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Online since: February 2011
Authors: Bing Wen Wang, Yun Bing Hou, Zhi Hua Zhai, Shuai Jie Han
Materials and experimental methods
Materials.
Physical and mechanical properties of those cementitious materials are shown in Table 1.
Liu: Journal of Building Materials Vol.4 (2001), p.395 (in Chinese) [4] W.D.
Wang: Journal of University of Science and Technology Beijing Vol.26(2004), p. 631 (in Chinese) [9] Y.B.
Chen: Journal of University of Science and Technology Beijing: Mineral Metallurgy Materials Vol.12 (2005), p. 469
Physical and mechanical properties of those cementitious materials are shown in Table 1.
Liu: Journal of Building Materials Vol.4 (2001), p.395 (in Chinese) [4] W.D.
Wang: Journal of University of Science and Technology Beijing Vol.26(2004), p. 631 (in Chinese) [9] Y.B.
Chen: Journal of University of Science and Technology Beijing: Mineral Metallurgy Materials Vol.12 (2005), p. 469
Online since: February 2012
Authors: Tao Ye, Bin Jiang, Xian Xian Ye
Therefore, it plays a guiding role in improving mechanical properties of composite materials.
These achievements greatly promoted the development of Powder materials science.
Obviously this would be continuation and supplement to above research, also it is an urgent issue to develop in powder material science.
Similarly, if fly ash or other materials were added to cement, it is also fit for Backscatter image resolution because of the obvious difference of average atomic number between fly ash, clinker and slag.
Vol.2 (2004), p.3(In Chinese) [3] Shoulu Zhang, Wei Li: Journal of electron microscopy.
These achievements greatly promoted the development of Powder materials science.
Obviously this would be continuation and supplement to above research, also it is an urgent issue to develop in powder material science.
Similarly, if fly ash or other materials were added to cement, it is also fit for Backscatter image resolution because of the obvious difference of average atomic number between fly ash, clinker and slag.
Vol.2 (2004), p.3(In Chinese) [3] Shoulu Zhang, Wei Li: Journal of electron microscopy.
Online since: October 2014
Authors: Mohd Shukor Salleh, M.N. Mohammed, Mohammed Zaidi Omar, Junaidi Syarif, Zainuddin Sajuri, Khaled S. Alhawari
Experimental Procedure
Materials.
Brown, Joining using semisolid metals, Welding Journal. 81, 9 (2002) 181-187
Alhawari, Study on thixojoining process using partial remelting method, Advanced in Materials Science and Engineering. 2013 (2013) 1-8
Mohammed, Thermodynamic modelling for thixoformability of Al-Si alloys for semisolid processing, Advanced Science Letters. 19 (2013) 3503-3507
Atkinson, Microstructural investigations of XW-42 and M2 tool steels in semi-solid zones via direct partial remelting route, Journal of Materials Science. 46 (2011) 7696-7705.
Brown, Joining using semisolid metals, Welding Journal. 81, 9 (2002) 181-187
Alhawari, Study on thixojoining process using partial remelting method, Advanced in Materials Science and Engineering. 2013 (2013) 1-8
Mohammed, Thermodynamic modelling for thixoformability of Al-Si alloys for semisolid processing, Advanced Science Letters. 19 (2013) 3503-3507
Atkinson, Microstructural investigations of XW-42 and M2 tool steels in semi-solid zones via direct partial remelting route, Journal of Materials Science. 46 (2011) 7696-7705.
Online since: July 2006
Authors: Kazuo Furuya, Shinji Kumai, Nobuhiro Ishikawa, Kwang Jin Lee
Interfacial microstructure of A6111/steel lap joint fabricated by
defocused laser beam welding
Kwang-Jin Lee1, a , Shinji Kumai
2,b
, Nobuhiro Ishikawa3,c and Kazuo Furuya4,d
1
Tokyo Institute of Technology, Nagatsuta, Midori-ku, Yokohama, 226-8502 Japan
2
Department of Materials Science and Engineering, Tokyo Institute of Technology, Nagatsuta,
Midori-ku, Yokohama, 226-8502 Japan
3
National Institute for Materials Science, Sakura, Tsukuba, 305-0003 Japan
4
National Institute for Materials Science, Sakura, Tsukuba, 305-0003 Japan
a
lee@materia.titech.ac.jp, bkumai@materia.titech.ac.jp, cISHIKAWA.Nobuhiro@nims.go.jp,
d
FURUYA.Kazuo1@nims.go.jp
Keywords: Aluminum alloy, steel, lap joint, laser welding, interfacial microstructure, intermetallic
compound, thermal history, growth behavior.
