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Online since: October 2020
Authors: Oliveira Marilei de Fátima, Mazur Viviane Teleginski, Virtuozo Fernanda, Junior Valter Anzolin de Souza
The selection of these materials allows to obtain a high corrosion resistance electrolytic pair, by replacing the high cost platinum electrode usually employed in the alkaline electrolysis process.
There are several materials that can be used as electrodes in alkaline electrolysis.
Platinum and gold are technically the most suitable materials to be used as electrodes.
Materials and Methods Reactor Project The objective of the electrolytic reactor project is to maximize the contact area of the electrodes with the electrolyte.
The Cyprus Journal of Science and Technology (2004). p. 41
There are several materials that can be used as electrodes in alkaline electrolysis.
Platinum and gold are technically the most suitable materials to be used as electrodes.
Materials and Methods Reactor Project The objective of the electrolytic reactor project is to maximize the contact area of the electrodes with the electrolyte.
The Cyprus Journal of Science and Technology (2004). p. 41
Online since: December 2009
Authors: Andrew John Ruys, E. Soh
Current Opinion in Solid State and Materials Science, 2003. 7(4-5): p. 301-307
Journal of Biomedical Materials Research, 1970. 4(3): p. 433-356
Journal of Materials Science: Materials in Medicine, 2001. 12(8): p. 679-682
Journal of Material science: Materials in Medicine, 1999. 10(2): p. 111-120
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 2004. 68(1): p. 36-44.
Journal of Biomedical Materials Research, 1970. 4(3): p. 433-356
Journal of Materials Science: Materials in Medicine, 2001. 12(8): p. 679-682
Journal of Material science: Materials in Medicine, 1999. 10(2): p. 111-120
Journal of Biomedical Materials Research - Part B Applied Biomaterials, 2004. 68(1): p. 36-44.
Online since: October 2010
Authors: Jun Ma, Guo Rui Liu, Da Peng Li, Yue Xiao Tian, Li Li, Li Zhang, Ying Jie Zhang
Experimental
Experimental Materials.
Hanna, N.S Deng: Journal of Hazardous Materials Vol. 166(1) (2009), p. 407 [2] Regina C.C.
Lago: Journal of Hazardous Materials Vol. 129(1-3) (2006), p. 171 [3] N.K.
Hameed: Journal of Hazardous Materials Vol. 176(1-3) (2010), p. 1118 [4] L.C.A.
Fang: Journal of Cellulose Science and Technology Vol. 18 (2010), p. 1 [9] Y.
Hanna, N.S Deng: Journal of Hazardous Materials Vol. 166(1) (2009), p. 407 [2] Regina C.C.
Lago: Journal of Hazardous Materials Vol. 129(1-3) (2006), p. 171 [3] N.K.
Hameed: Journal of Hazardous Materials Vol. 176(1-3) (2010), p. 1118 [4] L.C.A.
Fang: Journal of Cellulose Science and Technology Vol. 18 (2010), p. 1 [9] Y.
Online since: May 2018
Authors: Raj Das, Peng Cao, Harshpreet Singh, Muhammad Dilawer Hayat, Xin Gang Wang
Wang3,d,
Peng Cao1,e
1Department of Chemical and Materials Engineering, University of Auckland, New Zealand
2Sir Lawrence Wackett Aerospace Research Centre, RMIT University, Australia
3School of Materials Science and Engineering, Chang’an University, China
ahsin287@aucklanduni.ac.nz, bmhay097@aucklanduni.ac.nz, craj.das@rmit.edu.au, dzysgwang@chd.edu.cn, ep.cao@auckland.ac.nz
Keywords Metal matrix composites, titanium, hardness, vacuum sintering.
WardClose, Production of titanium particulate metal matrix composite by mechanical milling, Materials Sci. and Tech. 16 (2000) 753-758
Song, Surface integrity of milling in-situ TiB2 particle reinforced Al matrix composites, International Journal of Refractory Metals and Hard Materials. 54 (2016) 407-416
Ye, Characterization of the microstructure in TiB-whisker reinforced Ti alloy matrix composite, Materials Lett.16 (1993) 322-326
Fu, Microstructure and properties of insitu titanium boride (TiB)/titanium (TI) composites, Materials Sci. and Engg.
WardClose, Production of titanium particulate metal matrix composite by mechanical milling, Materials Sci. and Tech. 16 (2000) 753-758
Song, Surface integrity of milling in-situ TiB2 particle reinforced Al matrix composites, International Journal of Refractory Metals and Hard Materials. 54 (2016) 407-416
Ye, Characterization of the microstructure in TiB-whisker reinforced Ti alloy matrix composite, Materials Lett.16 (1993) 322-326
Fu, Microstructure and properties of insitu titanium boride (TiB)/titanium (TI) composites, Materials Sci. and Engg.
