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Online since: March 2012
Authors: Yuan Rui Wang, Guo Jun Qiang, Feng Juan Liu
Liu, J.E.Zhou and A.Larbot:Journal of Materials Processing Technology Vol.189(2007), p. 379-383
[3] W.W.Wu , Q.Y.Jiang: Materials Letters Vol.60(2006),p.2791-2794
[4] M.
Sato, H.Harada, and S.Morito: Applied Surface Science Vol.256 (2010),p.4497-4501 [5] M.
Crnjak Orel: Journal of the European Ceramic Society Vol.28 (2008),p.2915-2921 [6] S.J.Chena, L.H.
Lia and X.T.Chen: Journal of Crystal Growth Vol.252(2003), p.184-189 [7] C.S.Lin, C.C.Hwang and W.H.Lee: Materials Science and Engineering B Vol.140(2007),p. 31- 37
[8] C.L.Kuo, C.L.Wang and H.H.Ko: Ceramics International Vol.36(2010),p.693- 698 [9] O.Acarbas, E.Suvacı and A.Dogan: Ceramics International Vol.33( 2007), p.537-542 [10] K.C.Song , Y.Kang: Materials Letters Vol.42(2000), p.283-289 [11] T.Wang, Z.N.Ma and F.Xu: Electrochemistry Communications Vol.5.(2003),p.599-602 [12] S.Li, X.L.Qiao and J.G.Chen:Journal of Crystal Growth Vol.289(2006),p.151-156 [13] H.Yang , S.D.Han and L.Wang: Materials Chemistry and Physics Vol.56(1998),p.153-156 [14] F.Davar , F.Mohandes and M.S.Niasari.: Polyhedron Vol.29(2010) , p.3132-3136 [15] C.Cobianu, C.Savaniu and O.Buiu: Sensors and Actuators B Vol.43(1997),p.114-120.
Sato, H.Harada, and S.Morito: Applied Surface Science Vol.256 (2010),p.4497-4501 [5] M.
Crnjak Orel: Journal of the European Ceramic Society Vol.28 (2008),p.2915-2921 [6] S.J.Chena, L.H.
Lia and X.T.Chen: Journal of Crystal Growth Vol.252(2003), p.184-189 [7] C.S.Lin, C.C.Hwang and W.H.Lee: Materials Science and Engineering B Vol.140(2007),p. 31- 37
[8] C.L.Kuo, C.L.Wang and H.H.Ko: Ceramics International Vol.36(2010),p.693- 698 [9] O.Acarbas, E.Suvacı and A.Dogan: Ceramics International Vol.33( 2007), p.537-542 [10] K.C.Song , Y.Kang: Materials Letters Vol.42(2000), p.283-289 [11] T.Wang, Z.N.Ma and F.Xu: Electrochemistry Communications Vol.5.(2003),p.599-602 [12] S.Li, X.L.Qiao and J.G.Chen:Journal of Crystal Growth Vol.289(2006),p.151-156 [13] H.Yang , S.D.Han and L.Wang: Materials Chemistry and Physics Vol.56(1998),p.153-156 [14] F.Davar , F.Mohandes and M.S.Niasari.: Polyhedron Vol.29(2010) , p.3132-3136 [15] C.Cobianu, C.Savaniu and O.Buiu: Sensors and Actuators B Vol.43(1997),p.114-120.
Online since: August 2014
Authors: Koshiro Mizobe, Katsuyuki Kida, Takuya Shibukawa, Wakana Matsuda, Masayuki Matsushita
Murakami, Effects of Small Defects and Nonmetallic Inclusions, (Elsever Science Ltd., UK, 2002)
[2] P.
Frith, Fatigue tests on rolled alloy steels made in electric and open-hearth furnaces, Journal of Iron Steel Institute, (1955), Vol. 180, pp. 26–33
Lu, Very high cycle fatigue properties of bearing steel under axial loading condition, International Journal of Fatigue, Vol. 31, No. 5, (2009), pp. 880-888
Grange, Metallurgical and Materials Trans.
Shibukawa: Investigation of wear in induction–heated AISI E 52100 steel bars under reciprocating motion, International Journal of Materials and Product Technology 44 (3/4), 2012, pp. 240-251 [10] K.
Frith, Fatigue tests on rolled alloy steels made in electric and open-hearth furnaces, Journal of Iron Steel Institute, (1955), Vol. 180, pp. 26–33
Lu, Very high cycle fatigue properties of bearing steel under axial loading condition, International Journal of Fatigue, Vol. 31, No. 5, (2009), pp. 880-888
Grange, Metallurgical and Materials Trans.
