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Online since: March 2018
Authors: Zahra Syifadeasy Azkya, Moehammad Fauzi, Abubakar Ahmad
Besides the need for renewable raw materials at this time is also quite high.
One of the potential raw materials that can be mass produced as raw materials of biodiesel is tobacco.
However, tobacco can be utilized part of the plant for biodiesel making materials.
Plant Biotechnology Journal
International Journal of the Physical Sciences 5(13): 2066–74.
One of the potential raw materials that can be mass produced as raw materials of biodiesel is tobacco.
However, tobacco can be utilized part of the plant for biodiesel making materials.
Plant Biotechnology Journal
International Journal of the Physical Sciences 5(13): 2066–74.
Online since: December 2013
Authors: A.R. Bushroa, N. Arun, R. Chanthiriga, S. Ramis Rau, G.H.E. Alshabeeb, A.K. Arof, Ramesh T. Subramaniam, Ramesh Kasi, Vengadaesvaran Balakrishnan
The scratch test was carried out using a micro test system (Micro Materials Ltd, Wrexham, UK).
Journal of Materials Chemistry 21 (2011) 16304-16322
Journal of Electronic Materials 34 (2005) 1573-1578
Jin, Journal of Colloid and Interface Science 242 (2001) 174-179
Pearson, The Journal of Adhesion 86 (2010) 1178-1202
Journal of Materials Chemistry 21 (2011) 16304-16322
Journal of Electronic Materials 34 (2005) 1573-1578
Jin, Journal of Colloid and Interface Science 242 (2001) 174-179
Pearson, The Journal of Adhesion 86 (2010) 1178-1202
Online since: February 2016
Authors: Qiu Li, Yun Huang, Zhong He Shui, Hai Ning Geng
Materials and Experimental details
Materials.
The binder materials were premixed with fine and coarse aggregate for 1 min.
Armas (Ed.) 11th International Congress on Metallurgy & Materials Sam/Conamet 20112012, pp. 343-350
McWhinnie, The solid state chemistry of metakaolin-blended ordinary Portland cement, Journal of Materials Science, 35 (2000) 2701-2710
Wang, Dominant Factors on the Early Hydration of Metakaolin-Cement Paste, Journal of Wuhan University of Technology-Materials Science Edition, 25 (2010) 849-852
The binder materials were premixed with fine and coarse aggregate for 1 min.
Armas (Ed.) 11th International Congress on Metallurgy & Materials Sam/Conamet 20112012, pp. 343-350
McWhinnie, The solid state chemistry of metakaolin-blended ordinary Portland cement, Journal of Materials Science, 35 (2000) 2701-2710
Wang, Dominant Factors on the Early Hydration of Metakaolin-Cement Paste, Journal of Wuhan University of Technology-Materials Science Edition, 25 (2010) 849-852
Online since: August 2011
Authors: Hsin Min Lee, Kun Ling Wu, Po Huai Yu, Jung Chou Hung, Biing Hua Yan
Experimental materials.
Liao: Journal of Materials Processing Technology Vol. 140 (2003), p. 274 [2] H.
Bamberg: Journal of Materials Processing Technology Vol. 209 (8) (2009), p. 3740 [6] W.
Lix: Journal of Materials Process Technology Vol. 209 (7) (2009), p. 3149 [7] E.S.
Shi: Journal of Materials Processing Technology Vol. 129 (1-3) (2002), p. 283 [14] J.D.
Liao: Journal of Materials Processing Technology Vol. 140 (2003), p. 274 [2] H.
Bamberg: Journal of Materials Processing Technology Vol. 209 (8) (2009), p. 3740 [6] W.
Lix: Journal of Materials Process Technology Vol. 209 (7) (2009), p. 3149 [7] E.S.
Shi: Journal of Materials Processing Technology Vol. 129 (1-3) (2002), p. 283 [14] J.D.
