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Online since: February 2011
Authors: Qiang Liu, Feng Shou Shangguan, De Jun Li, Yao Rong Feng, Ke Tong
Materials Science and Engineering A, 2009, 500 (1-2): 196-206
Yin, Materials Science and Engineering A 500 (2009) 150–154
Zhang, Journal of Zhejiang University Science A 7 (8) (2006) 1453–1460
Ryan, Materials Science and Engineering A 322 (2002)43–63
[18] Hamada A S, Karjalainen L P, Somani M C., Materials Science and Engineering A, 2007, 467 (1-2): 114-124.
Yin, Materials Science and Engineering A 500 (2009) 150–154
Zhang, Journal of Zhejiang University Science A 7 (8) (2006) 1453–1460
Ryan, Materials Science and Engineering A 322 (2002)43–63
[18] Hamada A S, Karjalainen L P, Somani M C., Materials Science and Engineering A, 2007, 467 (1-2): 114-124.
Online since: June 2015
Authors: Zuraida Khusaimi, Mohamad Rusop, Saifollah Abdullah, Muzammil Mat Akhir, Ruziana Mohamed, N.A.M. Asib, Kevin Alvin Eswar, Nurul Afaah Abdullah, Mohd Husairi Fadzilah Suhaimi, Nurul Afaah Abdullah, Azlinda Aziz
Annealing Heat Treatment of ZnO Nanoparticles Grown on Porous Si Substrate Using Spin-Coating Method, Advances in Materials Science and Engineering, 2014 (2014) 6
Morphology and optical properties of zinc oxide thin films grown on Si (100) by metal-organic chemical vapor deposition, Journal of Materials Science: Materials in Electronics, 20 (S1) (2008) 441-445
Growth of ZnO Nanosturctures on Porous Silicon in Different Concentration of Zn2+ Ion, Advanced Materials Research, 832 (2014) 691-694
Microstructure and Materials Properties, 8 (6) (2013) 478-487
Surface Morphology of Seeded Nanostructured ZnO on Silicon by Sol-Gel Technique, Advanced Materials Research, 667 (2013) 265-271
Morphology and optical properties of zinc oxide thin films grown on Si (100) by metal-organic chemical vapor deposition, Journal of Materials Science: Materials in Electronics, 20 (S1) (2008) 441-445
Growth of ZnO Nanosturctures on Porous Silicon in Different Concentration of Zn2+ Ion, Advanced Materials Research, 832 (2014) 691-694
Microstructure and Materials Properties, 8 (6) (2013) 478-487
Surface Morphology of Seeded Nanostructured ZnO on Silicon by Sol-Gel Technique, Advanced Materials Research, 667 (2013) 265-271
Online since: February 2011
Authors: Guang Chen, H.W. Xu, J.L. Cheng, Y.L. Du
Chen
Department of Materials Science and Engineering, Nanjing University of Science and Technology, Nanjing, 210094, China
ayldu_njust@mail.njust.edu.cn
Keywords: Bulk metallic glass; Crystallization; Thermal analysis
Abstract: The crystallization behavior of Cu45Zr48 Al7 bulk metallic glass was studied by differential scanning calorimetry (DSC) and x-ray diffraction (XRD).
Firstly, the metallic glasses are metastable materials, which will transform into crystalline state with increasing the temperature.
Additionally, bulk nanostructured materials can be obtained by the crystallization of BMGs.
Acknowledgement This work was supported by the Natural Science Foundation of Jiangsu Province (No.
Jiang: Journal of Alloys and Compounds, Vol. 441 (2007), p. 76
Firstly, the metallic glasses are metastable materials, which will transform into crystalline state with increasing the temperature.
Additionally, bulk nanostructured materials can be obtained by the crystallization of BMGs.
Acknowledgement This work was supported by the Natural Science Foundation of Jiangsu Province (No.
