Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: July 2011
Authors: Zhi Fa Wang, Jing Long Bu, Rong Lin Wang, Jian Zhang
Nygren: Journal of the American Ceramic Society, Vol. 75 (1992), p. 259
Zhang, et al: Materials and Design, Vol. 27 (2006), p. 595
Jiang, et al: Materials Science and Engineering A, Vol. 300 (2001), p.61
Kibble, et al: Materials and Design, Vol. 21 (2000), p. 453
Traver: Materials and Design, Vol. 31 (2010), p. 3641
Zhang, et al: Materials and Design, Vol. 27 (2006), p. 595
Jiang, et al: Materials Science and Engineering A, Vol. 300 (2001), p.61
Kibble, et al: Materials and Design, Vol. 21 (2000), p. 453
Traver: Materials and Design, Vol. 31 (2010), p. 3641
Online since: August 2017
Authors: Alexandru Popa, Liliana Rozemarie Manea, Anisoara Bertea
Sefat, Potential of electrospun nanofibers for biomedical and dental applications, Materials 9 (2016) 73-94
[10] F.L Zhou, R.H Gong, I.
Qin, Medical Textile Materials, Woodhead Publishing, Cambridge, 2016 [13] P.H.
Ranganathan, Needleless Electrospinning Technology – An Entrepreneurial Perspective, Indian Journal of Science and Technology 9 (2016) 2-11 [23] D.
Syková, Nanofibers prepared by needleless electrospinning technology as scaffolds for wound healing, Journal of Materials Science: Materials in Medicine 23 (2012) 931–941 [26] D.
Chang, Electrospun nanofibrous materials for tissue engineering and drug delivery, Science and Technology of Advanced Materials 11 (2010) 2-12 [34] S.
Qin, Medical Textile Materials, Woodhead Publishing, Cambridge, 2016 [13] P.H.
Ranganathan, Needleless Electrospinning Technology – An Entrepreneurial Perspective, Indian Journal of Science and Technology 9 (2016) 2-11 [23] D.
Syková, Nanofibers prepared by needleless electrospinning technology as scaffolds for wound healing, Journal of Materials Science: Materials in Medicine 23 (2012) 931–941 [26] D.
Chang, Electrospun nanofibrous materials for tissue engineering and drug delivery, Science and Technology of Advanced Materials 11 (2010) 2-12 [34] S.
Online since: December 2012
Authors: Yu Tao Zhao, Yan Wei Yang, Zhong Zhong Zhang, Lei Jiao, Ming Rui Zhang
Preparation and Wear Properties of (Al3Zr+ZrB2)P/2124 composites Material with In-situ Process
Lei Jiao,Yutao Zhao1,a,Zhongzhong Zhang,YanWei Yang,Mingrui Zhang
(School of Material Science and Engineering, Jiangsu University, Zhenjiang 212013, China)
azhaoyt@ujs.edu.cn
Keywords: 2124 matrix metal composite, magnetic field, microstructure
Abstract: With pulse magnetic field, it is use 2124-K2ZrF6-KBF4 as matrix metal to produce chemical reaction to gain (Al3Zr+ZrB2) p/2124 composite materials in this paper.
While the pure metal has failed to meet the developing requirements, it will be one of the tendencies of the development of the materials science to compound material.
Matched and grinding materials are 440C stainless steel whose hardness is 62 RC and diameter of 9.5 mm.
Tribology Theory, [M].Beijing:Tsinghua University Press, 2002:301 [5]Wang H Y, Jiang Q C, Zhao Y Q, et al.Fabrication of TiB2 and TiB2-TiC particulates reinforced magnesium matrix composites[J].Materials Science and Engineering A,2004,372(1): 109-114
Chinese Journal of Rare Metals, 1999, 23(3): 214-219.
While the pure metal has failed to meet the developing requirements, it will be one of the tendencies of the development of the materials science to compound material.
Matched and grinding materials are 440C stainless steel whose hardness is 62 RC and diameter of 9.5 mm.
Tribology Theory, [M].Beijing:Tsinghua University Press, 2002:301 [5]Wang H Y, Jiang Q C, Zhao Y Q, et al.Fabrication of TiB2 and TiB2-TiC particulates reinforced magnesium matrix composites[J].Materials Science and Engineering A,2004,372(1): 109-114
Chinese Journal of Rare Metals, 1999, 23(3): 214-219.