Online since: December 2010
Authors: Gao Feng Zhang, Qing Song Huang, Feng Wei Wei, Yong Liang Zhou, Xiao Song Zhang
Temperature dependence of the sole Mn2+ emissions in Manganese doped ZnS:Mn quantum dots
Xiaosong Zhang1,2,a, Gaofeng Zhang2,b, Qingsong Huang2,c, Fengwei Wei2,d, and Yongliang Zhou2,e
1 School of Materials Science and Engineering, Harbin Institute of Technology, Harbin, PRC 150001, China
2 Institute of Material Physics, Tianjin University of Technology, Tianjin, PRC 300191, China
azhangxiaosong@tjut.edu.cn, bzhang_gaofeng@126.com, cqshh2052@163.com, dwfw8712@sina.com, ezhousan1984@yahoo.com.cn
Keywords: ZnS:Mn Quantum dots emission intensity emission energy full widths at half maximum photoluminescence electron-phonon coupling
Abstract.
It is well known that temperature is one of the main factors to affect luminescent properties of devices and QDs materials.
Acknowledgements This work is supported by the Natural Science Foundation of the Tianjin Education Committee (Grant No. 20071207), the National Natural Science Foundation of China (Grand No. 60907021, 60977035, 60877029), and the Key Laboratory of Luminescence and Optical Information, Beijing Jiaotong University, Ministry of Education, China.
[6] Xiaosong Zhang, Lan Li, Dongqing Dong, Zhi Wang and Xiaoyi Dong: Advanced Materials Research Vol.31 (2008), p. 167-169
Meijerrink: Journal of Luminescence Vol. 104 (2003), p. 187-196 [13] T.
It is well known that temperature is one of the main factors to affect luminescent properties of devices and QDs materials.
Acknowledgements This work is supported by the Natural Science Foundation of the Tianjin Education Committee (Grant No. 20071207), the National Natural Science Foundation of China (Grand No. 60907021, 60977035, 60877029), and the Key Laboratory of Luminescence and Optical Information, Beijing Jiaotong University, Ministry of Education, China.
[6] Xiaosong Zhang, Lan Li, Dongqing Dong, Zhi Wang and Xiaoyi Dong: Advanced Materials Research Vol.31 (2008), p. 167-169
Meijerrink: Journal of Luminescence Vol. 104 (2003), p. 187-196 [13] T.
Online since: January 2013
Authors: Ausonio Tuissi, Carlo Alberto Biffi, Alessandro Figini Albisetti
Noebe, High temperature shape memory alloys, International Materials Reviews 55 (2010) 257-315
Koval, High-temperature shape memory alloys: some recent developments, Materials Science and Engineering A378 (2004) 2-10
Ochin, Phase transformations in Zr-29.56 at.% Cu-19.85 at.% Ni melt-spun high-temperature shape memory alloy, Materials Science and Engineering A 438-440 (2006) 816-820
Yokoyama, Influence of Ni on stability of martensitic transformation in Zr50Cu50−xNix, Journal of Alloys and Compounds (2012) IN-PRESS
Harris, Microstructural characteristics of the eutectoid mixture Zr2Cu and Zr7Cu10, Journal of Materials Science Letters 20 (2001) 543-545.
Koval, High-temperature shape memory alloys: some recent developments, Materials Science and Engineering A378 (2004) 2-10
Ochin, Phase transformations in Zr-29.56 at.% Cu-19.85 at.% Ni melt-spun high-temperature shape memory alloy, Materials Science and Engineering A 438-440 (2006) 816-820
Yokoyama, Influence of Ni on stability of martensitic transformation in Zr50Cu50−xNix, Journal of Alloys and Compounds (2012) IN-PRESS
Harris, Microstructural characteristics of the eutectoid mixture Zr2Cu and Zr7Cu10, Journal of Materials Science Letters 20 (2001) 543-545.