Jiang: Journal of Alloys and Compounds, Vol. 441 (2007), p. 76
Online since: September 2016
Authors: Mukund A. Patil
G., Prescott T., Rafferty A. and Hashmi M.S.J. (2007), “An Overview of magnetostriction, its use and methods to measure these properties” Journal of Materials Processing Technology, Volume 191, PP. 96-101
[5] Joshi Raghavendra, Kadoli Ravikiran (2014), “Magneto-mechanical Coupled Magnetostriction Model for Terfenol-D Actuator Under Step Input” International Conference on Advances in Manufacturing and Materials Engineering, AMME 2014, Procedia Material Science 5, PP. 154-163
[6] Joshi Raghavendra, Rao Subba M. and Kadoli Ravikiran (2013), “Finite Element Magnetostatic Analysis of Magnetostrictive (Tb0.3Dy0.7Fe1.95) Actuator with Different Housing Materials” Defence Science Journal, Volume 63, No. 4, PP. 423-428
H. (2000), “Magnetic Properties of Materials” Material Science and Engineering, Volume A287, PP. 138-145
[18] ZHAO Zhang-rong, WU Yi-jie, GU Xin-jian, ZHANG Lei and YANG Ji-feng (2009), “Multi-physics Coupling Field Finite Element Analysis on Giant Magnetostrictive Materials Smart Component” Journal of Zhejiang University Science A, Volume 10, No. 5, PP. 653-660
[5] Joshi Raghavendra, Kadoli Ravikiran (2014), “Magneto-mechanical Coupled Magnetostriction Model for Terfenol-D Actuator Under Step Input” International Conference on Advances in Manufacturing and Materials Engineering, AMME 2014, Procedia Material Science 5, PP. 154-163
[6] Joshi Raghavendra, Rao Subba M. and Kadoli Ravikiran (2013), “Finite Element Magnetostatic Analysis of Magnetostrictive (Tb0.3Dy0.7Fe1.95) Actuator with Different Housing Materials” Defence Science Journal, Volume 63, No. 4, PP. 423-428
H. (2000), “Magnetic Properties of Materials” Material Science and Engineering, Volume A287, PP. 138-145
[18] ZHAO Zhang-rong, WU Yi-jie, GU Xin-jian, ZHANG Lei and YANG Ji-feng (2009), “Multi-physics Coupling Field Finite Element Analysis on Giant Magnetostrictive Materials Smart Component” Journal of Zhejiang University Science A, Volume 10, No. 5, PP. 653-660
Online since: May 2011
Authors: Wen Cai Xu, Dong Li Li, Ya Bo Fu
Experimental
Experiment materials
Nano SiO2 agen(NS-2):self-made by the criterion described in reference [11].
The blended raw materials were melted and extruded in twin-screw extruder under 160~220˚C.
Herrera-Alonsoa, Zdenka Sedlakovab, Eva Marand: Journal of Membrane Science Vol.363 (2010), p 48
Pukanszky: Journal of Macromolecule Science, Part B: Physics, Vol. 41 (2002), p 1249 [14] Su, Tien-kuei.
Advanced Materials Research Vol. 152-153 (2011), p 465.
The blended raw materials were melted and extruded in twin-screw extruder under 160~220˚C.
Herrera-Alonsoa, Zdenka Sedlakovab, Eva Marand: Journal of Membrane Science Vol.363 (2010), p 48
Pukanszky: Journal of Macromolecule Science, Part B: Physics, Vol. 41 (2002), p 1249 [14] Su, Tien-kuei.
Advanced Materials Research Vol. 152-153 (2011), p 465.
Online since: May 2021
Authors: Agung Setyo Darmawan, Kusnanto Mukti Wibowo, Poempida Hidayatullah, Muhamad Fitri
This materials were cut in to 200 mm width, and 200 mm length, with 30° the cutting angle for one side of the materials.
Meanwhile, materials that have a fine grain structure tend to have a lower impact strength.
Series: Journal of Applied Sciences, Management and Engineering Technology, Vol 1, Issue 2, 2020. 40–45
Materials Science and Engineering. 2011.
International Journal of Advanced Technology in Mechanical, Mechatronics and Materials (IJATEC) Vol. 01, No. 1 (2020)32-38 https://doi.org/10.37869/ijatec.v1i1.12
Meanwhile, materials that have a fine grain structure tend to have a lower impact strength.
Series: Journal of Applied Sciences, Management and Engineering Technology, Vol 1, Issue 2, 2020. 40–45
Materials Science and Engineering. 2011.
International Journal of Advanced Technology in Mechanical, Mechatronics and Materials (IJATEC) Vol. 01, No. 1 (2020)32-38 https://doi.org/10.37869/ijatec.v1i1.12
Online since: October 2012
Authors: Xiao Huan Liu, Ming Ming Zhang, Chun Peng Wang, Shou Hai Li, Shen Yuan Fu
Morphologic accessibility of wood adhesives [J].Journal of Applied Polymer Science, 1974, 18(9): 2785-2796
Journal of Applied Polymer Science, 1994, 52 (13): 1847-1856
Polymer Materials Science And Engineering, 2008, 24(3): 41-43
Polymer Materials Science And Engineering, 2008, 24(9): 120-122
Chinese Journal of Energetic Materials,2009, 17(1): 84 [14]Byung-Dae Park,Bernard Ried, Ernest W.