Online since: December 2010
Authors: Hong Xia Shao, Yan Ding, Jin Sheng Liang, Qing Guo Tang
It is widely used due to easy obtainment of raw materials, simple technology, low cost, convenience and excellent adhere performance [1].
Liu: Journal of Fujian College of Forestry, Vol. 24 (2004), p. 114 [4] C.
Ozalp and Huseyin Yesil: International Journal of Adhesion and Adhesives,Vol. 29 (2009), p. 589 [5] X.
Xing: China Forestry Science and Technology, Vol. 1 (1997), p. 34 [6] Z.
Chai: Journal of Jilin Forestry Institute, Vol. 3 (1987), p. 27
Liu: Journal of Fujian College of Forestry, Vol. 24 (2004), p. 114 [4] C.
Ozalp and Huseyin Yesil: International Journal of Adhesion and Adhesives,Vol. 29 (2009), p. 589 [5] X.
Xing: China Forestry Science and Technology, Vol. 1 (1997), p. 34 [6] Z.
Chai: Journal of Jilin Forestry Institute, Vol. 3 (1987), p. 27
Online since: July 2014
Authors: Fu Wei Kang, Yu Xiong, Xin Bai, Dong Dong Zhang, Peng Liu, Tian Long Yang, Yi Cheng Feng
Study on Preparation and Refining Efficiency of Al-5Ti-1C Master Alloy Refiner
Fuiwei Kanga, Yu Xiong, Xin Bai, Dongdong Zhang, Peng Liu, Tianlong Yang, Yicheng Feng
School of Materials Science and Engineering, Harbin University of Science and Technology, Harbin 150040, China
afuwei_kang@163.com
Keywords: Al-5Ti-1C master alloy, refiner, microstructure.
The present work aims at preparing the Al-5Ti-1C master alloy by the melt reaction process which add the compacted mixture of titanium, aluminum and graphite powder into molten Al at different conditions, and evaluating its refining efficiency to purity aluminum. 2.Experimental procedure 2.1 Material preparation Commercial purity aluminum powder (99.8%, 200 grid), titanium powder (99.5%, 200 grid) and graphite powder (99.9%, 1200 grid) were used in the experiments as a source of titanium and carbon, respecitively.
References [1] Z.S.Gao: Light Metal (1999) [2] M.A.Doheim, A.M.Omaran, A.Abdel-Gwad: Metallurgical and Materials Transactions A(2011) [3] T.Sagstad , E.
Mruty and M.Chakraborty : Materials Science and Technology (1997) [5] Q.B.Zhang, H.S.Fang, J.G.Li, H.T.Ma: Journal of Material Science Letters (2000) [6] D.H.Wen, M.G.Yang, H.Zhang: Light Alloy Fabrication Technology (2007) [7] X.C.Xu, J.S.Zhang: Materials Science and Technology (2001) [8] H.M.Ding, X.F.Liu, L.N.Yu: Journal of Materials Science (2007) [9] J.G.Li, L.Wang: Light Alloy Fabrication Technology (2003) [10] X.Q.Jiang,C.K.
Lu: Sichuan Nonferrous Metals (2002) [11] P.Moldovan, G.Popescu: Journal of Metal (2004)
The present work aims at preparing the Al-5Ti-1C master alloy by the melt reaction process which add the compacted mixture of titanium, aluminum and graphite powder into molten Al at different conditions, and evaluating its refining efficiency to purity aluminum. 2.Experimental procedure 2.1 Material preparation Commercial purity aluminum powder (99.8%, 200 grid), titanium powder (99.5%, 200 grid) and graphite powder (99.9%, 1200 grid) were used in the experiments as a source of titanium and carbon, respecitively.
References [1] Z.S.Gao: Light Metal (1999) [2] M.A.Doheim, A.M.Omaran, A.Abdel-Gwad: Metallurgical and Materials Transactions A(2011) [3] T.Sagstad , E.
Mruty and M.Chakraborty : Materials Science and Technology (1997) [5] Q.B.Zhang, H.S.Fang, J.G.Li, H.T.Ma: Journal of Material Science Letters (2000) [6] D.H.Wen, M.G.Yang, H.Zhang: Light Alloy Fabrication Technology (2007) [7] X.C.Xu, J.S.Zhang: Materials Science and Technology (2001) [8] H.M.Ding, X.F.Liu, L.N.Yu: Journal of Materials Science (2007) [9] J.G.Li, L.Wang: Light Alloy Fabrication Technology (2003) [10] X.Q.Jiang,C.K.
