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Online since: December 2012
Authors: Su Juan Wang, Han Wang, Zhi Jun Yang, Xin Du Chen, Xue Song Chen, Qiang Liu, Lei Qin, Huan Wei Zhou
Prins: submitted to Journal of Mechanics Research Communications (2007)
[2] Carl R.
Knospe: submitted to Journal of Control Engineering Practice (2007) [3] Fittro, R.
S: submitted to Journal of Machining Science and Technology (2003) [4] Jan Kumbernuss, Chen Jian, Junhua Wang, H.X.
Fu: submitted to Journal of Applied Energy (2012) [5] K.
[9] XL Qi, Z Fu, GX Wang, K Zhang: submitted to Journal of Advance Material Research (2012)
Knospe: submitted to Journal of Control Engineering Practice (2007) [3] Fittro, R.
S: submitted to Journal of Machining Science and Technology (2003) [4] Jan Kumbernuss, Chen Jian, Junhua Wang, H.X.
Fu: submitted to Journal of Applied Energy (2012) [5] K.
[9] XL Qi, Z Fu, GX Wang, K Zhang: submitted to Journal of Advance Material Research (2012)
Online since: May 2020
Authors: Bei Bei Dong, Zhi Min Zhang, Jian Min Yu, Xin Che, Shao Bo Cheng
Therefore, it is important to study the thermal tensile behavior of metal materials for guiding the plastic processing of materials [6].
Computational Materials Science, 2009, 44(2): 760-764
Materials Science and Engineering: A, 2015, 620: 319-332
Li, et al, Hot deformation behavior and hot processing map for HMn62-3-3 alloy, Materials Review. 31 (2017) 122-149
Sun, Study on hot deformation behavior and hot processing map of H13 steel containing rare earth, Materials Review. 31 (2018) 149-155
Computational Materials Science, 2009, 44(2): 760-764
Materials Science and Engineering: A, 2015, 620: 319-332
Li, et al, Hot deformation behavior and hot processing map for HMn62-3-3 alloy, Materials Review. 31 (2017) 122-149
Sun, Study on hot deformation behavior and hot processing map of H13 steel containing rare earth, Materials Review. 31 (2018) 149-155
Online since: June 2015
Authors: M.S. Jaffar, Murtadha Sh. Aswood, Anees A. Al-Hamzawi, Nada F. Tawfiq
Introduction
The solid state nuclear track detectors SSNTDs are insulating materials have been usefully employed in a number of different fields of science and technology [1-3].
The solid state nuclear track detectors are formed in a variety of materials which is fall into two main categories: inorganic solids such as crystals and glasses, and organic solids such as polymers.
Tawfiq, Uranium concentration in blood samples of Southern Iraqi leukemia patients using CR-39 track detector, Journal of Radioanalytical and Nuclear Chemistry 299 (2014) 1267-1272
Salih, Uranium concentration in human blood using fission track etch technique, Journal of Natural Sciences Research. 13 (2013) 176-181
Qureshi, SSNTD Applications in science and technology, Radiat.
The solid state nuclear track detectors are formed in a variety of materials which is fall into two main categories: inorganic solids such as crystals and glasses, and organic solids such as polymers.
Tawfiq, Uranium concentration in blood samples of Southern Iraqi leukemia patients using CR-39 track detector, Journal of Radioanalytical and Nuclear Chemistry 299 (2014) 1267-1272
Salih, Uranium concentration in human blood using fission track etch technique, Journal of Natural Sciences Research. 13 (2013) 176-181
Qureshi, SSNTD Applications in science and technology, Radiat.
Online since: July 2013
Authors: Yan Liu, Jing Wei Guo, Xiao Pin Zhang, Peng Zhang
Catalyst-free InGaP nanoneedles grown on Si substrate by metalorganic chemical vapor deposition
Peng Zhang1, 2, a, Yan Liu3, b, Jingwei Guo4, c and Xiaopin Zhang2, d
1 Department of Mechanical and Electrical Engineering, Hebei Vocational & Technical College of Building Materials, Qinhuangdao, Hebei, 066004, China
2 State Key Laboratory of Information Photonics and Optical Communications, Beijing University of Posts and Telecommunications, Beijing 100876, China
3 National Engineering Research Center for Equipment and Technology of Cold Strip Rolling, Yanshan University, Qinhuangdao, Hebei, 066004, China
4 Laboratory of Nano-Fabrication and Novel Devices Integrated Technology, Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China
apandhtop@126.com, bliuyan@ysu.edu.cn, cguojingwei@ime.ac.cn, dshou926@126.com
Keywords: nanoneedle, InGaP, catalyst-free, Si
Abstract.
Introduction The epitaxy of III-V materials on Si substrates has especially been attracting a great deal of attention, making it possible to enable optoelectronic devices to be integrated with established Si microelectronics technology [1, 2].
