Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2013
Authors: Yi Tang, Jing Xie, Chen Miao, Jin Feng Wang, Yue Zhao
Journal of Food Engineering, 2006, 77(2): 355~363
Science and Technology of Food Industry (in chinese), 2011, 32 (11): 349~351
Wuhan: The Huazhong University of Science and Technology (HUST) Press, 2011: 6~9
International Journal of Refrigeration, 2005, 28(3): 368~380
Journal of Shanchai Fisheries University, 2006, 15(3): 333~339
Science and Technology of Food Industry (in chinese), 2011, 32 (11): 349~351
Wuhan: The Huazhong University of Science and Technology (HUST) Press, 2011: 6~9
International Journal of Refrigeration, 2005, 28(3): 368~380
Journal of Shanchai Fisheries University, 2006, 15(3): 333~339
Online since: January 2016
Authors: Halil Caliskan, Celil Cagatay Celil, Peter Panjan
Therefore, researchers focus on coating materials which are durable to these hard cutting conditions.
TiAlSiN coating is a promising candidate for the machining of hard-to-cut materials thanks to its high hardness and wear resistance [9, 12].
Aspinwall, High speed end milling of hardened AISI D2 tool steel (~58 HRC), Journal of Materials Processing Technology, 127 (2002) 266-273
Deevi, Single layer and multilayer wear resistant coatings of (Ti,Al)N: a review, Materials Science and Engineering: A, 342 (2003) 58-79
Shuster, Performance of PVD TiN, TiCN, and TiAlN coated cemented carbide tools in turning, International Journal of Refractory Metals and Hard Materials, 17 (1999) 163-170
TiAlSiN coating is a promising candidate for the machining of hard-to-cut materials thanks to its high hardness and wear resistance [9, 12].
Aspinwall, High speed end milling of hardened AISI D2 tool steel (~58 HRC), Journal of Materials Processing Technology, 127 (2002) 266-273
Deevi, Single layer and multilayer wear resistant coatings of (Ti,Al)N: a review, Materials Science and Engineering: A, 342 (2003) 58-79
Shuster, Performance of PVD TiN, TiCN, and TiAlN coated cemented carbide tools in turning, International Journal of Refractory Metals and Hard Materials, 17 (1999) 163-170
Online since: May 2003
Authors: Jae Hyup Lee, Hwan Kim, H.J. Park, Jun Hyuk Seo, Dae Joon Kim, Kug Sun Hong, Bong-Soon Chang, C.K. Lee, D.H. Lee, Hyun Seung Ryu
Journal Citation (to be inserted by the publisher )
Copyright by Trans Tech Publications
Characterization of CaO-SiO2-B2O3 Glass-Ceramics and Effect of
Composition on Bioactivity
H.S.Ryu, J.H.Seo, H.Kim.
Lee 3 1 School of Materials Science & Engineering, Seoul National University, Seoul, Korea 2 Department of Materials Science & Engineering, Sungkyunkwan University, Suwon, Korea 3 Department of Orthopedic Surgery, Seoul National University Medical College, Seoul, Korea kshongss@plaza.snu.ac.kr Keywords: Sintering, CaO-SiO2-B2O3 glass-ceramics, Wollastonite, SBF, Mechanical strength Abstract The sintering behavior, mechanical properties and bioactivity of (50-x/2)CaO⋅SiO2-xB2O3 (4.2≤x≤17.2) glass-ceramics was investigated.
The starting materials were 99.99% CaCO3(high purity chem., Japan), 99.9% SiO2 (high purity chem.
The mixture of starting materials was melted in a Pt crucible at 1450-1550o C for 2h.
References [1] L.L.Hench, J.W.Wilson : Science Vol. 226 (1984), p. 630 [2] C.
Lee 3 1 School of Materials Science & Engineering, Seoul National University, Seoul, Korea 2 Department of Materials Science & Engineering, Sungkyunkwan University, Suwon, Korea 3 Department of Orthopedic Surgery, Seoul National University Medical College, Seoul, Korea kshongss@plaza.snu.ac.kr Keywords: Sintering, CaO-SiO2-B2O3 glass-ceramics, Wollastonite, SBF, Mechanical strength Abstract The sintering behavior, mechanical properties and bioactivity of (50-x/2)CaO⋅SiO2-xB2O3 (4.2≤x≤17.2) glass-ceramics was investigated.
The starting materials were 99.99% CaCO3(high purity chem., Japan), 99.9% SiO2 (high purity chem.
The mixture of starting materials was melted in a Pt crucible at 1450-1550o C for 2h.
References [1] L.L.Hench, J.W.Wilson : Science Vol. 226 (1984), p. 630 [2] C.
Online since: November 2010
Authors: Song Lin Yi, Zheng Bin He, Xiao Jiang Feng
Chen: Studies and applications of phase change materials.