Materials and welding conditions.
The materials used in the present study were 1.2 mm thick plates of T4-treated A6111 aluminum alloy and 1.0 mm thick cold-rolled steel plates (SPCC).
Table 1 Chemical composition of base materials. mass % C Mn Si P S Cu Mg Fe Al SPCC 0.028 0.13 0.006 0.011 0.005 - - Bal. - A6111 - 0.19 0.63 - - 0.73 0.72 - Bal.
The focused ion beam (FIB) process, which uses a very finely controlled Ga ion beam, is useful for fabricating a thin foil of multi-layered materials for TEM observation.
Materials and welding conditions.
The materials used in the present study were 1.2 mm thick plates of T4-treated A6111 aluminum alloy and 1.0 mm thick cold-rolled steel plates (SPCC).
Table 1 Chemical composition of base materials. mass % C Mn Si P S Cu Mg Fe Al SPCC 0.028 0.13 0.006 0.011 0.005 - - Bal. - A6111 - 0.19 0.63 - - 0.73 0.72 - Bal.
The focused ion beam (FIB) process, which uses a very finely controlled Ga ion beam, is useful for fabricating a thin foil of multi-layered materials for TEM observation.
Online since: January 2017
Authors: Qing Zhu, Hui Li Luo, Zi Lin Liu, Wei Qi Ou, Ying Zhou
And then the modified red mud materials were used to stabilize Cd in an ore soil.
Materials and Methods Red Mud Materials and Soil Dealkalizing red mud (raw material, signed as RM) was obtained from Zhengzhou aluminum factory.
When adding same dosage materials that 5% RM in T5 and 5% MKP in T3 contents of activated Si were 342.24mg/kg and 585.16mg/kg in the 90d soils.
In pot repair, 1%-10% modified red mud materials were added in ore polluted soil.
Alva, Mechanism of silicon induced alleviation of aluminum phytotoxicity, Journal of Plant Nutrition., 19(7) (1996) 1075-1087
Materials and Methods Red Mud Materials and Soil Dealkalizing red mud (raw material, signed as RM) was obtained from Zhengzhou aluminum factory.
When adding same dosage materials that 5% RM in T5 and 5% MKP in T3 contents of activated Si were 342.24mg/kg and 585.16mg/kg in the 90d soils.
In pot repair, 1%-10% modified red mud materials were added in ore polluted soil.
Alva, Mechanism of silicon induced alleviation of aluminum phytotoxicity, Journal of Plant Nutrition., 19(7) (1996) 1075-1087
Online since: October 2014
Authors: Zhu Ji Jin, Shuang Ji Shi, Jia Zhi Lin, Xiu Hong Zhong, Bo Yin
The rapid development of block amorphous alloy material provides great opportunities and huge development space for the research of high-performance functional and structural materials[5].
Part 2: Material removal mechanism, International Journal of Machine Tools and Manufacture. 47(10) (2007) 1615-1624
The High-efficient Low-cost Wheel-grinding Technology for CVD Diamond Films, Advanced Materials Research. 24 (2007) 295-302
Mechanical alloying and milling, Progress in materials science. 46(1) (2001) 1-184
The effect of electric field and pressure on the synthesis and consolidation of materials: a review of the spark plasma sintering method, Journal of Materials Science. 41(3) (2006) 763-777.
Part 2: Material removal mechanism, International Journal of Machine Tools and Manufacture. 47(10) (2007) 1615-1624
The High-efficient Low-cost Wheel-grinding Technology for CVD Diamond Films, Advanced Materials Research. 24 (2007) 295-302
Mechanical alloying and milling, Progress in materials science. 46(1) (2001) 1-184
The effect of electric field and pressure on the synthesis and consolidation of materials: a review of the spark plasma sintering method, Journal of Materials Science. 41(3) (2006) 763-777.
