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Online since: September 2013
Authors: Xing Huang, Yi Tong Liu
The reinforced materials in accordance with the one-dimensional consideration is an axial tensile stiffness EA, using kN/m.
Journal of Lanzhou University of Technology, 2011,(2)
Journal of Hohai University (Natural Sciences ) ,2008,(5)
Journal of Railway Science and Engineering, 2008,(4)
Journal of Tongji University(Natural Science), 2008,(8)
Journal of Lanzhou University of Technology, 2011,(2)
Journal of Hohai University (Natural Sciences ) ,2008,(5)
Journal of Railway Science and Engineering, 2008,(4)
Journal of Tongji University(Natural Science), 2008,(8)
Online since: September 2014
Authors: Lian Jun Wang, Yuan Cheng, Chun Lei Zhang, Li Hua Liu, Hong Xu, Cai Ping Mo, Yang Liu
Materials and Methods
The waste drawing lubricants used in this work came from a wire rope plant of Jiang-yin, produced in the process of wet drawing.
Journal of Materials Processing Technology, 56(1996), p. 786-797
Journal of Membrane Science, 106 (1995), p. 195-205
Journal of Materials Processing Technology, 109 (2001), p. 181-189
Journal of Environmental Sciences, 15 (2003), p. 334-338
Journal of Materials Processing Technology, 56(1996), p. 786-797
Journal of Membrane Science, 106 (1995), p. 195-205
Journal of Materials Processing Technology, 109 (2001), p. 181-189
Journal of Environmental Sciences, 15 (2003), p. 334-338
Online since: August 2013
Authors: Run Shan Bai, Jian Suo Ma, Huan Qin Cai, Jing Sun
The raw materials used in the experiments are lightweight materials; it is advisable to adopt the pressure vibration molding process to reduce aggregate stratification.
Larger numbers of stalks used as building materials can not only handle stalks for increasing farmers' income, but also provide plenty of construction raw materials.
Experimental Materials Corn Stalks.
Corn stalks made into cement-based building materials are due to the performance of the straw itself.
(Science Press,Beijing 2005) ,InChinese
Larger numbers of stalks used as building materials can not only handle stalks for increasing farmers' income, but also provide plenty of construction raw materials.
Experimental Materials Corn Stalks.
Corn stalks made into cement-based building materials are due to the performance of the straw itself.
(Science Press,Beijing 2005) ,InChinese
Online since: August 2014
Authors: Rui Liu, Wen Jun Ye, Yang Yu, Song Xiao Hui, Yan Yan Fu, Xiao Yun Song, Cheng Lin Li
Thus, the cost of raw materials can be obviously reduced by EBCHM technology.
Materials Science and Engineering, A, 1999, 263(2): 217-223
Materials Science and Engineering, A, 2003, 346(1-2): 178-188
Materials Science and Engineering A, 2012, 537: 1-10
Materials Science and Engineering: A, 2013, 575: 15-20
Materials Science and Engineering, A, 1999, 263(2): 217-223
Materials Science and Engineering, A, 2003, 346(1-2): 178-188
Materials Science and Engineering A, 2012, 537: 1-10
Materials Science and Engineering: A, 2013, 575: 15-20
Online since: July 2013
Authors: Pragnesh N. Dave, Shalini Chaturvedi
Augustynski, Metal oxide photoanodes for solar hydrogen production, Journal of Materials Chemistry, 18(20) (2008) 2298-303
[11] R Van De Krol, Y Liang, J Schoonman, Solar hydrogen production with nanostructured metal oxides, Journal of Materials Chemistry,18(20) (2008) 2311-20
New York: Nova Science, (2000)
Miseki, Heterogeneous photocatalyst materials for water splitting, Chem.
Fierro, "Photocatalytic water splitting under visible Light: concept and materials requirements", Advances in Chemical Engineering, 36 (2009) 111–143
[11] R Van De Krol, Y Liang, J Schoonman, Solar hydrogen production with nanostructured metal oxides, Journal of Materials Chemistry,18(20) (2008) 2311-20
New York: Nova Science, (2000)
Miseki, Heterogeneous photocatalyst materials for water splitting, Chem.