Journal of Salt Lake Research, Vol. 13 (2005) No. 3,p. 52-57
Journal of Beijing University of Technology, Vol. 1(2005) No.1, p. 63-65
Journal of Beijing Forestry University, Vol. 13 (1991) No. 1, p.76-81
Zhang: Phase Material and Storage Technology.( Science Press, China 2009).
Journal of Salt Lake Research, Vol. 13 (2005) No. 3,p. 52-57
Journal of Beijing University of Technology, Vol. 1(2005) No.1, p. 63-65
Journal of Beijing Forestry University, Vol. 13 (1991) No. 1, p.76-81
Zhang: Phase Material and Storage Technology.( Science Press, China 2009).
Online since: December 2013
Authors: Mohd Mustafa Al Bakri Abdullah, Alida Abdullah, Petrică Vizureanu, Andrei Victor Sandhu, Dragos Cristian Achitei
On The Fatigue of Shape Memory Alloys
Dragos Cristian Achitei1, Mohd Mustafa Al Bakri Abdullah2, a,
Andrei Victor Sandu1, b, Petrica Vizureanu1, Alida Abdullah2, c
1 Faculty of Materials Science and Engineering, “Gheorghe Asachi” Technical University of Iasi, Romania, Blvd.
D.Mangeron 61a. 2 Center of Excellence Geopolymer and Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis (UniMAP), KompleksPengajianJejawi 2, 02600 Arau, Perlis, Malaysia.
[2] American society for metals, Metals handbook volume 2: Properties and selection: Nonferrous alloys and special-purpose materials, Tenth edition, Metals Park, 1990
Cimpoeşu, Journal of Materials Engineering and Performance, 20 ( 3) (2011) 468-475
Markovic, Trends in Advanced Materials and Processes, Materials Science Forum, (352) (2000) 165-170
D.Mangeron 61a. 2 Center of Excellence Geopolymer and Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis (UniMAP), KompleksPengajianJejawi 2, 02600 Arau, Perlis, Malaysia.
[2] American society for metals, Metals handbook volume 2: Properties and selection: Nonferrous alloys and special-purpose materials, Tenth edition, Metals Park, 1990
Cimpoeşu, Journal of Materials Engineering and Performance, 20 ( 3) (2011) 468-475
Markovic, Trends in Advanced Materials and Processes, Materials Science Forum, (352) (2000) 165-170
Online since: May 2012
Authors: Yan Li, Wen Biao Liang, Su Wang, Jun Hai Zhao, Chang Guang Zhang
Dai, et al: Journal of Engineering Geology.
Widger: Canadian Geotechnical Journal.
Pufahl,et al:Canadian Geotechnical Journal.
Sallfors:Geotechnical Testing Journal.
Gu: Retaining wall earth pressure manual(Beijing: China building materials industry press, 2004).
Widger: Canadian Geotechnical Journal.
Pufahl,et al:Canadian Geotechnical Journal.
Sallfors:Geotechnical Testing Journal.
Gu: Retaining wall earth pressure manual(Beijing: China building materials industry press, 2004).
Online since: July 2011
Authors: Jun Min Xiao, Ying Xu
Milling force is the most important parameter for high speed milling technology of difficult-to-cut materials.
The experiments of high speed milling force for mold steel 3Cr2Mo adopted five-axis machining center produced by Swiss Mikron company and double-edged solid carbide cutting tools with the diameter of 10mm, and the mold steel 3Cr2Mo with 28~32 HRC hardness was used as the material machined in the process of high speed milling experiments.
References [1] Songhua Si, Rui Wang, Ti Zhang and Na Wang: Journal of Heat Treatment Vol. 25 (2010), p. 31 (Shanghai Institute of Machine Building Technology Co.
Ltd., China) [2] Haiyao Wang, Ruihong Zhang, Mingyou Wang and Hong Miu: Journal of Group Technology & Production Modernization Vol. 25 (2008), p. 34 (No.6 Institute of Project Planning & Research of Machinery Industry, China) [3] Min Wan and Weihong Zhang: Journal of Acta Aeronautica et Astronautica Sinica Vol. 29 (2008), p. 1340 (Chinese Society of Aeronautics and Astronautics, China) [4] Weidong Feng and Houjun Qi: Journal of Machine Building & Automation Vol. 40 (2010), p. 62 (Nanjing Mechanical Engineering Society, China) [5] Bolin Zhang: High Speed Cutting Technology & Application (China Machine Press, China 2003) [6] Xing Ai: High Speed Cutting Technology (People's Posts & Telecommunications Publishing House, China 2003) [7] Hun Guo, Dunwen Zuo, Yan Wang, Min Wang and Quan Zheng: Journal of Machinery Vol. 35 (2008), p. 51 (Sichuan Provincial Machinery Research & Design Institute, China) [8] Shuguo Gui, Peidao Pan and Pu Deng: Journal of Coal Mine Machinery Vol. 30 (2009), p
. 61 (Heilongjiang Institute of Science and Technology, China)
The experiments of high speed milling force for mold steel 3Cr2Mo adopted five-axis machining center produced by Swiss Mikron company and double-edged solid carbide cutting tools with the diameter of 10mm, and the mold steel 3Cr2Mo with 28~32 HRC hardness was used as the material machined in the process of high speed milling experiments.