Lu: Sichuan Nonferrous Metals (2002) [11] P.Moldovan, G.Popescu: Journal of Metal (2004)
Online since: December 2014
Authors: You Zhen Yang, Han Lin Ma, Zi Fan Guo
The rock belongs to brittle material.
The rock is brittle material.
Chinese Journal of rock mechanics and Engineering, 1995, 16(3): 43-48.
Sciences of Conservation and Archaeology, 2007, 19(4): 37-40.
International Journal of Rock Mechanics and Mining Sciences, 2013, 62: 34-41
The rock is brittle material.
Chinese Journal of rock mechanics and Engineering, 1995, 16(3): 43-48.
Sciences of Conservation and Archaeology, 2007, 19(4): 37-40.
International Journal of Rock Mechanics and Mining Sciences, 2013, 62: 34-41
Online since: November 2005
Authors: Akira Kohyama, Joon Soo Park, Hun Chae Jung, Bu Ahn Kim, Han Ki Yoon
Fracture Toughness of Liquid Phase Sintered SiC
by using Indentation Fracture Method
Hun Chae Jung
1,a, Han Ki Yoon
2,b, Bu Ahn Kim
3,c,
Joon Soo Park4,d and Akira Kohyama
5,e
1
Department of Mechanical Engineering, Graduate School of Dong-Eui University, Busan, Korea
2
Division of Mechanical Engineering, Dong-Eui University, Busan, Korea
3
Department of Materials Science & Engineering, Pukyong National University, Busan, Korea
4
Institute of Energy Science and Technology Co.
Therefore, in the interests of safety, we are required to measure fracture toughness of materials.
Moon: Journal of KCORE Vol. 15 No. 2 (2001), pp. 61-65 [8] S.
Thevenot: Materials Chemistry and Physics Vol. 67 (2001), pp. 165-174 [9] V.A.
Bressiani: International Journal of Refractory Metals & Hard Materials Vol. 19 (2001), pp. 409-417 [10] G.R.
Therefore, in the interests of safety, we are required to measure fracture toughness of materials.
Moon: Journal of KCORE Vol. 15 No. 2 (2001), pp. 61-65 [8] S.
Thevenot: Materials Chemistry and Physics Vol. 67 (2001), pp. 165-174 [9] V.A.
Bressiani: International Journal of Refractory Metals & Hard Materials Vol. 19 (2001), pp. 409-417 [10] G.R.
Online since: June 2011
Authors: Jin Hong Zhu, Hong Xin Shi, Yi Le Wang, Le Yi Dai
Computer and Network Oriented Welding Power Source Design
Jinhong Zhu1, 2, a, Leyi Dai1, 2, b, Hongxin Shi1, c, Yile Wang1, d
1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China
2Key Laboratory of Science and Processing Technology of Non-ferrous Metals, Henan University of Science and Technology, Luoyang 471003, China
azjh163cn@163.com, bdaileyiabcdef@163.com, chyhx66@163.com, dwangyile67215703@126.com
Key words: Welding power source, Database, CAD, Simulation, Web application
Abstract.
Generally, welding database research focused on materials management, welding procedure qualification and welder qualification exam and so on.
Tsinghua University developed a steel pressure vessel welding and management system for Beijing Yanshan Petrochemical construction and installation company, which can calculate and aggregate consumption of welding materials, and generate process planning.
In 2001, China began to start National Science and Technology Data Sharing Project.