Fierro, "Photocatalytic water splitting under visible Light: concept and materials requirements", Advances in Chemical Engineering, 36 (2009) 111–143
Online since: May 2010
Authors: Ya Fang Han, Shu Suo Li, Li Wu Jiang
Effects of Conical Transition Section on Microstructure of a Ni3Al-base
Single Crystal Superalloy IC6SX
Liwu JIANG1,a, Shusuo LI1, Yafang HAN
1,2
1School of Materials Science and Engineering, Beihang University, Beijing 100191
2
Beijing Institute of Aeronautical Materials, Beijing 100095
a
lwjiang@buaa.edu.cn
Keywords: conical transition section, Ni3Al based single crystal alloy, IC6SX, Crystal Growth
Abstract.
Materials for turbine blades have been developed from equiaxed cast alloys to directionally solidified columnar crystal alloys, and to single crystal superalloys.
Materials Science and Engineering A, 413-414 (2005) 151-155 [2] A.
Materials Science and Engineering A, 374 (2004) 270-279 [3] R.Z.
LI, Review and prospect on developments of cast superalloys, Journal of Aeronautical Materials, 2000 , 20 (1) : 55 - 61
Materials for turbine blades have been developed from equiaxed cast alloys to directionally solidified columnar crystal alloys, and to single crystal superalloys.
Materials Science and Engineering A, 413-414 (2005) 151-155 [2] A.
Materials Science and Engineering A, 374 (2004) 270-279 [3] R.Z.
LI, Review and prospect on developments of cast superalloys, Journal of Aeronautical Materials, 2000 , 20 (1) : 55 - 61
Online since: January 2012
Authors: Fu Zhong Wang, Hui Fan
Materials Science and Technology, 2010, 26(8):988-995
[2] C.
Materials Science and Engineering A 528 (2011): 6066–6071 [3] A.A.Khamei,K.Dehghani.
Materials Science and Engineering A,527(2010):3493-3500 [5] Siqian Bao, Gang Zhao, Chibin Yu.
Computational Materials Sciience,47(2009):568-576 [7] Wang Fuzhong, Lu lu, Zhang Huichun et al.
Journal of Mechanical Engineering, 2008, 3(54):219-224
Materials Science and Engineering A 528 (2011): 6066–6071 [3] A.A.Khamei,K.Dehghani.
Materials Science and Engineering A,527(2010):3493-3500 [5] Siqian Bao, Gang Zhao, Chibin Yu.
Computational Materials Sciience,47(2009):568-576 [7] Wang Fuzhong, Lu lu, Zhang Huichun et al.
Journal of Mechanical Engineering, 2008, 3(54):219-224
Online since: October 2010
Authors: Yu Hang Gao, Yun Kai Gao, Da Wei Gao
Magnesium is the lightest of all the engineering metal materials, having a density of 1.74g/mm3, which is 35% lighter than aluminum and 78% lighter than steel[1].
To these accessory parts which are not suitable for the use of magnesium alloy, such as headrest run rail (made of plastic), lock (made of steel), and reinforcement parts where very high strength and stiffness is needed, their structures and materials are kept unchanged.
Magnesium: submitted to Journal of Material(2002) [2] Mordike B L, Ebert T: submitted to Journal of Material Science Engineering Application(2001) [3]Aghion E, Bronfin B, Eliezer D: submitted to Journal of Material Process Technology(2001) [4]F.
Friedrich, S: submitted to Journal of Material Processing Technology (2001) [6]Yang Lian-fa, Mori Ken-ichiro, Tsuji Hirokazu.: submitted to Journal of Nonferrous metal (2008) [7]P.
Droder: submitted to Journal of Material Process and Technology (2001) [12] E.
To these accessory parts which are not suitable for the use of magnesium alloy, such as headrest run rail (made of plastic), lock (made of steel), and reinforcement parts where very high strength and stiffness is needed, their structures and materials are kept unchanged.