References [1] Songhua Si, Rui Wang, Ti Zhang and Na Wang: Journal of Heat Treatment Vol. 25 (2010), p. 31 (Shanghai Institute of Machine Building Technology Co.
Ltd., China) [2] Haiyao Wang, Ruihong Zhang, Mingyou Wang and Hong Miu: Journal of Group Technology & Production Modernization Vol. 25 (2008), p. 34 (No.6 Institute of Project Planning & Research of Machinery Industry, China) [3] Min Wan and Weihong Zhang: Journal of Acta Aeronautica et Astronautica Sinica Vol. 29 (2008), p. 1340 (Chinese Society of Aeronautics and Astronautics, China) [4] Weidong Feng and Houjun Qi: Journal of Machine Building & Automation Vol. 40 (2010), p. 62 (Nanjing Mechanical Engineering Society, China) [5] Bolin Zhang: High Speed Cutting Technology & Application (China Machine Press, China 2003) [6] Xing Ai: High Speed Cutting Technology (People's Posts & Telecommunications Publishing House, China 2003) [7] Hun Guo, Dunwen Zuo, Yan Wang, Min Wang and Quan Zheng: Journal of Machinery Vol. 35 (2008), p. 51 (Sichuan Provincial Machinery Research & Design Institute, China) [8] Shuguo Gui, Peidao Pan and Pu Deng: Journal of Coal Mine Machinery Vol. 30 (2009), p
. 61 (Heilongjiang Institute of Science and Technology, China)
Online since: December 2012
Authors: Gao Hong Li, Man Zhu, Jian Ping Li, Feng Xia
Experimental procedure
Taking LY12 aluminum alloy as parent materials, the authors conducted an experimental investigation on LY12 alloy with manual tungsten arc argon-shielded welding.
The microstructure of base material is shown in Fig.2d.
References [1] M.Liu,S.H.Liu,D.Q.Wang,et al: Journal of Dalian Jiaotong University Vol. 28 (2007), p. 74 [2] G.P.Liu, C.G.
Xu, et al: Material Science and Technology Vol. 7(1999), p.96 [7] K.W.
Du: Journal of Northwestern Polytechnical University Vol. 21(2003), p.626
The microstructure of base material is shown in Fig.2d.
References [1] M.Liu,S.H.Liu,D.Q.Wang,et al: Journal of Dalian Jiaotong University Vol. 28 (2007), p. 74 [2] G.P.Liu, C.G.
Xu, et al: Material Science and Technology Vol. 7(1999), p.96 [7] K.W.
Du: Journal of Northwestern Polytechnical University Vol. 21(2003), p.626
Online since: October 2013
Authors: Dan Ying Gao, Jian Song Yuan, Huu Feng
Materials and Methods
Materials.
The sand content is equal to the ratio of the sand /cement materials.
Wang, The effect of surface active agent on the properties of polypropylene fiber reinforced cement materials, China Concrete and Cement Products, 6(2000) 42- 43
Phuaksuk, Plastic shrinkage cracking in concrete materials 2: Influence of fly ash and fibers, ACI Materials Journal, 6 (2001) 458-464
Zhou, The research of mineral admixtures on the drying shrinkage of cement mortars, Journal of University of South China (Science and Technology), 1 (2006) 100-103.
The sand content is equal to the ratio of the sand /cement materials.
Wang, The effect of surface active agent on the properties of polypropylene fiber reinforced cement materials, China Concrete and Cement Products, 6(2000) 42- 43
Phuaksuk, Plastic shrinkage cracking in concrete materials 2: Influence of fly ash and fibers, ACI Materials Journal, 6 (2001) 458-464
Zhou, The research of mineral admixtures on the drying shrinkage of cement mortars, Journal of University of South China (Science and Technology), 1 (2006) 100-103.
Online since: August 2012
Authors: Xin Mei Li, Xiao Feng Dong
[4] Sung-Ha Hwang, Jin-Hwa Song: Materials Science and Engineering, Vol.390 (2005), p.437
Waymanb: Materials Science and Engineering, Vol.207 (1996), p.22
Ramesh: Materials Science and Engineering, Vol.527 (2010), p.1292
Voss: Journal of Nuclear Materials, Vol.249 (1997), p.39
Starink: Materials Science and Engineering, Vol.488 (2008), p.125
Waymanb: Materials Science and Engineering, Vol.207 (1996), p.22
Ramesh: Materials Science and Engineering, Vol.527 (2010), p.1292
Voss: Journal of Nuclear Materials, Vol.249 (1997), p.39
Starink: Materials Science and Engineering, Vol.488 (2008), p.125