Journal of Applied Polymer Science, 1994, 52 (13): 1847-1856
Polymer Materials Science And Engineering, 2008, 24(3): 41-43
Polymer Materials Science And Engineering, 2008, 24(9): 120-122
Chinese Journal of Energetic Materials,2009, 17(1): 84 [14]Byung-Dae Park,Bernard Ried, Ernest W.
Online since: October 2010
Authors: Xiao Yu Zhao, Yan Feng Xing, Yan Song Wang
However, material properties of the compliant parts may change in volume
production.
Hu: Journal of Manufacturing Science and Engineering.
Ceglarek: Journal of Mechanical Design, Vol. 125 (2003), p.673 [4] J.A.
Oh: International Journal of Vehicle Design, Vol. 18 (1997), p.455 [6] L.S.
Hsieh: International Journal Materials and Product Technology, Vol. 17 (2002), p.389
Hu: Journal of Manufacturing Science and Engineering.
Ceglarek: Journal of Mechanical Design, Vol. 125 (2003), p.673 [4] J.A.
Oh: International Journal of Vehicle Design, Vol. 18 (1997), p.455 [6] L.S.
Hsieh: International Journal Materials and Product Technology, Vol. 17 (2002), p.389
Online since: May 2014
Authors: Koichi Goda, Rie Nakamura
EXPERIMENTAL
Materials
The reinforcement used in this study is a ramie single yarn (#16, supplied by TOSCO, Co., Ltd.).
Journal of Solid Mechanics and Materials Engineering, Vol.4, No.11, pp.1605-1614 (2010)
Goda, “Effect of yarn structure on Mechanical properties of natural fiber twisted yarns and green composites reinforced with the twisted yarn”, Journal of the society of materials science, Vol.61, No.2, pp.111-118 (2012) [5]Rao Y., Farris R.
J., “A modeling and experimental study of the influence of twist on the mechanical properties of high-performance fiber yarn”, Journal of Applied Polymer Science, Vol.77, pp.1938-1949 (2000) [6]Hearle J.
Textile Research Journal, Vol.35, No.10, pp.885-889 (1965) [7] J.W.S.Hearle and B.S.Gupta , “Migration of Fibers in Yarn”, Textile Research Journal, 9, 788-795,1965 [8] J.W.S.
Journal of Solid Mechanics and Materials Engineering, Vol.4, No.11, pp.1605-1614 (2010)
Goda, “Effect of yarn structure on Mechanical properties of natural fiber twisted yarns and green composites reinforced with the twisted yarn”, Journal of the society of materials science, Vol.61, No.2, pp.111-118 (2012) [5]Rao Y., Farris R.
J., “A modeling and experimental study of the influence of twist on the mechanical properties of high-performance fiber yarn”, Journal of Applied Polymer Science, Vol.77, pp.1938-1949 (2000) [6]Hearle J.
Textile Research Journal, Vol.35, No.10, pp.885-889 (1965) [7] J.W.S.Hearle and B.S.Gupta , “Migration of Fibers in Yarn”, Textile Research Journal, 9, 788-795,1965 [8] J.W.S.
Online since: October 2009
Authors: Zhi Qing Hu, Xue Peng Gong, Zeng Ming Feng, Ming Zhe Li
The high plastic deformation, damage and fracture undergo in the
forming 3D parts, along with different materials contact and friction, which occur during self
rolling.
Rivero: Journal of Materials Processing Technology, Vol. 177 (2006), pp.404-408
Li, Z.Y.Cai and et al: Journal of Materials Processing Technology, Vol. 129 (2002), pp.77-280
Levers: Journal of Materials Processing Technology, Vol. 172 (2006), pp.59-162
Gong: Materials Science and Engineering A, Vol. 499 (2009), pp.34-237.
Rivero: Journal of Materials Processing Technology, Vol. 177 (2006), pp.404-408
Li, Z.Y.Cai and et al: Journal of Materials Processing Technology, Vol. 129 (2002), pp.77-280
Levers: Journal of Materials Processing Technology, Vol. 172 (2006), pp.59-162
Gong: Materials Science and Engineering A, Vol. 499 (2009), pp.34-237.