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Online since: February 2012
Authors: Hao Guo Tang, Yan Long Wang, Mi Mi Guo
The roots of Angelica dahurica were purchased from the medicinal materials wholesale market of Yuzhou in Henan province.
The concentration of sample was 0.1g medicinal materials per milliliter.
When the concentration of sample solution is 0.1g medicinal materials per milliliter adsorbent percentage is higher than others.
So in this research, 0.1g medicinal materials per milliliter and 1ml/min are determined.
Jia, etal: West china journal of pharmaceutical sciences Vol. 20 (2005), p. 159-160 [6] S.D.
The concentration of sample was 0.1g medicinal materials per milliliter.
When the concentration of sample solution is 0.1g medicinal materials per milliliter adsorbent percentage is higher than others.
So in this research, 0.1g medicinal materials per milliliter and 1ml/min are determined.
Jia, etal: West china journal of pharmaceutical sciences Vol. 20 (2005), p. 159-160 [6] S.D.
Online since: September 2007
Authors: Xu Dong Ren, Yong Kang Zhang, Y.H. Li, W. Cheng, M. Zhuang
International Journal of Fatigue ,1199,21:S199-S209
[2] Grevey D, Maiffredy L, Vannes A B, Journal of Materials Science,1992,27:p2110~2116
[3] G.
Rubio-Gonzalez et al, Applied Surface Science 252 (2005) 883-887 [4] X.D.Ren,Y.K.
Journal of Applied Physics,Vol. 91(2002), P.5775 [6] C.
Applied Surface Science, Vol.252 (2006), P 6201 [7] T.
Applied Surface Science, Vol. 25(2006),P. 6201 [9] J.E.
Rubio-Gonzalez et al, Applied Surface Science 252 (2005) 883-887 [4] X.D.Ren,Y.K.
Journal of Applied Physics,Vol. 91(2002), P.5775 [6] C.
Applied Surface Science, Vol.252 (2006), P 6201 [7] T.
Applied Surface Science, Vol. 25(2006),P. 6201 [9] J.E.
Online since: January 2013
Authors: Tian Bin Li, Shi Han Shen, Yu Yu Zhang, Qing Le Zeng
New Chemical Materials Vol.37(5) (2009),p. 22-24
Heilongjiang A ricultural Science Vol.12 (2012), p. 124-127
Journal of Applied Polymer Science Vol.105 (2007), p. 2631–2639
Journal of Henan University ( Natural Science), Vol.40(2) (2010), p. 151-155
Polymer Materials Science and Engineering, Vol.(4) (2005), p. 201-204.
Heilongjiang A ricultural Science Vol.12 (2012), p. 124-127
Journal of Applied Polymer Science Vol.105 (2007), p. 2631–2639
Journal of Henan University ( Natural Science), Vol.40(2) (2010), p. 151-155
Polymer Materials Science and Engineering, Vol.(4) (2005), p. 201-204.
Online since: January 2014
Authors: Hong Bin Li, Fei Zhao, Bao Kuan Ning
When the cement content less than 5%, the strength of the stabilized materials change not obviously, when the cement content is more than 7%, the strength of the stabilized materials grow rapidly.
Therefore, in order to obtain higher strength of stabilized materials, we suggested that the cement content should not be less than 5% when we use cement as inorganic gelled materials and stabilized tailings in the project.
In the project, we can consider that the complex stress state of stable materials can effect on materials’ mechanical property.
Journal of Engineering and Materials Sciences, 2001, 8 (6): 318-326
Canadian Geotechnical Journal, 2002, 39 (5): 1193-1200
Therefore, in order to obtain higher strength of stabilized materials, we suggested that the cement content should not be less than 5% when we use cement as inorganic gelled materials and stabilized tailings in the project.
In the project, we can consider that the complex stress state of stable materials can effect on materials’ mechanical property.
Journal of Engineering and Materials Sciences, 2001, 8 (6): 318-326
Canadian Geotechnical Journal, 2002, 39 (5): 1193-1200
Online since: December 2013
Authors: Fang Sung Cheng, Yu Shun Cheng
Materials and experiment parameters.
Lu, Near net shape forming process of a titanium alloy impeller, Journal of Materials Processing Technology 187/188 (2007) 582-.585
[2] Hu Yamin, Lai Zhouyi and Zhang Yucheng, The study of cup-rod combined extrusion processes of magnesium alloy (AZ61A), Journal of Materials Processing Technology 187/188 (2007) 649-.652
Mori, Sinter-joining of different metal powder compacts using resistance heating, Journal of Materials Processing Technology 143 (2003) 561-566
[8] Men Zheng-xing, Zhou Jie and Xu Zhi-min, Sinter-joining of different metal powder compacts using resistance heating, Materials Science Forum 704 (2012) 252-260.
Lu, Near net shape forming process of a titanium alloy impeller, Journal of Materials Processing Technology 187/188 (2007) 582-.585
[2] Hu Yamin, Lai Zhouyi and Zhang Yucheng, The study of cup-rod combined extrusion processes of magnesium alloy (AZ61A), Journal of Materials Processing Technology 187/188 (2007) 649-.652
Mori, Sinter-joining of different metal powder compacts using resistance heating, Journal of Materials Processing Technology 143 (2003) 561-566
[8] Men Zheng-xing, Zhou Jie and Xu Zhi-min, Sinter-joining of different metal powder compacts using resistance heating, Materials Science Forum 704 (2012) 252-260.
