xun Zhou, Xiao Feng Xu, Feng Yao
It cost more to construct green compared with traditional one, since green materials cost significantly more than ordinary materials [6].
The survey of Zhang et al. [7] indicates that using green materials costs 3% to 4% more than the traditional materials.
Reasons as expensive green materials and complexity of designing and construction management may lead to the high cost.
Journal of green building. 312 (2008) 156-167
Journal of Cleaner Production. 19(2011)157-167
The survey of Zhang et al. [7] indicates that using green materials costs 3% to 4% more than the traditional materials.
Reasons as expensive green materials and complexity of designing and construction management may lead to the high cost.
Journal of green building. 312 (2008) 156-167
Journal of Cleaner Production. 19(2011)157-167
Online since: March 2014
Authors: Zheng Yang Song, Jin Wang Zhang, Zhao Long Li
(1)
The required particle diameter of quartz sand chosen by the model on the ratio of similar materials is ϕ ≤ 1.0mm.
The apparent density of cream powder is 0.8g/cm3, which is used for cementing different materials to increase the strength of materials.
And then, weigh the different materials required by each layer and mix them into the blender.
Journal of Xi 'an University of Science and Technology, 2008, 28 (2): 249-252
Science and Technology and Enterprise, 2012, (18): 89-90.
The apparent density of cream powder is 0.8g/cm3, which is used for cementing different materials to increase the strength of materials.
And then, weigh the different materials required by each layer and mix them into the blender.
Journal of Xi 'an University of Science and Technology, 2008, 28 (2): 249-252
Science and Technology and Enterprise, 2012, (18): 89-90.
Online since: January 2021
Authors: Xiao Yun Song, Song Xiao Hui, Wen Jun Ye
Ren, Physical metallurgy of Ti–Ni-based shape memory alloys, Progress in Materials Science, 2005, 50: 511
[2] Kim H Y, Ikehara Y, Kim J I, Hosoda H, Miyazaki S.
Materials Characterization [J], 2011, 62: 931 [5] Zhou Yinglong, Niinomi Mitsuo.
Materials Science and engineering A [J], 2013, 403: 706 [10] Kim J I, Kim H Y, Inamura Y, et al.
Shape memory characteristics of Ti-22Nb-(2-8) Zr (at.%) biomedical alloys, Materials Science and engineering A [J], 2005, 403: 334 [11] Ye Wenjun, Mi Xujun, Song Xiaoyun.
The competition between martensite and omega in quenched Ti-Nb alloys, Metallurgical Transaction A [J], 1988, 19: 1677 [14] Cui Y, Li Y, Luo K, Xu H B, Microstructure and shape memory effect of Ti-20Zr-10Nb alloy, Materials Science and engineering A [J], 2010, 527: 652
Materials Characterization [J], 2011, 62: 931 [5] Zhou Yinglong, Niinomi Mitsuo.
Materials Science and engineering A [J], 2013, 403: 706 [10] Kim J I, Kim H Y, Inamura Y, et al.
Shape memory characteristics of Ti-22Nb-(2-8) Zr (at.%) biomedical alloys, Materials Science and engineering A [J], 2005, 403: 334 [11] Ye Wenjun, Mi Xujun, Song Xiaoyun.
The competition between martensite and omega in quenched Ti-Nb alloys, Metallurgical Transaction A [J], 1988, 19: 1677 [14] Cui Y, Li Y, Luo K, Xu H B, Microstructure and shape memory effect of Ti-20Zr-10Nb alloy, Materials Science and engineering A [J], 2010, 527: 652
Online since: June 2011
Authors: Ding Fei Zhang, Hong Jun Hu, Jun Ping Zhang
College of Materials Science and Engineering, Chongqing University, China;
3.
[2] B.Li, S.Joshi, K.Azevedo, et al: Materials Science and Engineering A Vol. 1-2 (2009), p. 24
Lai: Materials Science and Engineering A Vol. 434 (2006), p. 227
Mahmudi: Materials and Design Vol. 31 (2010), p. 3512
Raghu: Materials and Design Vol. 30 (2009), p. 1050
[2] B.Li, S.Joshi, K.Azevedo, et al: Materials Science and Engineering A Vol. 1-2 (2009), p. 24
Lai: Materials Science and Engineering A Vol. 434 (2006), p. 227
Mahmudi: Materials and Design Vol. 31 (2010), p. 3512
Raghu: Materials and Design Vol. 30 (2009), p. 1050
Online since: July 2005
Authors: Li Jia Chen, Lin Yang, Zhen Liu, Wei Wu, C.M. Hong, Yue Wang, Feng Li
Materials Science and
Engineering, A302 (2001) 37-45
Journal of Materials Processing Technology, 117 (2001) 276-281
Journal of Materials Processing Technology, 117 (2001) 381-385
Materials Science and Engineering, A293 (2000) 15-18
Materials Science and Engineering, A307 (2001) 119-128
Journal of Materials Processing Technology, 117 (2001) 276-281
Journal of Materials Processing Technology, 117 (2001) 381-385
Materials Science and Engineering, A293 (2000) 15-18
Materials Science and Engineering, A307 (2001) 119-128