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Online since: August 2018
Authors: Luigi A. Dahonog, Alvin Karlo Garcia Tapia, Xrijslove B. Meneses, Audrey S. Rillera
Methodology
Materials.
Bhalla, Electrically conducting polymers: materials of the twenty first century, Journal of Scientific & Industrial Research, 63 (2004) 715-728
Series: Materials Science and Engineering 73 (2015) 012112
Jeon, A review of the terahertz conductivity of bulk and nano-materials, Journal of Infrared, Millimeter, and THz Waves. 33 (2012), 871-925
Davies, Electronic processes in non-crystalline materials, Clarendon Press, Oxford, 1979
Bhalla, Electrically conducting polymers: materials of the twenty first century, Journal of Scientific & Industrial Research, 63 (2004) 715-728
Series: Materials Science and Engineering 73 (2015) 012112
Jeon, A review of the terahertz conductivity of bulk and nano-materials, Journal of Infrared, Millimeter, and THz Waves. 33 (2012), 871-925
Davies, Electronic processes in non-crystalline materials, Clarendon Press, Oxford, 1979
Online since: October 2010
Authors: Amândio Teixeira-Pinto, Joana Gonçalves Rapazote, Cristóvão Laginhas
First of all, aggregates were prepared from A, B or mix of both materials.
Material B presents a mechanical performance lower than all of OPC, AL or ALB materials.
Journal of Materials Science 42 (2007), p.2917-2933
Jalali, Construction and Building Materials,Vol. 22, (2008), p. 1201-1211 [10] J.
Construction and Building Materials, Vol. 22, (2008), p. 1315-1322
Material B presents a mechanical performance lower than all of OPC, AL or ALB materials.
Journal of Materials Science 42 (2007), p.2917-2933
Jalali, Construction and Building Materials,Vol. 22, (2008), p. 1201-1211 [10] J.
Construction and Building Materials, Vol. 22, (2008), p. 1315-1322
Online since: August 2010
Authors: M. Díaz-García, J. Aguilar-Pliego, G. Herrera-Pérez, L. Guzmán, P. Schachat, A. Aguilar-Elguezabal, M. Gutierrez-Arzaluz, Luis E. Noreña-Franco
Haller: Journal of Catalysis
Vol. 175 (1998), p. 1
Parra: Microporous and mesoporous Materials Vol. 67 (2004), p. 259
Ponzi: Materials Chemistry and Physics Vol. 93 (2005), p. 296
Ponzi: Chemical Engineering Journal 177 (2006) 93-99
Haller: Journal of Catalysis Vol. 175 (1998), p. 1
Parra: Microporous and mesoporous Materials Vol. 67 (2004), p. 259
Ponzi: Materials Chemistry and Physics Vol. 93 (2005), p. 296
Ponzi: Chemical Engineering Journal 177 (2006) 93-99
Haller: Journal of Catalysis Vol. 175 (1998), p. 1
Online since: September 2012
Authors: Katsuyuki Kida, Takashi Honda, Takuya Shibukawa, Koshiro Mizobe, Hitonobu Koike, Edson Costa Santos
Kikuchi: Metallurgical and Materials Trans A, Vol. 15, No. 7 (1984),
pp. 1431-1436
[5] Y.
Grange: Metallurgical and Materials Trans.
Tamura: Metallurgical and Materials Trans.
Bozo: Journal of Materials Processing Technology, Vol. 155, No. 156 (2004), pp. 1704-1707 [14] T.
Yamamoto: Materials Science Forum, Vols. 561-565 (2007), pp. 2345-2348 [15] C.
Grange: Metallurgical and Materials Trans.
Tamura: Metallurgical and Materials Trans.
Bozo: Journal of Materials Processing Technology, Vol. 155, No. 156 (2004), pp. 1704-1707 [14] T.
Yamamoto: Materials Science Forum, Vols. 561-565 (2007), pp. 2345-2348 [15] C.
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: July 2011
Authors: Ying Chen, Chang Bin Shen, Ji Ping Ge
The prelimary study of the welds between Mg and Al by friction stir welding
Ying Chena*, Changbin Shenb and Jiping Gec
Liaoning Key Materials Laboratory for Railway and School of Materials Science and Engineering, Dalian Jiaotong University, 794# Huanghe Road ,116028,Dalian,China
aemail:lndlflying@126.com, bemail: shencb@djtu.edu.cn, cemail:ge@djtu.edu.cn
* The corresponding author, Tel.:+86-411-84106806, e-mail:lndlflying@126.com postal address: Liaoning Key Materials Laboratory for Railway & School of Materials Science and Engineering, Dalian Jiaotong University, 794# Huanghe Road ,116028,Dalian,China
Keywords: dissimilar material; friction stir welding; defect; intermetallic compound
Abstract.
However, a study on FSW Mg/Al dissimilar materials was reported less.
The presence of liquid between Al and Mg can cause the two materials to separate during stirring.