Online since: September 2012
Authors: Noriaki Ikenaga, Yoichi Kishi, Zenjiro Yajima, Noriyuki Sakudo
Synthesis of Crystallized TiNi Films by Ion Irradiation
Noriaki Ikenaga1,a, Yoichi Kishi2,b, Zenjiro Yajima2,c and Noriyuki Sakudo2,d
1Research Laboratory for Integrated Technological Systems, Kanazawa Institute of Technology, 3-1 Yatsukaho, Hakusan, Ishikawa 924-0838, Japan
2Advanced Materials Science R and D Center, Kanazawa Institute of Technology, 3-1 Yatsukaho, Hakusan, Ishikawa 924-0838, Japan
an-ikenaga@neptune.kanazawa-it.ac.jp, bkishi@neptune.kanazawa-it.ac.jp, cyajimaz@neptune.kanazawa-it.ac.jp, dsakudo@neptune.kanazawa-it.ac.jp
Keywords: shape memory alloy, multi-sputtering, low temperature crystallization, ion irradiation, ion energy, plasma potential
Abstract.
TiNi is well known as a typical shape-memory alloy, and is expected to be a promising material for micro actuators.
In order to realize micro electro mechanical systems (MEMS) with this material, we have to get thin crystal film of the material, since the shape-memory property appears only when the structure is crystalline.
References [1] P.Krulevitch, A.P.Lee, P.B.Ramsey, J.C.Trevino, J.Hamilton, M.A.Northrup, Thin film shape memory alloy microactuators, Journal of Microelectro-Mechanical Systems 5 (4) (1996), pp. 270-282 [2] S.Miyazaki, and A.Ishida, Martensitic transformation and shape memory behavior in sputter-deposited TiNi-base thin films, Materials Science and Engineering A Vol. 273-275 (1999), pp. 106-133 [3] S.Miyazaki, K.Otsuka, C.M.Wayman, Morphological changes associated with the R-phase and martensitic transformations in Ti-Ni single crystals, ISIJ International, 29 (5) (1989), pp. 423-429 [4] J.D.Busch, A.D.Johnson, C.H.Lee, Stevenson, D.A. et al., Shape-memory properties in Ni-Ti sputter-deposited film, Journal of Applied Physics, 68 (12) (1990), pp. 6224-6228 [5] K.R.C.
Gisser, J.D.Busch, A.D.Johnson, A.B.Ellis, Oriented nickel-titanium shape memory alloy films prepared by annealing during deposition, Applied Physics Letters, 61(14) (1992), pp. 1632-1634 [6] CIMTEC2008 ike, Influence of substrate temperature on texture for deposited TiNi films, Proceedings of the 3rd International Conference on Smart Materials, Structures and Systems (CIMTEC 2008), State-of-the-art Research and Application of SMAs Technologies, 59 (2008), pp. 30-34 [7] N.Ikenaga, Y.Kishi, Z.Yajima and N.Sakudo, Low Temperature Crystallization of TiNi Films by Ion Irradiation, The 8th European Symposium on Martensitic Transformations (ESOMAT 2009), 05010 (2009), published by EDP Sciences (www.esomat.org), DOI:10.1051/esomat/200905010, 2009 [8] Y.Kishi, N.Ikenaga, N.Sakudo and Z.Yajima, Transforamation Behavior of Low Temperature Crystallized TiNi Shape Memory Alloy Films, The 8th European Symposium on Martensitic Transformations (ESOMAT 2009), 02012 (2009), published by EDP Sciences
TiNi is well known as a typical shape-memory alloy, and is expected to be a promising material for micro actuators.
In order to realize micro electro mechanical systems (MEMS) with this material, we have to get thin crystal film of the material, since the shape-memory property appears only when the structure is crystalline.
