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Online since: January 2015
Authors: Kai Xu, Hui Qing Peng, Rui Xin Zhang, Hao Xiao, Qian Shi, De Ge Ji Rifu
Jiangxi University of Science and Technology, Ganzhou 341000, China
2.
Materials and Methods 2.1.
Hydrological Sciences Journal-Journal Des Sciences Hydrologiques, 2008, 53(5): 977-988
Journal of Hydrology, 2005, 312(1-4): 207-222
Journal of Hydrology, 1970, 10(3): 282-290
Materials and Methods 2.1.
Hydrological Sciences Journal-Journal Des Sciences Hydrologiques, 2008, 53(5): 977-988
Journal of Hydrology, 2005, 312(1-4): 207-222
Journal of Hydrology, 1970, 10(3): 282-290
Online since: March 2020
Authors: Yi Liu, Yue Ting Yang, Jing Zeng, Ling Chen
Song: Analysis of hydration heat induced temperature rise in massive concrete walls, Journal of Hohai University (Natural Sciences), vol. 30, no. 4(2002), p. 22-27
[8] M.
Li: Hydration monitoring of cement-based materials with resistivity and ultrasonic methods, Materials and Structures, vol. 42, no. 1(2009), p. 15-24 [12] F.
Asan: Numerical computation of time lags and decrement factors for different building materials, Building and Environment, vol. 41, no. 5(2006), p. 615-620 [15] C.
Mendoza-Zélis: Theoretical treatment of a self-sustained, ball milling induced, mechanochemical reaction in the Fe2O3-Al system, Materials Science and Engineering A, vol. 355, no. 1-2(2003), p. 106 -113 [16] G.
Shi, et al: Adiabatic temperature rise of concrete based on equivalent time, Journal of Hohai University (Natural Sciences), vol. 32, no. 5(2004), p. 573-577 [18] A.
Li: Hydration monitoring of cement-based materials with resistivity and ultrasonic methods, Materials and Structures, vol. 42, no. 1(2009), p. 15-24 [12] F.
Asan: Numerical computation of time lags and decrement factors for different building materials, Building and Environment, vol. 41, no. 5(2006), p. 615-620 [15] C.
Mendoza-Zélis: Theoretical treatment of a self-sustained, ball milling induced, mechanochemical reaction in the Fe2O3-Al system, Materials Science and Engineering A, vol. 355, no. 1-2(2003), p. 106 -113 [16] G.
Shi, et al: Adiabatic temperature rise of concrete based on equivalent time, Journal of Hohai University (Natural Sciences), vol. 32, no. 5(2004), p. 573-577 [18] A.
Online since: May 2011
Authors: Hui Qing Li, Rui Xiang Zhang, Hai Wang Liu, Shi Zhi Wang, Xian Ku Hao
Effects of Calcination Temperature on Crystal Structure of Pr-Nd Oxides
Huiqing Li1, a, Ruixiang Zhang2, a, Haiwang Liu2, b, Shizhi Wang2, c,
and Xianku Hao2,d
1School of Materials and metallurgy, Inner Mongolia University of Science and Technology, Inner Mongolia, Baotou, 014010, China
2Baotou Jingrui New Material Company Limited, Inner Mongolia, Baotou, 014015,China
1,alihuiqin42@163.com, 2, a btzrx @163.com, 2, b liuhw@brire.com, 2, c nmgbtwsz@sohu.com,
2, d hxku@163.com
Key words: Pr-Nd binary oxide; calcination temperature; structure
Abstract: Ammonium hydrogen carbonate is taken as the precipitating agent to prepare Pr-Nd carbonates from the raw material of Pr-Nd chloride solution.
Experiment Materials.
Journal of Applied Physics, 1998, 83(5): 2715-2718
The Chinese Journal of Nonferrous Metals, 2005, 15(2): 321-327
Materials Letters, 2004, 58(15): 2076-2081
Experiment Materials.
Journal of Applied Physics, 1998, 83(5): 2715-2718
The Chinese Journal of Nonferrous Metals, 2005, 15(2): 321-327
Materials Letters, 2004, 58(15): 2076-2081
Online since: March 2014
Authors: Liang Hou, Rong Shen Lai, Yong Ming Wu, Wen Guang Lin
To analyze the relationship between product structure and performance of material requirements planning system, Collier [6] proposes the Degree of Commonality Index (DCI) based on product bill of materials, which is the most traditional index in regard to part standardization.
Collier: Decision Sciences Vol. 12 (1981), p. 85-96
Miller: Journal of Mechanical Design Vol. 122 (2000), p. 403-410
Simpson: Journal of Engineering Design Vol. 17 (2006), p. 99-119
Simpson: Journal of Engineering Design Vol. 18 (2007), p. 577-598
Collier: Decision Sciences Vol. 12 (1981), p. 85-96
Miller: Journal of Mechanical Design Vol. 122 (2000), p. 403-410
Simpson: Journal of Engineering Design Vol. 17 (2006), p. 99-119
Simpson: Journal of Engineering Design Vol. 18 (2007), p. 577-598
Online since: September 2011
Authors: Qing Ming Zhang, Yuan Bao Leng, Shuai Xu
This work was supported by a grant from Science research institute development project, The Ministry of Science and technology of PR.
References [1] Batayneh AT: Journal of Applied Geophysics. 2001(1)
N: The Science of the Total Environment. 2008(2)
Schreiber: Journal of Hydrology. 2008(4)
Kumar: Journal of the Geological Society of India. 2009(5).
References [1] Batayneh AT: Journal of Applied Geophysics. 2001(1)
N: The Science of the Total Environment. 2008(2)
Schreiber: Journal of Hydrology. 2008(4)
Kumar: Journal of the Geological Society of India. 2009(5).