Online since: December 2016
Authors: Saidat Olanipekun Giwa, Abel Adekanmi Adeyi, Abdulwahab Giwa
Biodiesels are typically made from renewable organic raw materials such as jatropha, soybean or rapeseed oils, animal fats, waste vegetable oils or microalgae oils [2].
Apart from that, this process combines the benefits of equilibrium reaction with distillation in order to achieve a substantial progress in promoting reaction conversion as a result of constant recycling of unconverted materials and removal of products.
Jimmy, Microwave assisted to biodiesel production from palm oil in time and material feeding frequency, International Journal of ChemTech Research, 8(4) (2015) 1695-1700
Giwa, Modelling and simulation of a reactive distillation process for fuel additive production, Journal of Environmental Science, Computer Science and Engineering & Technology, Section C: Engineering & Technology, 5(1) (2016) 63-74
Giwa, PI and PID Control of a fuel additive reactive distillation process, ARPN Journal of Engineering and Applied Sciences, 11(11) (2016) 6779-6793
Apart from that, this process combines the benefits of equilibrium reaction with distillation in order to achieve a substantial progress in promoting reaction conversion as a result of constant recycling of unconverted materials and removal of products.
Jimmy, Microwave assisted to biodiesel production from palm oil in time and material feeding frequency, International Journal of ChemTech Research, 8(4) (2015) 1695-1700
Giwa, Modelling and simulation of a reactive distillation process for fuel additive production, Journal of Environmental Science, Computer Science and Engineering & Technology, Section C: Engineering & Technology, 5(1) (2016) 63-74
Giwa, PI and PID Control of a fuel additive reactive distillation process, ARPN Journal of Engineering and Applied Sciences, 11(11) (2016) 6779-6793
Online since: July 2014
Authors: Virupaxi Auradi, S.A. Kori, S.L. Biradar
Journal of Material Science 2011, 46(08), 2805-2813
Materials Science and Engineering A, 1994, 185: 165–171
Materials Science and Engineering A, 1992, 153: 691–698
Materials Science and Engineering A, 2000, 289: 246–254
Materials Science and Engineering A, 2008, 497: 25-30
Materials Science and Engineering A, 1994, 185: 165–171
Materials Science and Engineering A, 1992, 153: 691–698
Materials Science and Engineering A, 2000, 289: 246–254
Materials Science and Engineering A, 2008, 497: 25-30
Online since: August 2007
Authors: Emma McCummiskey, T.R. Ashton, D.G. Stevenson, William Dempster, David Nash
Shape Memory Materials: Cambridge University Press.
2.
Materials Science and Engineering A, A273-275:149-160. 3.
Materials Science and Engineering A, A429:130-136. 4.
Progress in Materials Science, 50:511-678. 5.
Materials Science and Technology, 17 (9):1073-1078. 11.
Materials Science and Engineering A, A273-275:149-160. 3.
Materials Science and Engineering A, A429:130-136. 4.
Progress in Materials Science, 50:511-678. 5.
Materials Science and Technology, 17 (9):1073-1078. 11.
Online since: August 2013
Authors: Jin Song Leng
Du, Shape-Memory Polymers and Their Composites: Stimulus Methods and Applications, Progress in Materials Science, 56 (2011) 1077-1135
Advanced Engineering Materials, 10 (2008) 592-595
Journal of Applied Science, 114 (2009) 2455-2460
Smart materials and Structures, 18 (2009) 074003
Liu, Infrared light-active shape memory polymer filled with nanocarbon particles, Journal of Applied Science, 114 (2009) 2455-2460
Advanced Engineering Materials, 10 (2008) 592-595
Journal of Applied Science, 114 (2009) 2455-2460
Smart materials and Structures, 18 (2009) 074003
Liu, Infrared light-active shape memory polymer filled with nanocarbon particles, Journal of Applied Science, 114 (2009) 2455-2460