Online since: March 2011
Authors: Fa Yun Zhang, Jian Xiong Ye
Materials Science and Technology, Vol. 16(2000), p. 670-674
[3] W.
Journal of Materials Processing Technology, Vol.63(1997): 358-363 [4] S.
Materials Science and Technology, Vol.20 (2004), p.765-771 [6] Hu L X, Wang E D: Fabrication and mechanical properties of SiCw ZK51A magnesium matrix composites by two-step squeeze casting.
Materials Science and Engineering, Vol.27 (2000), P. 267-271 [7] D.H.
Journal of Hunan Institute of Science and Technology (Natural Science), Vol.20 (2007),: p.31–34
Journal of Materials Processing Technology, Vol.63(1997): 358-363 [4] S.
Materials Science and Technology, Vol.20 (2004), p.765-771 [6] Hu L X, Wang E D: Fabrication and mechanical properties of SiCw ZK51A magnesium matrix composites by two-step squeeze casting.
Materials Science and Engineering, Vol.27 (2000), P. 267-271 [7] D.H.
Journal of Hunan Institute of Science and Technology (Natural Science), Vol.20 (2007),: p.31–34
Online since: August 2013
Authors: Gui Lan Yu, Shu Lang Tao, Zong Jian Yao
Introduction
In recent years, the sandwich plate regarded as the most promising new type of lightweight and multi-functional materials, become a hot topic for many researchers[1].
Liu systematically analyzed elastic wave propagation characteristics of lattice material and got band gaps of lattice material by finite element method, but had no conclusion when the lattice material is sandwiched in two plates.
Band structure is obtained in Fig.7 using the same geometry parameters and material parameters as that in Fig.2(a).
Acknowledgements The authors are grateful to the support of the China National Science Foundation under Grant No.51178037 References [1] Yazheng Yang, Gialing Yang, Tao Zeng, Daining Fang, The research progress on lightweight porous material[J],CHINESE QUARTERLY OF MECHANICS,2007,28(4):503-516(In Chinese) [2] J.C.Wallach, L.J.Gibson, Mechanical behaviour of a three-dimensional truss material[J], International Journal of Solids and Structures, 2001,38:7181-7196 [3] V.S.Deshpanda, N.A.Fleck, M.F.Ashby, Effective properties of the octet-truss lattice material[J],Journal of the Mechanics and physics of Solids,2001,49:1747-1769 [4] Zhengyu Xue, John W.Hutchinson, Preliminary assessment of sandwich plates subject to blast loads[J],International Journal of Mechanical Sciences,2003,45:685-705 [5] F.X.Xin,T.J.Lu, Analytical modeling of wave propagation in orthogonally rib-stiffened sandwich structures: Sound radiation[J], Computers & Structures,2011,89(5-6): 507-516 [6] F.X.Xin, T.J.Lu
, Analytical modeling of fluid loaded orthogonally rib-stiffened sandwich structures:Sound transmission[J],Journal of the Mechanics and Physics of Solids 2010,58(9): 1374-1396 [7] Shutian Liu, Yu Huang, the band gaps’ characteristics and design of two-dimensional lattice material[J], Chinese Journal of Theoretical and Applied Mechanics,2001,43(2):316-329 (In Chinese)
Liu systematically analyzed elastic wave propagation characteristics of lattice material and got band gaps of lattice material by finite element method, but had no conclusion when the lattice material is sandwiched in two plates.
Band structure is obtained in Fig.7 using the same geometry parameters and material parameters as that in Fig.2(a).