Magnesium: submitted to Journal of Material(2002) [2] Mordike B L, Ebert T: submitted to Journal of Material Science Engineering Application(2001) [3]Aghion E, Bronfin B, Eliezer D: submitted to Journal of Material Process Technology(2001) [4]F.
Friedrich, S: submitted to Journal of Material Processing Technology (2001) [6]Yang Lian-fa, Mori Ken-ichiro, Tsuji Hirokazu.: submitted to Journal of Nonferrous metal (2008) [7]P.
Droder: submitted to Journal of Material Process and Technology (2001) [12] E.
Online since: June 2010
Authors: Li Ping Wang
However, the domestic textile materials on the one hand is of inadequate
supply, on the other hand, the quality of textile raw materials are hard to meet the requirements of
international production, as well as the foreign-funded enterprises are in a large number, thus China
need to import large quantities of textile raw materials annually (mainly primary raw materials and
semi-finished products) to alleviate the domestic shortage of supply, the result of which is that the
continuous growth of China's textile exports draw the continuous expansion of textile imports.
Conversely, a large number of imports of high-grade textile raw materials has further enhanced the quality of China's textiles and garments, and has accelerated the process of advance, upgrading the competition in the high-end market, and thus the development of the import trade has driven the growth of exports trade [1-2].
[3] Zhao, Jun-Li, Trade friction, upgrading path and development of Chinese textile and apparel industry, Journal of Donghua University (English Edition), vol. 25, no. 1, p. 88-94, 2008
[6] Chi, Ting, An assessment of US comparative advantage in technical textiles from a trade perspective, Journal of Industrial Textiles, vol. 35, no. 1, p. 17-37, 2005
[7] Lim, M., The development pattern of the global textile industry and trade part I: Evidence from textile exports of the EC, the Far East, and Emerging Textile Exporting countries in the 1980s, Journal of the Textile Institute Part 1: Fibre Science and Textile Technology, vol. 94, no. 2, p. 32-52, 2003.
Conversely, a large number of imports of high-grade textile raw materials has further enhanced the quality of China's textiles and garments, and has accelerated the process of advance, upgrading the competition in the high-end market, and thus the development of the import trade has driven the growth of exports trade [1-2].
[3] Zhao, Jun-Li, Trade friction, upgrading path and development of Chinese textile and apparel industry, Journal of Donghua University (English Edition), vol. 25, no. 1, p. 88-94, 2008
[6] Chi, Ting, An assessment of US comparative advantage in technical textiles from a trade perspective, Journal of Industrial Textiles, vol. 35, no. 1, p. 17-37, 2005
[7] Lim, M., The development pattern of the global textile industry and trade part I: Evidence from textile exports of the EC, the Far East, and Emerging Textile Exporting countries in the 1980s, Journal of the Textile Institute Part 1: Fibre Science and Textile Technology, vol. 94, no. 2, p. 32-52, 2003.
Online since: March 2019
Authors: Ying Hua Liu, Hui Peng
There are several typical methods to describe the crack-tip field for homogenous materials.
On the other hand, Chao et al. [6] extended the J-A2 approach[3] for elastic-plastic hardening materials to C(t)-A2(t) approach for the power-law creeping materials and provided the three-term asymptotic solution for creep crack.
The yield stress, Young’s modulus E and Poisson ratio v for both materials are taken as 180 MPa, 125000 MPa and 0.3, respectively.
These materials are the 1/2CrMoV steel for base material and the 2.25Cr1Mo steel for weld material which are used widely in high temperature pressure vessels.
Journal of Applied Mechanics. 1991;58:104
On the other hand, Chao et al. [6] extended the J-A2 approach[3] for elastic-plastic hardening materials to C(t)-A2(t) approach for the power-law creeping materials and provided the three-term asymptotic solution for creep crack.
The yield stress, Young’s modulus E and Poisson ratio v for both materials are taken as 180 MPa, 125000 MPa and 0.3, respectively.
These materials are the 1/2CrMoV steel for base material and the 2.25Cr1Mo steel for weld material which are used widely in high temperature pressure vessels.
Journal of Applied Mechanics. 1991;58:104