Materials Science and Engineering R,Vol. 50(2005),p. 1-78 [2] Joelj D.
Welding journal, Vol.80 (2001),p. 30-34 [3] A.
However, a study on FSW Mg/Al dissimilar materials was reported less.
The presence of liquid between Al and Mg can cause the two materials to separate during stirring.
Materials Science and Engineering R,Vol. 50(2005),p. 1-78 [2] Joelj D.
Welding journal, Vol.80 (2001),p. 30-34 [3] A.
Online since: September 2014
Authors: Da Chen, Xiu Min Chen, Qin Qun Chen
Materials and methods
CT Scans and Initial Geometrical modeling
A healthy male volunteer with no metabolic bone disease was chosen as a model.
Acknowledgment This project was funded by Guang Dong Science and Technology Plan Project(2013A032500009);Guang Dong Science and Technology Plan Project(2012A0320005).
Journal of Orthopaedic science.
Journal of Biomechanics.
Journal of Biomechanics.
Acknowledgment This project was funded by Guang Dong Science and Technology Plan Project(2013A032500009);Guang Dong Science and Technology Plan Project(2012A0320005).
Journal of Orthopaedic science.
Journal of Biomechanics.
Journal of Biomechanics.
Online since: April 2012
Authors: Fei Han, Gao Yong Lin, Da Shu Peng, Qian Li, Rui Fen Long, Qing Zhou
Ramos J E: Materials Science and Engineering A, Vol. 498 (2008), p. 289-295
[8] XU Chun-chun, HU Gang, Wing-Yan Ng: Materials Science, Vol. 40 (2004), p. 252-259.
(In Chinese) [10] Hanninen H E: International Metals Reviews, Vol. 3 (1997), p. 98-113 [11] Tian X, Zhang Y: Materials Science and Engineering A, Vol. 174 (1994), p. 1-3.
Rusinek A: International journal of materials research, Vol. 99 (2008), p. 734-738 [13] Shan T K, Li S H, Zhang W G, Xu Z G: Materials & Design, Vol. 29 (2008), p. 1810-1816.
(In Chinese) [14] LI Xiao-xuan, SUN Xi-jun, WANG Hua-ming: Aerospace materials & technology, Vol. 4 (1999), p. 16-28.
Thuillier S: Materials Science and Engineering A, Vol. 466 (2007), p. 47-55
(In Chinese) [10] Hanninen H E: International Metals Reviews, Vol. 3 (1997), p. 98-113 [11] Tian X, Zhang Y: Materials Science and Engineering A, Vol. 174 (1994), p. 1-3.
Rusinek A: International journal of materials research, Vol. 99 (2008), p. 734-738 [13] Shan T K, Li S H, Zhang W G, Xu Z G: Materials & Design, Vol. 29 (2008), p. 1810-1816.
(In Chinese) [14] LI Xiao-xuan, SUN Xi-jun, WANG Hua-ming: Aerospace materials & technology, Vol. 4 (1999), p. 16-28.
Thuillier S: Materials Science and Engineering A, Vol. 466 (2007), p. 47-55
Online since: June 2010
Authors: Chang Yu Li, Zhe Lv
Preparation and Performance of Ni-CU/SDC Anodes
Changyu Li
1
, Zhe LV2*
1Key Laboratory of Bio-based Material Science and Technology, Ministry of Education, Northeast
Forestry University, Harbin, 150040, P.
China 2 Centre for Condensed Matter Science and Technology, Harbin Institute of Technology, Harbin 150001, P.
Then Ni-Cu/SDC composite anode materials were prepared.
The maximal power density could reach 126mW.cm-2 at 700 ℃.Thereby, Ni-Cu/SDC composite materials are good anode materials.
The composite anode materials match well with the SDC electrolyte in thermal expansion.
China 2 Centre for Condensed Matter Science and Technology, Harbin Institute of Technology, Harbin 150001, P.
Then Ni-Cu/SDC composite anode materials were prepared.
The maximal power density could reach 126mW.cm-2 at 700 ℃.Thereby, Ni-Cu/SDC composite materials are good anode materials.
The composite anode materials match well with the SDC electrolyte in thermal expansion.
Online since: August 2016
Authors: Aamir Mukhtar, Graeme Smith, Peter Franz, Warwick Downing, Ben Jackson
Lauwers, Journal of Materials Processing Technology, 149 (2004) 616-622
Wicker, Journal of Materials Science & Technology, 28 (2012) 1-14
Karadeniz, Archives of Materials Science, 29 (2008) 50-60
Baker, Journal of Materials Processing Technology, 77 (1998) 115-121
Ohtsu, Materials Science and Engineering: A, 486 (2008) 193-201
Wicker, Journal of Materials Science & Technology, 28 (2012) 1-14
Karadeniz, Archives of Materials Science, 29 (2008) 50-60
Baker, Journal of Materials Processing Technology, 77 (1998) 115-121
Ohtsu, Materials Science and Engineering: A, 486 (2008) 193-201