Acknowledgements This research was supported by the Foundation of The Department of Education of Hebei Province for Young Teachers in University (2011242), Science Research and Development project of Hebei province (10212158), Science Research and Development project of Qinhuangdao (201101A152) and China Postdoctoral Science Foundation (2012M510582).
References [1] Hui Huang, Xiaomin Ren, Jihe Lv, Qi Wang, Hailan Song, Shiwei Cai, Yongqing Huang, and Bo Qu: Journal of Applied Physics Vol. 104 (2008), p. 113114 [2] Junghyo Nah, Hui Fang, Chuan Wang, Kuniharu Takei, Min Hyung Lee, E.
Plis, Sanjay Krishna, and Ali Javey: Nano Letters Vol. 12 (2012), p. 3592 [3] Jingwei Guo, Hui Huang, Jianwei Zhang, Xiaogan Li, Yongqing Huang, Xiaomin Ren, Zhuoyu Ji, Ming Liu: Journal of Applied Physics Vol.113 (2013), p. 114301 [4] Michael Moewe, Linus C.
Introduction The epitaxy of III-V materials on Si substrates has especially been attracting a great deal of attention, making it possible to enable optoelectronic devices to be integrated with established Si microelectronics technology [1, 2].
Acknowledgements This research was supported by the Foundation of The Department of Education of Hebei Province for Young Teachers in University (2011242), Science Research and Development project of Hebei province (10212158), Science Research and Development project of Qinhuangdao (201101A152) and China Postdoctoral Science Foundation (2012M510582).
References [1] Hui Huang, Xiaomin Ren, Jihe Lv, Qi Wang, Hailan Song, Shiwei Cai, Yongqing Huang, and Bo Qu: Journal of Applied Physics Vol. 104 (2008), p. 113114 [2] Junghyo Nah, Hui Fang, Chuan Wang, Kuniharu Takei, Min Hyung Lee, E.
Plis, Sanjay Krishna, and Ali Javey: Nano Letters Vol. 12 (2012), p. 3592 [3] Jingwei Guo, Hui Huang, Jianwei Zhang, Xiaogan Li, Yongqing Huang, Xiaomin Ren, Zhuoyu Ji, Ming Liu: Journal of Applied Physics Vol.113 (2013), p. 114301 [4] Michael Moewe, Linus C.
Online since: September 2016
Authors: Arnaud Castel, Mahdi Babaee
Industrial waste materials such as fly ash and blast furnace slag are commonly used as the source of aluminosilicate for the manufacture of GPC due to the low cost and wide availability of these materials.
Journal of Materials in Civil Engineering, 22(5):525-532
Conf. on Sustainable Construction Materials and Technologies, pp.1493-1504
Corrosion Science, 52(9):2878-2890
Construction and Building Materials, 10(5): 315–328
Journal of Materials in Civil Engineering, 22(5):525-532
Conf. on Sustainable Construction Materials and Technologies, pp.1493-1504
Corrosion Science, 52(9):2878-2890
Construction and Building Materials, 10(5): 315–328
Online since: May 2021
Authors: Jong Yeon Lim, Tae Wan Kim, Yi Han, Xiao Yong Wang
International Journal of Concrete Structures and Materials 12 (2018) 1-13
[2] Yeh IC.
Construction and Building Materials 38 (2013) 717-722 [5] Chithra S, Kumar S, Chinnaraju K, Ashmita FA.
Construction and Building Materials 114 (2016) 528-535 [6] Khademi F, Akbari M, Jamal SM, Nikoo M.
Construction and Building Materials 22 (2008) 1428–1435 [10] Golafshani EM, Ashour A.
ACI Materials Journal 116(2019) 141-151 [14] Wang XY.
Construction and Building Materials 38 (2013) 717-722 [5] Chithra S, Kumar S, Chinnaraju K, Ashmita FA.
Construction and Building Materials 114 (2016) 528-535 [6] Khademi F, Akbari M, Jamal SM, Nikoo M.
Construction and Building Materials 22 (2008) 1428–1435 [10] Golafshani EM, Ashour A.
ACI Materials Journal 116(2019) 141-151 [14] Wang XY.
Online since: June 2022
Authors: Yu Chi Shih, Meng Ting Wu, Cheng Hsien Wu
In 2018, Li et al. [4] used plastic injection molding to make metal composite materials.
Experimental Materials and Equipment.
Samin: Journal of Materials Processing Technology, Vol. 182(1-3) (2007), p. 418-426
[2] Erfan Oliaei, Behzad Shiroud Heidari, Seyed Mohammad Davachi, Mozhgan Bahrami, Saeed Davoodi, Iman Hejazi, Javad Seyfi: Journal of Materials Science & Technology, Vol. 32(8) (2016), p. 710-720
[4] Xiping Li, Ningning Gong, Can Yang, Shuiping Zeng, Shihong Fu, Ke Zhang: Journal of Materials Processing Technology,Vol. 255 (2018), p. 635-643
Experimental Materials and Equipment.
