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Online since: December 2012
Authors: Yu Rong Qin, Ni Chen, Hao Lin, Dong Li Huang, Zhi Yong Zhang
However it is quite difficult to detect with nondestrctive method and control accurately the temperature inside the purifying material exposed to microwaves.
Computer Purified Materials Confocal Laser Scanning Microscope Temperature Sensor A Control System of Microwave Power Microwave Irradiation Figure1.
Acknowledgments This work was supported by d by National Natural Science Foundation of China(61161009) , and Natural Science Foundation of Guangxi,China(10124001A-41 and 0832060).
Vol.23 (1999), p.1279 [2] Shikai Wu, chen Lin, Shantai Song : Chinese Journal of Oncology.
Vol.27(2005) , p.65 [3] Huajin Zhen, Yi Su, Liangping Yuan : Chinese Journal of Hematology.Vol.19(1998), p.309 [4] Huajin Zhen, Yi Su, Liang, Yuehua Zhao : Chinese Journal of Hematology.Vol.14 (1993), p.72 [5] Zhuying Wang, Zhijian Jian, Xiaolin Chen: Application of electronic technology.Vol. 18(2001), p.140
Computer Purified Materials Confocal Laser Scanning Microscope Temperature Sensor A Control System of Microwave Power Microwave Irradiation Figure1.
Acknowledgments This work was supported by d by National Natural Science Foundation of China(61161009) , and Natural Science Foundation of Guangxi,China(10124001A-41 and 0832060).
Vol.23 (1999), p.1279 [2] Shikai Wu, chen Lin, Shantai Song : Chinese Journal of Oncology.
Vol.27(2005) , p.65 [3] Huajin Zhen, Yi Su, Liangping Yuan : Chinese Journal of Hematology.Vol.19(1998), p.309 [4] Huajin Zhen, Yi Su, Liang, Yuehua Zhao : Chinese Journal of Hematology.Vol.14 (1993), p.72 [5] Zhuying Wang, Zhijian Jian, Xiaolin Chen: Application of electronic technology.Vol. 18(2001), p.140
Online since: May 2014
Authors: Yuan Tong Gu, Hai Fei Zhan, Ye Wei
Fisher, Graphene-based hybrid materials and devices for biosensing.
Terrones, Towards new graphene materials: Doped graphene sheets and nanoribbons.
Materials Letters, 2012
Modelling and Simulation in Materials Science and Engineering, 2011. 19(5): p. 054006
Chemistry of Materials, 2011. 23(5): p. 1188-1193
Terrones, Towards new graphene materials: Doped graphene sheets and nanoribbons.
Materials Letters, 2012
Modelling and Simulation in Materials Science and Engineering, 2011. 19(5): p. 054006
Chemistry of Materials, 2011. 23(5): p. 1188-1193
Online since: October 2010
Authors: Luca Lutterotti, Daniel Chateigner, Philippe Blanchart, Sarah Deniel, Hans Rudolf Wenk
Materials Engineering, University of Trento, via Mesiano 77, 38123 Trento, Italy
4Dept.
However, whatever the orientation procedure, quantifying the texture quantitatively is often a problem in such ceramic materials, mainly due to the presence of amorphous phases.
Experimental Materials.
Raw disks were then dried between 2 flat and porous materials to sinter them using a 5°C/min heating rate and a maximum temperature of 1410°C maintained during 2h.
The centrifugation process can then exhibit reasonably good capabilities to orient mullite needles in materials from clay mineral suspensions, at least at levels comparable to the ones induced using moderate uniaxial pressures.
However, whatever the orientation procedure, quantifying the texture quantitatively is often a problem in such ceramic materials, mainly due to the presence of amorphous phases.
Experimental Materials.
Raw disks were then dried between 2 flat and porous materials to sinter them using a 5°C/min heating rate and a maximum temperature of 1410°C maintained during 2h.
The centrifugation process can then exhibit reasonably good capabilities to orient mullite needles in materials from clay mineral suspensions, at least at levels comparable to the ones induced using moderate uniaxial pressures.
