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Online since: October 2013
Authors: Quan Min Sun, Guang Qi Hu, Zu Xing Lin, Lin Liang Yu, Xiao Tang Liu, Ying Sen Yu
All raw materials needed were weight according to the stoichiometric ratio.
All the raw materials were weighted.And then thoroughly grinded in agate mortar, placed in a corundum crucible, react in microwaveat mid-high fire for 30 min under reducing atmosphere.Redlight conversion agentswere obtained after cooling to room temperature.
The concentration of rare earth ions doped influences on luminescence property of materials remarkably (as shown in Fig.5).Fig.5 (1) showsthat the emission intensityof Ca0.6Sr0.4F2:Eu2+gradually increasedwith the increase ofEu2+when the doping concentration of Eu2+ is lower.
Androulidaki,et al: Materials Science and Engineering: B Vol.150(2008),p.130-134 [7] J.E.
Poelman.: SpectrochimicaActa Part B: Atomic Spectroscopy Vol.59(2004),p.1759-1764 [8] Liwen Ding, et al: Journal of Hunan Normal University Natural Science Vol.27-1(2004),p.48-50 [9] ShixunLian et al: Journal of Luminescence Vol.18-2(1997),p.166-173 [10] Zhike Xia et al: Journal of Hunan Normal University Natural Science Vol.30-1(2007),p.64-67 [11] ShixunLian, Liwen Ding, Dulin Yin et al: Journal of Hunan Normal University Natural Science Vol.19-3(2004),p.56-59 [12] Renqing Wang: Journal Optoelectronics•Laser Vol.22-4 (2011),p.562-565 [13] R Nathalie,P T Mai,F Claude et al: J.
All the raw materials were weighted.And then thoroughly grinded in agate mortar, placed in a corundum crucible, react in microwaveat mid-high fire for 30 min under reducing atmosphere.Redlight conversion agentswere obtained after cooling to room temperature.
The concentration of rare earth ions doped influences on luminescence property of materials remarkably (as shown in Fig.5).Fig.5 (1) showsthat the emission intensityof Ca0.6Sr0.4F2:Eu2+gradually increasedwith the increase ofEu2+when the doping concentration of Eu2+ is lower.
Androulidaki,et al: Materials Science and Engineering: B Vol.150(2008),p.130-134 [7] J.E.
Poelman.: SpectrochimicaActa Part B: Atomic Spectroscopy Vol.59(2004),p.1759-1764 [8] Liwen Ding, et al: Journal of Hunan Normal University Natural Science Vol.27-1(2004),p.48-50 [9] ShixunLian et al: Journal of Luminescence Vol.18-2(1997),p.166-173 [10] Zhike Xia et al: Journal of Hunan Normal University Natural Science Vol.30-1(2007),p.64-67 [11] ShixunLian, Liwen Ding, Dulin Yin et al: Journal of Hunan Normal University Natural Science Vol.19-3(2004),p.56-59 [12] Renqing Wang: Journal Optoelectronics•Laser Vol.22-4 (2011),p.562-565 [13] R Nathalie,P T Mai,F Claude et al: J.
Online since: August 2009
Authors: Bo Lin He, Shao Yun Huang, Jian Ping Shi
Another feature is that
the combustion materials are easy formed in the combustion process.
The combustion materials are not easy delaminated and can be ignored easily.
Anselmi-Tamburini: Materials Science Report, Vol. 3 (1989), p.277
[10] Tao Lin, Shiju Guo, Sheng Yin, et al: Journal of University of Science and Technology Beijing, Vol. 9 (2002), p.221(In Chinese)
[12] Guibo Yu, Weu Yau, Shuhai Wang, et al: Journal of University of Science and Technology Beijing, Vol. 13(2006), p.178(In Chinese).
The combustion materials are not easy delaminated and can be ignored easily.
Anselmi-Tamburini: Materials Science Report, Vol. 3 (1989), p.277
[10] Tao Lin, Shiju Guo, Sheng Yin, et al: Journal of University of Science and Technology Beijing, Vol. 9 (2002), p.221(In Chinese)
[12] Guibo Yu, Weu Yau, Shuhai Wang, et al: Journal of University of Science and Technology Beijing, Vol. 13(2006), p.178(In Chinese).
Online since: February 2011
Authors: Bai Xiong Liu, Li Na Zhang
Experimental process
The use of raw materials in this test are: copper, Cu-10.0wt%Bi master alloy, Cu-10.0wt%Se master alloy, industrical pure zinc, Cu-10.0wt%P master alloy.
The results show that the mechanical properties decline sharply with the increase of the content of bismuth.To obtain good mechanical properties materials, the content of bismuth should be controlled below 1.5wt%, and below 1.0wt% is recommended.
Kim: Journal of the Korean Institute of Metals and Materials Vol. 42(2004),p.537
Keast: Materials Characterization Vol. 57(2006),p.424 [8] B.Yang, L.N.Zhang,J.X.Xie: Special Casting & Nonferrous Alloys Vol. 28(2008),p.235 [9] J.L.Qin,L.R.Xiao, D.