References [1] P.Krulevitch, A.P.Lee, P.B.Ramsey, J.C.Trevino, J.Hamilton, M.A.Northrup, Thin film shape memory alloy microactuators, Journal of Microelectro-Mechanical Systems 5 (4) (1996), pp. 270-282 [2] S.Miyazaki, and A.Ishida, Martensitic transformation and shape memory behavior in sputter-deposited TiNi-base thin films, Materials Science and Engineering A Vol. 273-275 (1999), pp. 106-133 [3] S.Miyazaki, K.Otsuka, C.M.Wayman, Morphological changes associated with the R-phase and martensitic transformations in Ti-Ni single crystals, ISIJ International, 29 (5) (1989), pp. 423-429 [4] J.D.Busch, A.D.Johnson, C.H.Lee, Stevenson, D.A. et al., Shape-memory properties in Ni-Ti sputter-deposited film, Journal of Applied Physics, 68 (12) (1990), pp. 6224-6228 [5] K.R.C.
Gisser, J.D.Busch, A.D.Johnson, A.B.Ellis, Oriented nickel-titanium shape memory alloy films prepared by annealing during deposition, Applied Physics Letters, 61(14) (1992), pp. 1632-1634 [6] CIMTEC2008 ike, Influence of substrate temperature on texture for deposited TiNi films, Proceedings of the 3rd International Conference on Smart Materials, Structures and Systems (CIMTEC 2008), State-of-the-art Research and Application of SMAs Technologies, 59 (2008), pp. 30-34 [7] N.Ikenaga, Y.Kishi, Z.Yajima and N.Sakudo, Low Temperature Crystallization of TiNi Films by Ion Irradiation, The 8th European Symposium on Martensitic Transformations (ESOMAT 2009), 05010 (2009), published by EDP Sciences (www.esomat.org), DOI:10.1051/esomat/200905010, 2009 [8] Y.Kishi, N.Ikenaga, N.Sakudo and Z.Yajima, Transforamation Behavior of Low Temperature Crystallized TiNi Shape Memory Alloy Films, The 8th European Symposium on Martensitic Transformations (ESOMAT 2009), 02012 (2009), published by EDP Sciences
Online since: September 2013
Authors: Xue Jie Liu, Xin Tan, Zhen Yang Xin, Qing Ge Mu
It shows that they are brittle material.
When G/B<0.5, the material is ductile, or it is brittle.
The Chinese Journal of Nonferrous Metals, Sep. 2008, Vol.18 No.9 1680-1684 [3] John N.
Cleary.Principles of Inorganic Materials Design.2005 John Wiley & Sons, Inc. 306 [4] J.
The Chinese Journal of Nonferrous Metals, Aug. 2007 , Vol. 17 No. 8 1297-1301
When G/B<0.5, the material is ductile, or it is brittle.
The Chinese Journal of Nonferrous Metals, Sep. 2008, Vol.18 No.9 1680-1684 [3] John N.
Cleary.Principles of Inorganic Materials Design.2005 John Wiley & Sons, Inc. 306 [4] J.
The Chinese Journal of Nonferrous Metals, Aug. 2007 , Vol. 17 No. 8 1297-1301
Online since: May 2011
Authors: Xuan Luo, Hao Sun, Xiao Ren Lv, Shi Jie Wang
Experimental procedure
In this paper, NBR and FPM are selected as the experimental material.
Sleptsova: Journal of Friction and Wear Vol. 25(5) (2003), p.77 [5] S.
Yang, Journal of Lanzhou University (Natural Sciences).
Karger-Kocsis: Journal of Applied Polymer Science Vol. 115(3) (2010), p.1651 [10] A.
Saffar: Journal of Materials Science Vol. (2010), p.1 [11] M.
Sleptsova: Journal of Friction and Wear Vol. 25(5) (2003), p.77 [5] S.
Yang, Journal of Lanzhou University (Natural Sciences).
Karger-Kocsis: Journal of Applied Polymer Science Vol. 115(3) (2010), p.1651 [10] A.
Saffar: Journal of Materials Science Vol. (2010), p.1 [11] M.