Online since: January 2021
Authors: Jaksada Thumrongvut, Apichat Tipcharoen, Kamonwan Prathumwong
Materials Science Forum, 941(2018) 2417-2422
Materials Science Forum, 860 (2016) 121-124
Construction and Building Materials, 95 (2015) 74-85
Construction and Building Materials, 15 (2001) 9-15
Journal of Materials in Civil Engineering, 8(4) (1996) 189-194
Materials Science Forum, 860 (2016) 121-124
Construction and Building Materials, 95 (2015) 74-85
Construction and Building Materials, 15 (2001) 9-15
Journal of Materials in Civil Engineering, 8(4) (1996) 189-194
Online since: March 2020
Authors: Bambang Suharno, Dharmanto Dharmanto, Sugeng Supriadi, Ario Sunar Baskoro, Muhammad Haekal Sena Akbar, Tsaome Indah Susimah
Suharno, "Debinding Rate Enhancement of 17-4 Precipitation Hardening Stainless Steel Solvent Debinding on Metal Injection Molding Process as the Material for Orthodontic Bracket," in Materials Science Forum, 2018, pp. 200-208
Suharno, "Transformation of orthodontics bracket geometry in metal injection molding process," in IOP Conference Series: Materials Science and Engineering, 2018, p. 012002
Baek, "Development of Superhydrophobic Material SS 17-4 PH for Bracket Orthodontic Application by Metal Injection Molding," in IOP Conference Series: Materials Science and Engineering, 2018, p. 012096
Várez, "Powder injection moulding of premixed ferritic and austenitic stainless steel powders," Materials Science and Engineering: A, vol. 528, pp. 3480-3488, 2011
Dangwal, "Effects of process parameters on surface morphology of metal powders produced by free fall gas atomization," Journal of materials science, vol. 41, pp. 3853-3860, 2006.
Suharno, "Transformation of orthodontics bracket geometry in metal injection molding process," in IOP Conference Series: Materials Science and Engineering, 2018, p. 012002
Baek, "Development of Superhydrophobic Material SS 17-4 PH for Bracket Orthodontic Application by Metal Injection Molding," in IOP Conference Series: Materials Science and Engineering, 2018, p. 012096
Várez, "Powder injection moulding of premixed ferritic and austenitic stainless steel powders," Materials Science and Engineering: A, vol. 528, pp. 3480-3488, 2011
Dangwal, "Effects of process parameters on surface morphology of metal powders produced by free fall gas atomization," Journal of materials science, vol. 41, pp. 3853-3860, 2006.
Online since: October 2010
Authors: Andanastuti Muchtar, Norhamidi Muhamad, Hamimah Abdul Rahman, Huda Abdullah
Materials and methods
Materials.
Gauckler: Journal of Electroceramics Vol. 16 (2006), p. 221
Zhang, Solid Oxide Fuel Cells Materials Properties and Performance. 2009, New York: CRC Press
Liu: Progress in Materials Science Vol. 52 (2007), p. 1
Tassel, Electrophoretic Deposition, in Encylopedia of Materials: Science and Technology. 2001, Elsevier Science Ltd: UK. p. 2733
Gauckler: Journal of Electroceramics Vol. 16 (2006), p. 221
Zhang, Solid Oxide Fuel Cells Materials Properties and Performance. 2009, New York: CRC Press
Liu: Progress in Materials Science Vol. 52 (2007), p. 1
Tassel, Electrophoretic Deposition, in Encylopedia of Materials: Science and Technology. 2001, Elsevier Science Ltd: UK. p. 2733
Online since: November 2012
Authors: Jun Cheng Bao, Bao Qun Ning, Xin Li, Jian Ping Li, Jie Zhao
Microstructure transformation of Nb-V microalloyed steel
during continuous cooling process
Li Xin1, a, Zhao Jie1, b,*, Bao Jun-cheng1, Ning Bao-qun1, Li Jian-ping2
1School of Materials Science and Engineering, Tianjin University of Technology, Tianjin 300384, China
2The State Key Lab of Rolling Technology and Automation, Northeastern University, Shenyang 110189, China
alixin1988@yahoo.cn, b,*vzhaoj@tjut.edu.cn
* Corresponding author.
Experimental material and method Material for experiment was novel high strength manganese steel with Nb and V microalloyed.
Acknowledgments This research was supported by Foundation of the State Key Laboratory of Rolling and Automation, Northeastern University (Grant No.2009011), National Natural Science Foundation of China (Grant No.51104107), the Natural Science Foundation of Tianjin (Grant No.12JCYBJC11800), and Key Technology Support Program of Tianjin China (Grant No.11ZCKFGX03900).
References [1] Z Y Zeng, L Q Chen, F X Zhu: Journal of Materials Science & Technology Vol. 27 (2011), p. 913 [2] Z B Zhang, Q Y Liu, X B Zhang: Journal of Iron and Steel Research Vol. 20 (2008), p. 36 [3] S H Zheng, Q S Wu, QY Huang: Fusion Engineering and Design Vol. 86 (2011), p. 2616 [4] G A Chen, W Y Yang, S Z Guo: Journal of University of Science and Technology Beijing Vol. 27 (2005), p. 302 [5] S Anijdan, S Yue: Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science Vol. 43A (2012), p. 1140 [6] Q D Liu, W Q Liu, S J Zhao: Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science Vol. 42A (2011), p. 3952 [7] H J Cheng, F M Wang, Z B Pan: Transactions of Materials and Heat Treatment Vol.30 (2009), p. 44 [8] X Z Luo, Z Y Chen, G Xu: Research on Iron & Steel Vol. 37 (2009), p. 18 [9] B Niznik, M Pietrzyk: Archives of Metallurgy and Materials Vol. 56 (2011), p. 731
Experimental material and method Material for experiment was novel high strength manganese steel with Nb and V microalloyed.