Q.Yi:Journal of Materials Science and Engineering Vol. 26(2008),p.457 [10] L.R.Xiao, X.P.Shu, D.Q.Yi: Journal of Central South University Vol. 40(2009),p.117
The results show that the mechanical properties decline sharply with the increase of the content of bismuth.To obtain good mechanical properties materials, the content of bismuth should be controlled below 1.5wt%, and below 1.0wt% is recommended.
Kim: Journal of the Korean Institute of Metals and Materials Vol. 42(2004),p.537
Keast: Materials Characterization Vol. 57(2006),p.424 [8] B.Yang, L.N.Zhang,J.X.Xie: Special Casting & Nonferrous Alloys Vol. 28(2008),p.235 [9] J.L.Qin,L.R.Xiao, D.
Q.Yi:Journal of Materials Science and Engineering Vol. 26(2008),p.457 [10] L.R.Xiao, X.P.Shu, D.Q.Yi: Journal of Central South University Vol. 40(2009),p.117
Online since: December 2012
Authors: Yu Xiong, Ji Zheng, Song Lin Li, Xue Jia Liu, Lu Liang
Beijing Institute of Aeronautical Materials, Beijing 100095, China
2.
School of Materials Science and Engineering, Tianjin University,Tianjin 300072,China a. xyubiam@sina.com b. zheng_ji@tju.edu.cn c.slli@tju.edu.cn Keywords: Sol-gel process; ZnO2; Al3+-doped; Electric conductivity Abstract.
And the electric resirtitivity of Al3+-doped ZnO materials was 104 times higher than that of pure ZnO materials.
Journal of Materials Processing Technology, 2007, 189(1-3): 379-383 [8] Cox, S.
Journal of the American Ceramic Society,2010, 93(10): 3088-3091
School of Materials Science and Engineering, Tianjin University,Tianjin 300072,China a. xyubiam@sina.com b. zheng_ji@tju.edu.cn c.slli@tju.edu.cn Keywords: Sol-gel process; ZnO2; Al3+-doped; Electric conductivity Abstract.
And the electric resirtitivity of Al3+-doped ZnO materials was 104 times higher than that of pure ZnO materials.
Journal of Materials Processing Technology, 2007, 189(1-3): 379-383 [8] Cox, S.
Journal of the American Ceramic Society,2010, 93(10): 3088-3091
Online since: February 2011
Authors: Ming Fang Lu, Shu Hao Chuang, Hsing Juin Lee
The material of the semiconductor used in the furnace is YAG.
Results and Discussions: This study installed YAG crystal into the vertical Bridgman furnace, and the materials used are shown in Table 1.
Acknowledgements The authors would like to thank the National Science Council for supplying this research (NSC98-2221-E-273-004).
Lee: Advanced Materials Research, Vol.154-155 (2011), p.1538
Dutton: Materials Science and Engineering B.
Results and Discussions: This study installed YAG crystal into the vertical Bridgman furnace, and the materials used are shown in Table 1.
Acknowledgements The authors would like to thank the National Science Council for supplying this research (NSC98-2221-E-273-004).
Lee: Advanced Materials Research, Vol.154-155 (2011), p.1538
Dutton: Materials Science and Engineering B.
Online since: August 2014
Authors: Ze Xu Tang, Peng Jie Li, Wen Hua Xu, Xue Fei Wang, Jian Tao Li, Yun Feng Liu, Jin Gang Jiang
The silica gel material is selected for this device, and this material is innocuous and unpoisonous.
Jiang: Canadian Journal on Mechanical Sciences and Engineering, Vol. 2 (2011), p.61-67
Yang, et al: Journal of Machine Design, No.2 (2009), p. 35-38
Wang: Journal of Harbin University of Science and Technology.
Cao: Advanced Materials Research, Vol. 194-196 (2011), p.1892-1895.
Jiang: Canadian Journal on Mechanical Sciences and Engineering, Vol. 2 (2011), p.61-67
Yang, et al: Journal of Machine Design, No.2 (2009), p. 35-38
Wang: Journal of Harbin University of Science and Technology.
Cao: Advanced Materials Research, Vol. 194-196 (2011), p.1892-1895.
Online since: December 2010
Authors: Li Zhou, Shu Tao Huang
Most of the work carried out so far is
on the machining of isotropic materials and non-ferrous alloys such as copper and aluminum [6].
Materials Constitutive Equation.
Cheung: Composites Science and Technology, Vol. 61 (2001) No.10, p.1449-1456
Strenkowski: International Journal of Mechanical Science, Vol. 30 (1988) No.12, p.899-920
Kishawy: Journal of Materials Processing Technology, Vol. 198 (2008) No.1-3, p.399-406
Materials Constitutive Equation.