Samin: Journal of Materials Processing Technology, Vol. 182(1-3) (2007), p. 418-426
[2] Erfan Oliaei, Behzad Shiroud Heidari, Seyed Mohammad Davachi, Mozhgan Bahrami, Saeed Davoodi, Iman Hejazi, Javad Seyfi: Journal of Materials Science & Technology, Vol. 32(8) (2016), p. 710-720
[4] Xiping Li, Ningning Gong, Can Yang, Shuiping Zeng, Shihong Fu, Ke Zhang: Journal of Materials Processing Technology,Vol. 255 (2018), p. 635-643
Online since: December 2024
Authors: Supree Pinitsoontorn, Panakamon Thonglor
KMUTNB-64-KNOW-47, as well as from the Medical Instrumentation, Faculty of Applied Science, King Mongkut’s University of Technology North Bangkok and Materials Science and Nanotechnology Program, Department of Physics, Faculty of Science, Khon Kaen University.
Furlani, Magnetic Biotransport: Analysis and Applications, Materials 3(4) (2010) 2412-2446
Elbadawi: submitted to Journal of Elec.
Materials 320 (2008) 2311– 2315
Rieke, Magnetic Properties of Nanostructured Materials, Chem.
Furlani, Magnetic Biotransport: Analysis and Applications, Materials 3(4) (2010) 2412-2446
Elbadawi: submitted to Journal of Elec.
Materials 320 (2008) 2311– 2315
Rieke, Magnetic Properties of Nanostructured Materials, Chem.
Online since: July 2015
Authors: Laurent van Belle, Alban Agazzi
Support material is made of steel: 40CMD8+S.
Kruth, Residual stresses in selective laser sintering and selective laser melting, Rapide Prototyping Journal Vol. 12, issue 5 (2006) 254-265
He and al, Numerical and experimental investigation of multilayer SS410 thin wall built by laser direct metal deposition, Journal of Materials Prcessing Technology 212 (2012) 106-112
Golosnoy and al, Residual stress Generation during Laser Cladding of Steel with a Particulate Metal Matrix Composite, Advanced Engineering Materials Vol 8, Issue 7 (2006) 619-624
Mehnen and al, Thermo-mechanical analysis of Wire and Arc Additive Layer Manufacturing process on large multi-layers parts, Computational Materials Science Vol 50, Issue 12 (2011) 3315-3322.
Kruth, Residual stresses in selective laser sintering and selective laser melting, Rapide Prototyping Journal Vol. 12, issue 5 (2006) 254-265
He and al, Numerical and experimental investigation of multilayer SS410 thin wall built by laser direct metal deposition, Journal of Materials Prcessing Technology 212 (2012) 106-112
Golosnoy and al, Residual stress Generation during Laser Cladding of Steel with a Particulate Metal Matrix Composite, Advanced Engineering Materials Vol 8, Issue 7 (2006) 619-624
Mehnen and al, Thermo-mechanical analysis of Wire and Arc Additive Layer Manufacturing process on large multi-layers parts, Computational Materials Science Vol 50, Issue 12 (2011) 3315-3322.
Online since: February 2014
Authors: Rozana Mohd Dahan, Adillah Nurashikin Arshad, Muhamad Naiman Sarip, Seong Ling Yap, Mohamad Hafiz Mohd Wahid, Dzaraini Kamarun
Rozana, et al., "Effect of PTFE and OTS on the Ferroelectric Properties of PVDF-TrFE Thin Films " World Applied Sciences Journal, vol. 16, pp. 1196-1202, 2012
Dorai, M.J, "plasma surface modification of polymers using athmospheric pressure," Plasma Science, p. 329, 2002
[7] Rozana Mohd Dahan, et al., "Surface Modification of Polyvinylidenefluoride-Trifluoroethylene Film Using Argon Gas Plasma," Advanced Materials Research, vol. 626, pp. 317-323 2013 [8] S.
Arshad, "Dielectric Properties of Collagen on Plasma Modified Polyvinylidene Fluoride," American Journal of Applied Sciences, vol. 9, pp. 694-699, 2012
Kull, et al., "Surface modification with nitrogen-containing plasmas to produce hydrophilic, low-fouling membranes," Journal of Membrane Science, vol. 246, pp. 203-215, 2005
Dorai, M.J, "plasma surface modification of polymers using athmospheric pressure," Plasma Science, p. 329, 2002
[7] Rozana Mohd Dahan, et al., "Surface Modification of Polyvinylidenefluoride-Trifluoroethylene Film Using Argon Gas Plasma," Advanced Materials Research, vol. 626, pp. 317-323 2013 [8] S.
Arshad, "Dielectric Properties of Collagen on Plasma Modified Polyvinylidene Fluoride," American Journal of Applied Sciences, vol. 9, pp. 694-699, 2012
Kull, et al., "Surface modification with nitrogen-containing plasmas to produce hydrophilic, low-fouling membranes," Journal of Membrane Science, vol. 246, pp. 203-215, 2005