Acknowledgments This research was supported by Foundation of the State Key Laboratory of Rolling and Automation, Northeastern University (Grant No.2009011), National Natural Science Foundation of China (Grant No.51104107), the Natural Science Foundation of Tianjin (Grant No.12JCYBJC11800), and Key Technology Support Program of Tianjin China (Grant No.11ZCKFGX03900).
References [1] Z Y Zeng, L Q Chen, F X Zhu: Journal of Materials Science & Technology Vol. 27 (2011), p. 913 [2] Z B Zhang, Q Y Liu, X B Zhang: Journal of Iron and Steel Research Vol. 20 (2008), p. 36 [3] S H Zheng, Q S Wu, QY Huang: Fusion Engineering and Design Vol. 86 (2011), p. 2616 [4] G A Chen, W Y Yang, S Z Guo: Journal of University of Science and Technology Beijing Vol. 27 (2005), p. 302 [5] S Anijdan, S Yue: Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science Vol. 43A (2012), p. 1140 [6] Q D Liu, W Q Liu, S J Zhao: Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science Vol. 42A (2011), p. 3952 [7] H J Cheng, F M Wang, Z B Pan: Transactions of Materials and Heat Treatment Vol.30 (2009), p. 44 [8] X Z Luo, Z Y Chen, G Xu: Research on Iron & Steel Vol. 37 (2009), p. 18 [9] B Niznik, M Pietrzyk: Archives of Metallurgy and Materials Vol. 56 (2011), p. 731
Online since: July 2021
Authors: Glykeria Kakali, Olga Andriana Panitsa, Dimitrios Kioupis
Geopolymers, often considered to be a subgroup of alkali activated materials, are the most promising cement-free green building materials.
Illikainen, One-part alkali-activated materials: A review, Cem.
Cement-Based Materials, Vol. 4, 2, (2015) [9] A.
Science and Eng., (2018) [14] Z.
Provis: Quantitative study of the reactivity of fly ash in geopolymerization by FTIR, Journal of Sustainable Cement-Based Materials, Vol. 1, 4 (2012) [15] A.
Illikainen, One-part alkali-activated materials: A review, Cem.
Cement-Based Materials, Vol. 4, 2, (2015) [9] A.
Science and Eng., (2018) [14] Z.
Provis: Quantitative study of the reactivity of fly ash in geopolymerization by FTIR, Journal of Sustainable Cement-Based Materials, Vol. 1, 4 (2012) [15] A.
Online since: January 2022
Authors: I Wayan Surata, Tjokorda Gde Tirta Nindhia, Elammaran Jayamani, Ida Bagus Putu Purwadnyana, Mohd Yazid Yahya, I Wayan Bandem Adnyana
Series: Materials Science and Engineering, 539, 012011 (2019) 1-6
Series: Materials Science and Engineering 201,0120329 (2017) 1-5 [7] I M.
Series: Materials Science and Engineering 539, 012010 (2019) 1-6
Trisna, Properties of hybrid composites using coral reefs waste and coconut fiber Materials Science and Engineering, 508, 012059 (2019), 1-5
Fibers reinforced green composite materials : a review, Materials Science and Engineering,vol. 201, 1, (2017) 1-7
Series: Materials Science and Engineering 201,0120329 (2017) 1-5 [7] I M.
Series: Materials Science and Engineering 539, 012010 (2019) 1-6
Trisna, Properties of hybrid composites using coral reefs waste and coconut fiber Materials Science and Engineering, 508, 012059 (2019), 1-5
Fibers reinforced green composite materials : a review, Materials Science and Engineering,vol. 201, 1, (2017) 1-7
Online since: May 2010
Authors: Yan Fu Yan, Ke Xing Song, Guo Xin Wang, Kuai Le Zhao
Solder Materials.
Materials Science and Engineering. 2000, A285:25-29
Journal of Materials Science: Materials in Electronics, 2000,11:497-501
Journal of Materials Science, 2001, 12: 27-35 [15] S.Choi, J.Lee, F.Guo, T.R.Bieler, K.N.Subamanian,and J.P.Lucas.
Electronic Materials(in review)
Materials Science and Engineering. 2000, A285:25-29
Journal of Materials Science: Materials in Electronics, 2000,11:497-501
Journal of Materials Science, 2001, 12: 27-35 [15] S.Choi, J.Lee, F.Guo, T.R.Bieler, K.N.Subamanian,and J.P.Lucas.
Electronic Materials(in review)