Online since: December 2024
Authors: Abdul Hamid, Masyrukan Masyrukan, Bambang Waluyo Febriantoko, Agus Yulianto, Bibit Sugito, Turnad Lenggo Ginta, Agung Setyo Darmawan
Materials Science Forum 2020;991:17–23. https://doi.org/10.4028/www.scientific.net/MSF.991.17
Materials Science Forum 2022;1051:111–8. https://doi.org/10.4028/www.scientific.net/MSF.1051.111
Materials Science and Engineering: A 2023;868:144757. https://doi.org/10.1016/j.msea.2023.144757
Materials Science and Engineering: A 2022;836:142736. https://doi.org/10.1016/j.msea.2022.142736
Materials Science and Engineering: A 2023;862:144369. https://doi.org/10.1016/j.msea.2022.144369.
Materials Science Forum 2022;1051:111–8. https://doi.org/10.4028/www.scientific.net/MSF.1051.111
Materials Science and Engineering: A 2023;868:144757. https://doi.org/10.1016/j.msea.2023.144757
Materials Science and Engineering: A 2022;836:142736. https://doi.org/10.1016/j.msea.2022.142736
Materials Science and Engineering: A 2023;862:144369. https://doi.org/10.1016/j.msea.2022.144369.
Online since: October 2014
Authors: Jamaluddin Mahmud, Mohd Adnan Zurri Adam, Mohd Zailani Mohd Zairil Hafizi, Mohd Din Muhamad Irwan
Today, various engineering applications such as aerospace, ship and automobile parts involve fabrication utilising composite materials, especially woven composite laminates.
Jones, Mechanics of Composite Materials, Scripta Book Company, Washington D.C. 1975
Kurashiki, Finite element analysis of damaged woven fabric composite materials, Composites Science and Technology, vol. 63 (2003) 507–516
Mahmud, Finite element implementation to predict the failure of composite laminates under uniaxial tension, Advanced Materials Research, vol. 499 (2012) 20–24
Najjar, Behavior of [0]8 woven composites under combined bending and tension loading: part - 1 experimental and analytical, Journal of Composite Materials, vol. 46 (2012) 1345-1355.
Jones, Mechanics of Composite Materials, Scripta Book Company, Washington D.C. 1975
Kurashiki, Finite element analysis of damaged woven fabric composite materials, Composites Science and Technology, vol. 63 (2003) 507–516
Mahmud, Finite element implementation to predict the failure of composite laminates under uniaxial tension, Advanced Materials Research, vol. 499 (2012) 20–24
Najjar, Behavior of [0]8 woven composites under combined bending and tension loading: part - 1 experimental and analytical, Journal of Composite Materials, vol. 46 (2012) 1345-1355.
Online since: June 2017
Authors: Wen Ping Chen, Wei Chen, Heng Xue Xiang, Wei Xia, Yan Li, Li Jun Chen, Jie Zhao, Mei Fang Zhu
Materials and Experimental
Materials.
Journal of Beijing Institute of Clothing Technology (Natural Science Edition), 2009, 29(2):5-10
Solar Energy Materials and Solar Cells, 2016, 157: 676-685
Journal of Materials Science, 2015, 50(17): 5729-5738
Journal of Applied Polymer Science, 2012, 124(6): 4809-4818.
Journal of Beijing Institute of Clothing Technology (Natural Science Edition), 2009, 29(2):5-10
Solar Energy Materials and Solar Cells, 2016, 157: 676-685
Journal of Materials Science, 2015, 50(17): 5729-5738
Journal of Applied Polymer Science, 2012, 124(6): 4809-4818.
Online since: August 2014
Authors: Themistoklis D. Kefalas, Antonios Kladas, Zachos K. Papazacharopoulos, Konstantinos Dimolikas, Petros Karaisas
Kladas: Journal of Materials Science Forum, Vol. 670, (2011), p. 259
Kladas: Journal of Materials Science Forum, Vol. 721, (2012), p. 141
Kladas: Journal of Materials Science Forum, Vol. 670, (2011), p. 252
Enokizono: Journal of Materials Science Forum, Vol. 670, (2011), p. 51
Tsuchiya: Journal of Materials Science Forum, Vol. 670, (2011), p. 360
Kladas: Journal of Materials Science Forum, Vol. 721, (2012), p. 141
Kladas: Journal of Materials Science Forum, Vol. 670, (2011), p. 252
Enokizono: Journal of Materials Science Forum, Vol. 670, (2011), p. 51
Tsuchiya: Journal of Materials Science Forum, Vol. 670, (2011), p. 360
Online since: September 2014
Authors: Ye Hua Jiang, Jia Wang, Rong Zhou, Rong Feng Zhou, Lu Li
This work is supported by the Institute of Advanced Materials Processing, Kunming University of Science and Technology, Kunming, China.
Ordnance Material Science and Engineering. 28 (2005) 35-37 [8] C.
Materials and Science and Engineering A 417 (2006) 90-98
Journal of Materials Processing Technology. 176 (2006) 45-54
Journal of Materials Processing Technology. 138 (2003) 306-310
Ordnance Material Science and Engineering. 28 (2005) 35-37 [8] C.
Materials and Science and Engineering A 417 (2006) 90-98
Journal of Materials Processing Technology. 176 (2006) 45-54
Journal of Materials Processing Technology. 138 (2003) 306-310