References [1] Fujita M, Kinugawa J, Okada A, et al.: Data Science Journal Vol. 2(2003), p. 136-145 [2] Lucas W: Welding Journal Vol. 66, No. 4(1987), p.19-30 [3] Rosali Brosilow: Welding Design & Fabrication Vol. 56, No. 3(1989), p. 81-89 [4] Bingquan Chen, Yikui Zhao: Journal of Hubei Polytechnic University Vol. 17, No. 2(2002), p. 172-174 [5] Yan Wei, Yanhong Wei: Welding & Joining Vol. 11(2006), p. 17-21 [6] Jinzhou zhang. information management system of boiler quality grading Yunnan: Kunming University of Science and Technology, 2004: 7-10 [7] Huizhen Zhang: China Science and Technology Information Vol. 11(2006), p. 201-203 [8] Jingtao Sun, Yujun Xu, Xiaohui Lin, et al.: Welding & Joining Vol. 2(2010), p. 47-50 [9] Jiangang Cai, Jianxun Wang: Mechanical Research & Application Vol. 17, No. 2(2004), p. 7-8 [10] Libin Zhang, Yuhuan Yao: Electric Welding Machine Vol. 4(1994), p. 18-20 [11] Enmin Zhao, Guicai Jia, Tong Yu: Journal of Jiamusi University Vol. 14, No. 4(1996),
Generally, welding database research focused on materials management, welding procedure qualification and welder qualification exam and so on.
Tsinghua University developed a steel pressure vessel welding and management system for Beijing Yanshan Petrochemical construction and installation company, which can calculate and aggregate consumption of welding materials, and generate process planning.
In 2001, China began to start National Science and Technology Data Sharing Project.
References [1] Fujita M, Kinugawa J, Okada A, et al.: Data Science Journal Vol. 2(2003), p. 136-145 [2] Lucas W: Welding Journal Vol. 66, No. 4(1987), p.19-30 [3] Rosali Brosilow: Welding Design & Fabrication Vol. 56, No. 3(1989), p. 81-89 [4] Bingquan Chen, Yikui Zhao: Journal of Hubei Polytechnic University Vol. 17, No. 2(2002), p. 172-174 [5] Yan Wei, Yanhong Wei: Welding & Joining Vol. 11(2006), p. 17-21 [6] Jinzhou zhang. information management system of boiler quality grading Yunnan: Kunming University of Science and Technology, 2004: 7-10 [7] Huizhen Zhang: China Science and Technology Information Vol. 11(2006), p. 201-203 [8] Jingtao Sun, Yujun Xu, Xiaohui Lin, et al.: Welding & Joining Vol. 2(2010), p. 47-50 [9] Jiangang Cai, Jianxun Wang: Mechanical Research & Application Vol. 17, No. 2(2004), p. 7-8 [10] Libin Zhang, Yuhuan Yao: Electric Welding Machine Vol. 4(1994), p. 18-20 [11] Enmin Zhao, Guicai Jia, Tong Yu: Journal of Jiamusi University Vol. 14, No. 4(1996),
Online since: March 2016
Authors: Xian Zheng Gong, Xiao Qing Li, Yu Liu, Feng Gao, Li Juan Zhang, Ying Liang Tian, Zhi Hong Wang
Raw materials.
Jiang, et al, Life cycle assessment of typical building thermal insulation materials in China, New Building Materials,40(2013) 41-44
Nie, The basis of environmental material, Science Press, Beijing, 2003
Progress in materials Science and Engineering, 2006
Gong, et al, Environment Impact of Freight Transportation in China, Materials Science Forum, 787(2014) 144-151
Jiang, et al, Life cycle assessment of typical building thermal insulation materials in China, New Building Materials,40(2013) 41-44
Nie, The basis of environmental material, Science Press, Beijing, 2003
Progress in materials Science and Engineering, 2006
Gong, et al, Environment Impact of Freight Transportation in China, Materials Science Forum, 787(2014) 144-151
Online since: March 2013
Authors: J. Liyana, A.M. Mustafa Al Bakri, M. Bnhussain, Che Mohd Ruzaidi Ghazali, H. Kamarudin
The terms refer to any technology that relates to materials ranging from nanoscale to molecular levels.
Palomo, J.S.J.van Deventer, in Journal of Materials Science 2007, 42, p. 2917-2933
International Journal of Engineering, Science and Technology 2010, 5, p. 284-299
Rafiza, in Advanced Materials Research 2011, Vols 341-342, p. 189-193
Zarina, in Advanced Materials Research 2011, Vols 328-330, p.1475-1482
Palomo, J.S.J.van Deventer, in Journal of Materials Science 2007, 42, p. 2917-2933
International Journal of Engineering, Science and Technology 2010, 5, p. 284-299
Rafiza, in Advanced Materials Research 2011, Vols 341-342, p. 189-193
Zarina, in Advanced Materials Research 2011, Vols 328-330, p.1475-1482