Shibukawa: Investigation of wear in induction–heated AISI E 52100 steel bars under reciprocating motion, International Journal of Materials and Product Technology 44 (3/4), 2012, pp. 240-251 [10] K.
Online since: January 2012
Authors: Xin Gang Zhou, Hai Zhen Bao, Hua Ming Sun
The national related studies focus on inorganic anchoring material in material level, while less in member level.
The material properties of concrete and inorganic anchoring material are shown in table1,and the design scheme of RC post-embedded bending members is shown in table 2.
Journal of Chongqing jianzhu University.Vol.29,NO.2,2007.
Master thesis, Xian University of science and technology,2007.
New building materials,2009.
The material properties of concrete and inorganic anchoring material are shown in table1,and the design scheme of RC post-embedded bending members is shown in table 2.
Journal of Chongqing jianzhu University.Vol.29,NO.2,2007.
Master thesis, Xian University of science and technology,2007.
New building materials,2009.
Online since: April 2014
Authors: Ya Juan Sun, Wan Xing Wang
In fact, PLD have been widely used to prepare various oxides including high temperature superconductor, semiconducting materials, and ferroelectric/ dielectric oxide.
Laaksonen, Materials Letters[J] 64 (2010) 2072–2075
Song, Applied Surface Science[J] 256 (2010) 2289–2292
Ito, Journal of Crystal Growth [J] 130 (1993) 269–279
Kim, Materials Letters [J] 63 (2009) 2246–2248.
Laaksonen, Materials Letters[J] 64 (2010) 2072–2075
Song, Applied Surface Science[J] 256 (2010) 2289–2292
Ito, Journal of Crystal Growth [J] 130 (1993) 269–279
Kim, Materials Letters [J] 63 (2009) 2246–2248.
Online since: October 2013
Authors: Ming Zhou, Ming Wang, Guo Jun Dong
RUM is able to process complicated workpiece rapidly and it is fit for machining of all kinds of difficult to machine materials, especially glass, ceramic, and composite material.
Khor: Journal of Materials Processing Technology, Vol. 37(1993), p. 391 [2] Zhou.
Xu: Journal of Materials Processing Technology, Vol. 129(2001), p. 380 [4] B.
Lohara, B.C: Materials Science and Engineering A, Vol. 498(2008),p. 37 [5] Qiangguo Wang, Weilong Cong.
Deines: International Journal of Machine Tools & Manufacture, Vol. 45(2005), p.1402 [11] B.Zhao, Y.Wu, C.S.Liu: Key Engineering Materials, Vol. 304-305(2006), p. 171 [12] D.H.Xiang, Y.P.Ma, B.Zhao: Key Engineering Materials,Vol. 304-305(2006), p. 232
Khor: Journal of Materials Processing Technology, Vol. 37(1993), p. 391 [2] Zhou.
Xu: Journal of Materials Processing Technology, Vol. 129(2001), p. 380 [4] B.
Lohara, B.C: Materials Science and Engineering A, Vol. 498(2008),p. 37 [5] Qiangguo Wang, Weilong Cong.
Deines: International Journal of Machine Tools & Manufacture, Vol. 45(2005), p.1402 [11] B.Zhao, Y.Wu, C.S.Liu: Key Engineering Materials, Vol. 304-305(2006), p. 171 [12] D.H.Xiang, Y.P.Ma, B.Zhao: Key Engineering Materials,Vol. 304-305(2006), p. 232
Online since: October 2013
Authors: Long Bang Qing, Yong Gang Guo, Zheng Liu
Three different materials were used to model the dam, and the acceleration response of arch dam under the observed seismic waves was simulated.
Fig. 1 Finite element model and partitions of different materials of dam Arch dam and boundary finite element model has a total of 8819 nodes, 6309 units including 3381 dam units.
In order to simulate the real situation as much as possible, three different concrete materials are used in the dam model, as shown in Fig. 1.
Tu, Journal of Hydraulic Engineering, Vol. 10 2 (2009)
Li, Journal of Hydraulic Engineering, 5 (2009)
Fig. 1 Finite element model and partitions of different materials of dam Arch dam and boundary finite element model has a total of 8819 nodes, 6309 units including 3381 dam units.
In order to simulate the real situation as much as possible, three different concrete materials are used in the dam model, as shown in Fig. 1.