Acknowledgements The authors are grateful to the support of the China National Science Foundation under Grant No.51178037 References [1] Yazheng Yang, Gialing Yang, Tao Zeng, Daining Fang, The research progress on lightweight porous material[J],CHINESE QUARTERLY OF MECHANICS,2007,28(4):503-516(In Chinese) [2] J.C.Wallach, L.J.Gibson, Mechanical behaviour of a three-dimensional truss material[J], International Journal of Solids and Structures, 2001,38:7181-7196 [3] V.S.Deshpanda, N.A.Fleck, M.F.Ashby, Effective properties of the octet-truss lattice material[J],Journal of the Mechanics and physics of Solids,2001,49:1747-1769 [4] Zhengyu Xue, John W.Hutchinson, Preliminary assessment of sandwich plates subject to blast loads[J],International Journal of Mechanical Sciences,2003,45:685-705 [5] F.X.Xin,T.J.Lu, Analytical modeling of wave propagation in orthogonally rib-stiffened sandwich structures: Sound radiation[J], Computers & Structures,2011,89(5-6): 507-516 [6] F.X.Xin, T.J.Lu
, Analytical modeling of fluid loaded orthogonally rib-stiffened sandwich structures:Sound transmission[J],Journal of the Mechanics and Physics of Solids 2010,58(9): 1374-1396 [7] Shutian Liu, Yu Huang, the band gaps’ characteristics and design of two-dimensional lattice material[J], Chinese Journal of Theoretical and Applied Mechanics,2001,43(2):316-329 (In Chinese)
Online since: September 2011
Authors: Gui Bao Guo, Jia Xu
Ismaila: Journal of Membrane Science, Vol. 268 (2006), p. 96
[2] X.P.
Uyama: Journal Membrane Science, Vol. 55(1991), p. 119 [7] M.
Moel: Journal Polymer Science: Part B: Polymer.
Kang: Journal Membrane Science, Vol. 195 (2002), p. 103 [15] K.
Jokela, Materials Science Forum, (2002), p. 481 [16] M.
Uyama: Journal Membrane Science, Vol. 55(1991), p. 119 [7] M.
Moel: Journal Polymer Science: Part B: Polymer.
Kang: Journal Membrane Science, Vol. 195 (2002), p. 103 [15] K.
Jokela, Materials Science Forum, (2002), p. 481 [16] M.
Online since: April 2014
Authors: Tibor Kvačkaj, Robert Kočiško, Andrea Kováčová, Július Bacsó, Juraj Tiža, Rudolf Pernis, Monika Fedorčáková, Pavol Purcz
Materials and experimental methods
For the experiments there were used two materials in an annealed state: CuCrZr and EN AW 7075 - T0.
Both tested materials showed good ductility.
Table 2 Material characteristics of both materials Material Hollomon’s regression eq.
Rowe, Journal of Mechanical Sciences 32 (1990) 1- 17
Park, Advanced Materials Research 295-297 (2011) 2283-2289
Both tested materials showed good ductility.
Table 2 Material characteristics of both materials Material Hollomon’s regression eq.
Rowe, Journal of Mechanical Sciences 32 (1990) 1- 17
Park, Advanced Materials Research 295-297 (2011) 2283-2289
Online since: September 2011
Authors: Yan Yang, Xiao Hui Zhou, Xiao Hong Liu, Xiao Ping Lu
The result would promote the establishment of the foundation for the application of artificial production of natural color cocoons.
1 Material and Methods
1.1 Materials
The experiment domestic silkworm breed was Suxiong×Yingxiao, which was fluorescent color convicted sex cocoon.
This indicated that after the process of add-eat ‘No2 Red X’, a lot of pigments accumulated in silk gland, combing with its proteins forming silk materials.
Journal of Anhui Agricultural Sciences,2002,30(5):666-672
SCIENCE CHINA Life Sciences,2010,53(11):1330-1339 [9] Kong Q M, Lin J R, Wang Y Y,et al.
Journal of Chinese Institute of Food Science and Technology,2001,1(1):12-17
This indicated that after the process of add-eat ‘No2 Red X’, a lot of pigments accumulated in silk gland, combing with its proteins forming silk materials.
Journal of Anhui Agricultural Sciences,2002,30(5):666-672
SCIENCE CHINA Life Sciences,2010,53(11):1330-1339 [9] Kong Q M, Lin J R, Wang Y Y,et al.
Journal of Chinese Institute of Food Science and Technology,2001,1(1):12-17
Online since: June 2013
Authors: Da Wei Wang
Study of Green Building Design based on Micro-project in Correlate Urban Ecological Environment
Dawei WANG
Research Center for Eco-environmental Sciences, Chinese Academy of Sciences, 100085
Keywords: Green Building; Urban Complex Ecological System; Urban Water Environment; Urban Energy Environment; Urban Atmospheric Environment; Building Materials Resources Environment
Abstract.
In economic developed areas, the import and export of building materials will inevitably deficit because of the large amount of construction; in less developed areas, the export of building materials is mainly in a surplus state.
Journal of Architecture, 2007 (03)
Journal of Architecture, 2006 (07)
Building Materials and Living Environment.
In economic developed areas, the import and export of building materials will inevitably deficit because of the large amount of construction; in less developed areas, the export of building materials is mainly in a surplus state.
Journal of Architecture, 2007 (03)
Journal of Architecture, 2006 (07)
Building Materials and Living Environment.