Online since: August 2011
Authors: Jian Xin Zhou, Sheng Yong Pang, Ya Jun Yin, Dun Ming Liao, Wei Xu
Numerical Simulation of Macrosegregation Formation in binary alloy Solidification Processing based on Modified Projection Method
Wei Xu1, a, Jianxin Zhou1, b, Shengyong Pang1, Dunming Liao1, Yajun Yin1
1 State Key Laboratory of Materials Processing and Die & Mould Technology, Huazhong University of Science and Technology, Wuhan, Hubei, 430074, China
axuwei52522@163.com, bzhoujianxin1975@163.com
Keywords: Macrosegregation, Numerical Simulation, Solidification, Modified Projection Method
Abstract.
Therefore, an accurate and quick prediction of macrosegregation during the materials processing becomes the focus of the study, so as to improve the casting process.
Beckermann: Metallurgical and Materials Transactions, Vol. 27A (1996), pp. 2754-2764 [8] W.
Incropera: International Journal of Heat and Mass Transfer, Vol. 34(1991), pp. 1717-1732 [10] Z.
Beckermann: Metallurgical and Materials Transactions, Vol. 26A (1995), pp. 2373-2388
Therefore, an accurate and quick prediction of macrosegregation during the materials processing becomes the focus of the study, so as to improve the casting process.
Beckermann: Metallurgical and Materials Transactions, Vol. 27A (1996), pp. 2754-2764 [8] W.
Incropera: International Journal of Heat and Mass Transfer, Vol. 34(1991), pp. 1717-1732 [10] Z.
Beckermann: Metallurgical and Materials Transactions, Vol. 26A (1995), pp. 2373-2388
Online since: February 2014
Authors: You Ling Fang, Ke Min Wei, Zhi Hao Zheng, Jia Quan Hu
Journal of Liaoning Technical University (Natural Science Edition), 2009, 28(04):581-584
Journal of Liaoning Technical University (Natural Science Edition), 2011, 30(05):681-684
Journal of Hefei University of Technology (Natural Science), 2004, 27 (09):1043-1046
Maximum circumferential stress criterion of brittle fracture at the interface edge of bonded materials[J].
Journal of Hefei University of Technology (Natural Science), 2007, 30(02):200-202.
Journal of Liaoning Technical University (Natural Science Edition), 2011, 30(05):681-684
Journal of Hefei University of Technology (Natural Science), 2004, 27 (09):1043-1046
Maximum circumferential stress criterion of brittle fracture at the interface edge of bonded materials[J].
Journal of Hefei University of Technology (Natural Science), 2007, 30(02):200-202.
Online since: January 2012
Authors: Chun Hui Yang, Yang An, Peter D. Hodgson, Cui E Wen
International Journal of Mechanical Sciences, 2008. 50(6): p. 1042-1057.
2.
Materials & Design, 2009. 30(7): p. 2393-2403. 4.
International Journal of Impact Engineering, 2000. 24(5): p. 509-534. 5.
International Journal of Impact Engineering, 2007. 34(3): p. 573-586. 6.
International Journal of Mechanical Sciences, 2006. 48(2): p. 210-223. 8.
Materials & Design, 2009. 30(7): p. 2393-2403. 4.
International Journal of Impact Engineering, 2000. 24(5): p. 509-534. 5.
International Journal of Impact Engineering, 2007. 34(3): p. 573-586. 6.
International Journal of Mechanical Sciences, 2006. 48(2): p. 210-223. 8.
Online since: May 2019
Authors: Ziad Hassan, Ahmad Khartabil, Samer Al Martini
Commercially local available materials in the UAE were used.
Al-Khatib, An Experimental Study on Self Consolidating Concrete (SCC) under Hot Weather and Hauling Time, Key Engineering Materials Journal, http://dx.doi.org/10.4028/www.scientific.net/kem.677.3, (2016)
[4] Al-Martini S., and Al-Khatib, M., (2017) “Rheology of Self Consolidating Concrete (SCC) under Extreme Conditions,” ICE Construction Materials Journal, in press, (SCOPUS), https://doi.org/10.1680/jcoma.17.00017
International Journal of Engineering Science and Technology, 5959-5965 (2010)
International Journal of Science and Research, 2319-7064 (2013)
Al-Khatib, An Experimental Study on Self Consolidating Concrete (SCC) under Hot Weather and Hauling Time, Key Engineering Materials Journal, http://dx.doi.org/10.4028/www.scientific.net/kem.677.3, (2016)
[4] Al-Martini S., and Al-Khatib, M., (2017) “Rheology of Self Consolidating Concrete (SCC) under Extreme Conditions,” ICE Construction Materials Journal, in press, (SCOPUS), https://doi.org/10.1680/jcoma.17.00017
International Journal of Engineering Science and Technology, 5959-5965 (2010)
International Journal of Science and Research, 2319-7064 (2013)
Online since: October 2020
Authors: R.N. Faria, F.G. Benitez Jara, P. D. V. Cruz, J.C.S. Casini, A.J. Peruzzi, Lusinete Pereira Barbosa, S. K. Sakata
The HDDR reduced graphene oxide was processed using a standard temperature (850°C) for other applications in materials[2, 3].
Faria: Material Science Forum Vol. 899 (2016), p 347
Harris: Journal of Alloys and Compounds Vol. 296 (2000), p. 219
Harris: Journal of Alloys and Compounds Vol. 287 (1999), p.
Pan: Advanced Energy Materials (2014), p. 1401401
Faria: Material Science Forum Vol. 899 (2016), p 347
Harris: Journal of Alloys and Compounds Vol. 296 (2000), p. 219
Harris: Journal of Alloys and Compounds Vol. 287 (1999), p.
Pan: Advanced Energy Materials (2014), p. 1401401