Tu, Journal of Hydraulic Engineering, Vol. 10 2 (2009)
Li, Journal of Hydraulic Engineering, 5 (2009)
Online since: May 2020
Authors: Zhi Shou Zhu, Xin Nan Wang, Guo Qun Zhao, Yun Peng Xin, Ming Bing Li
Matviychuk, Deformation behavior of beta-titanium alloys, Materials Science and Engineering A354 (2003) 121-132
Briggs, The Use of Titanium Alloys in the Aerospace Industry, Journal of Materials Engineering and Performance 14 (2005) 681-685
Boyer, Quick Reference Guide for Titanium Alloys in the 00s, Journal of Materials Engineering and Performance 14 (2005) 799-811
Materials Science Forum. 2013, 747-748, 932-936
Materials Science Forum. 2013, 747-748
Briggs, The Use of Titanium Alloys in the Aerospace Industry, Journal of Materials Engineering and Performance 14 (2005) 681-685
Boyer, Quick Reference Guide for Titanium Alloys in the 00s, Journal of Materials Engineering and Performance 14 (2005) 799-811
Materials Science Forum. 2013, 747-748, 932-936
Materials Science Forum. 2013, 747-748
Online since: October 2018
Authors: Eduard E. Blokhin, D.A. Arustamyan, L.M. Goncharova
Chebotarev, Synthesis and properties of InxAlyGa1–x–yPzAs1–z/GaAs heterostructures, Inorganic Materials, 53 (2017) 1217-1227
Erimeev, Zone thermal recrystallization of thin layers from a discrete source, ARPN Journal of Engineering and Applied Sciences, 12 (2017) 1453-1457
Analysis of InAs/GaAs quantum dot solar cells using Suns-Voc measurements, Solar Energy Materials & Solar Cells, 100 (2014) 241–245
Pashchenko, Photoluminescence of i-GaxIn1-xAs/n-GaAs heterostructures containing a random InAs quantum dot array, Inorganic Materials. 47 (2011) 816-818
Arustamyan, Microcrystalline and amorphous photovoltaic silicon materials Performance optimization, Materials Science Forum, 870 (2016) 74-82.
Erimeev, Zone thermal recrystallization of thin layers from a discrete source, ARPN Journal of Engineering and Applied Sciences, 12 (2017) 1453-1457
Analysis of InAs/GaAs quantum dot solar cells using Suns-Voc measurements, Solar Energy Materials & Solar Cells, 100 (2014) 241–245
Pashchenko, Photoluminescence of i-GaxIn1-xAs/n-GaAs heterostructures containing a random InAs quantum dot array, Inorganic Materials. 47 (2011) 816-818
Arustamyan, Microcrystalline and amorphous photovoltaic silicon materials Performance optimization, Materials Science Forum, 870 (2016) 74-82.
Online since: February 2013
Authors: Jozef Novak-Marcincin, Ludmila Novakova-Marcincinova
Basic range materials include paper, nylon, wax, resins, metals and ceramics.
Basic FDM materials [7,8]: 1.
[8] FDM: Materials & datasheets: http://www.materialise.com/fdm-materials, 2012
Materials & Design, Vol. 25, No. 7, 2004, p. 587-594
Materials Science Forum, Vol. 713, 2012, p. 61-66, ISSN 1662-9752
Basic FDM materials [7,8]: 1.
[8] FDM: Materials & datasheets: http://www.materialise.com/fdm-materials, 2012
Materials & Design, Vol. 25, No. 7, 2004, p. 587-594
Materials Science Forum, Vol. 713, 2012, p. 61-66, ISSN 1662-9752
Online since: September 2011
Authors: Feng Lian Zhang, Jing Zhu
Traditional microfludic chip adopts silicon slice, glass etc. materials to conduct processing with complex technique and high cost chip, thus it is not in favor of promotion and application of chip.
At present, main materials for fabricating microfludic chips are: silicon slice, glass sheet, quartz, ceramics, polymethyl methacrylate (PMMA), polydimethyl siloxane (PDMS) etc.
And with complex processing technique and high chips cost, microfludic chips made of glass, silicon slice etc. materials are not in favor of promoting and applying the chips.
Thus, it is favored by people to adopt PMMA etc. materials to fabricate microfludic chips in hot embossing method.
Journal of Changshu College, 1999, (3): 101~104 [5] Liu Chunlin.
At present, main materials for fabricating microfludic chips are: silicon slice, glass sheet, quartz, ceramics, polymethyl methacrylate (PMMA), polydimethyl siloxane (PDMS) etc.
And with complex processing technique and high chips cost, microfludic chips made of glass, silicon slice etc. materials are not in favor of promoting and applying the chips.
Thus, it is favored by people to adopt PMMA etc. materials to fabricate microfludic chips in hot embossing method.
Journal of Changshu College, 1999, (3): 101~104 [5] Liu Chunlin.