Cheung: Composites Science and Technology, Vol. 61 (2001) No.10, p.1449-1456
Strenkowski: International Journal of Mechanical Science, Vol. 30 (1988) No.12, p.899-920
Kishawy: Journal of Materials Processing Technology, Vol. 198 (2008) No.1-3, p.399-406
Online since: June 2013
Authors: Mao Fang Huang, Tian Ming Gao, Rui Hong Xie, Hong Lian Chen
However, large dimension and agglomeration of these traditional reinforcing materials cannot reinforce NR, effectively.
[2] Natinee Lopattananon, Kuljanee Panawarangkul, Kannika Sahakaro, Bryan Ellis, Journal of Applied Polymer Science. 102 (2006) 1974-1984
[3] Rungsima Chollakup, Rattana Tantatherdtam, Suchada Ujjin, Klanarong Sriroth, Journal of Applied Polymer Science. 119 (2011) 1952-1960
Ghoshal, Journal of Applied Polymer Science. 107 (2008) 1507-1516
Seadan, Journal of Applied Polymer Science. 110 (2008) 433-443
[2] Natinee Lopattananon, Kuljanee Panawarangkul, Kannika Sahakaro, Bryan Ellis, Journal of Applied Polymer Science. 102 (2006) 1974-1984
[3] Rungsima Chollakup, Rattana Tantatherdtam, Suchada Ujjin, Klanarong Sriroth, Journal of Applied Polymer Science. 119 (2011) 1952-1960
Ghoshal, Journal of Applied Polymer Science. 107 (2008) 1507-1516
Seadan, Journal of Applied Polymer Science. 110 (2008) 433-443
Online since: February 2018
Authors: Xiao Ling Liao, Qiu Hong Huang, Xin Yu Zhang, Mei Yang, Ze Yu Shao, Jin Xia Huang, Wen Feng Xu, Xiao Hu
Chip Materials.
Material is the basis of producing chips and it developed fast and well nowadays.
Accompany with the development of microfluidic chip, many materials was adopted to chip fabrication, such as inorganic polymer, glass, quartz, hydrogel, single crystal silicon, metal, etc.
PDMS material; 3.
Lab Chip, Vol.11 (2011) No.10 P1815-1824 [40] F.C.Yin,H.Wen and G.L.Zhu: Chinese Journal of Chromatography, Vol.34 (2016) No.11 P1031-1042 [41] C.Liu,S.C.Yang and M.Li: Journal of Instrumental Analysis, Vol.34 (2015) No.11 P1324-1330 [42] G.L.Zhang and J.Li: Journal of Yangtze University(Natural Science Edition), (2014) No.34 P52-55 [43] Y.B.Li,B.B.Zhang and Q.D.He: Journal of Instrumental Analysis, c [44] Yang F, Chen ZG, Pan JB, et al.
Material is the basis of producing chips and it developed fast and well nowadays.
Accompany with the development of microfluidic chip, many materials was adopted to chip fabrication, such as inorganic polymer, glass, quartz, hydrogel, single crystal silicon, metal, etc.
PDMS material; 3.
Lab Chip, Vol.11 (2011) No.10 P1815-1824 [40] F.C.Yin,H.Wen and G.L.Zhu: Chinese Journal of Chromatography, Vol.34 (2016) No.11 P1031-1042 [41] C.Liu,S.C.Yang and M.Li: Journal of Instrumental Analysis, Vol.34 (2015) No.11 P1324-1330 [42] G.L.Zhang and J.Li: Journal of Yangtze University(Natural Science Edition), (2014) No.34 P52-55 [43] Y.B.Li,B.B.Zhang and Q.D.He: Journal of Instrumental Analysis, c [44] Yang F, Chen ZG, Pan JB, et al.
Online since: February 2016
Authors: János Kundrák, Gergely Szabó, Angelos P. Markopoulos
Hieu, Influence of tool edge preparation on performance of ceramic tool inserts when hard turning, Journal of Materials Processing Technology, 213(11) (2013) 1978-1988
Capello, Residual stresses in turning Part I: Influence of process parameters, Journal of Materials Processing Technology 160 (2005) 221–228
Influence of the machined material, Journal of Materials Processing Technology 172 (2006) 319–326
Davim, Residual stresses in machining using FEM analysis – A review, Reviews of Advanced Materials Science 30 (2012) 267-272
Lazoglu, Analytical modelling of residual stresses in machining, Journal of Materials Processing Technology 183 (2007) 77–87.
Capello, Residual stresses in turning Part I: Influence of process parameters, Journal of Materials Processing Technology 160 (2005) 221–228
Influence of the machined material, Journal of Materials Processing Technology 172 (2006) 319–326
Davim, Residual stresses in machining using FEM analysis – A review, Reviews of Advanced Materials Science 30 (2012) 267-272
Lazoglu, Analytical modelling of residual stresses in machining, Journal of Materials Processing Technology 183 (2007) 77–87.