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Online since: March 2023
Authors: A.R. Maskova, G.U. Yarmuhametova, R.G. Rakhmatullina
Borodulin, Conductor, semiconductor materials: Lecture notes for the course "Electrical Materials Science", Moscow: MEI Publishing House, 1994, p. 63
Bogorodsky, Electrical materials, L .: Energoatomizdat, 1985, p. 304
Pasynkov, Electronic engineering materials, Moscow: Higher school, 1986, p. 367
Filikova, Construction and electrical materials, Moscow: Higher school, 1990, p. 296
Oblozhkina, Materials science and technology of structural materials: A course of lectures, Alt. state tech. un-t, BTI, Biysk.: Publishing house Alt. state tech.
Bogorodsky, Electrical materials, L .: Energoatomizdat, 1985, p. 304
Pasynkov, Electronic engineering materials, Moscow: Higher school, 1986, p. 367
Filikova, Construction and electrical materials, Moscow: Higher school, 1990, p. 296
Oblozhkina, Materials science and technology of structural materials: A course of lectures, Alt. state tech. un-t, BTI, Biysk.: Publishing house Alt. state tech.
Online since: June 2017
Authors: Lei Zhang, Yun Peng Qu, Yu Lin Wu, Yao Liu, Yi Su, Yong Wang
Introduction
KDP crystal is a widely concerned non-linear optical material with large electro-optical and nonlinear optical coefficients [1-4].
In order to avoid the influence of magnetic field on the measuring devices, we changed the metal hanging wire and graphite container into ceramic materials.
Carman, Rapid growth of KDP-type crystals, Progress in crystal growth and characterization of materials. 43 (2001) 1-118
Rozsa, Design and benefits of continuous filtration in rapid growth of large KDP and DKDP crystals, Journal of crystal growth. 197 (1999) 911-920
McMurtry, Hydrodynamic scalings in the rapid growth of crystals from solution, Journal of crystal growth. 178 (1997) 545-558
In order to avoid the influence of magnetic field on the measuring devices, we changed the metal hanging wire and graphite container into ceramic materials.
Carman, Rapid growth of KDP-type crystals, Progress in crystal growth and characterization of materials. 43 (2001) 1-118
Rozsa, Design and benefits of continuous filtration in rapid growth of large KDP and DKDP crystals, Journal of crystal growth. 197 (1999) 911-920
McMurtry, Hydrodynamic scalings in the rapid growth of crystals from solution, Journal of crystal growth. 178 (1997) 545-558
Online since: March 2014
Authors: Xiu Juan Li, Si Qing Liu, Ting Ting Li, Yang Zhao
Tin recovery from a cassiterite-bearing magnetite refractory ore
Xiujuan Li
,a, Siqing Liu1, b, Yang Zhao 1,c, Tingting LI1,d
1 Faculty of Land Resource Engineering, Kunming University of Science and Technology, Kunming 650093, China
a497522449@qq.com, b647647@qq.com, zhaoyang5411@126.com c, d916583174@qq.com
Keywords: Magnetite-bearing cassiterite ores; Magnetic separation; Gravity separation
Abstracts.
Material and methods Ore sample preparation.
Sample preparation work for the beneficiation tests was conducted according to the following procedure: firstly, 1-ton run-of-mine material was mixed completely, and then it was sampled into a 500-kg keepsample and a 500-kg testing material.
The 500kg material was ground to -2mm for laboratory tests, mineralogical study and other purposes.
S2 0.82 25.70 45.21 Middlings S2 4.25 1.65 15.05 Tailings S2 20.14 0.40 17.28 Tailings S1 74.79 0.14 22.46 U/F 100.00 0.466 100.00 Cyclone Overflow Tin Conc.Y2 0.43 45.60 47.81 Middlings Y2 1.44 3.15 11.06 Tailings Y2 10.22 0.36 8.97 Tailings Y1 87.91 0.15 32.16 O/F 100.00 0.41 100.00 LIMS Tailings Tin Conc. 0.64 31.76 46.18 Middlings 2.97 1.98 13.36 Tailings 2 15.63 0.39 13.85 Tailings 1 80.76 0.15 26.61 LIMS Tailings 100.00 0.44 100.00 Reference [1] Liu Meihua, Liu Siqing, et al: submitted to submitted to Journal of Conservation and Utilization of Mineral Resources (2009) (In Chinese) [2] Li Guangtao, Zhang Zonghua, Wang Yajing:submitted to Journal of Metal Mine (2007) (In Chinese) [3] Niu Fusheng: submitted to Journal of China Mining (2009) (In Chinese) [4] Liu Siqing, Zhang Min, et al: submitted to Conference Journal of Advanced Materials Research (2012)
Material and methods Ore sample preparation.
Sample preparation work for the beneficiation tests was conducted according to the following procedure: firstly, 1-ton run-of-mine material was mixed completely, and then it was sampled into a 500-kg keepsample and a 500-kg testing material.
The 500kg material was ground to -2mm for laboratory tests, mineralogical study and other purposes.
S2 0.82 25.70 45.21 Middlings S2 4.25 1.65 15.05 Tailings S2 20.14 0.40 17.28 Tailings S1 74.79 0.14 22.46 U/F 100.00 0.466 100.00 Cyclone Overflow Tin Conc.Y2 0.43 45.60 47.81 Middlings Y2 1.44 3.15 11.06 Tailings Y2 10.22 0.36 8.97 Tailings Y1 87.91 0.15 32.16 O/F 100.00 0.41 100.00 LIMS Tailings Tin Conc. 0.64 31.76 46.18 Middlings 2.97 1.98 13.36 Tailings 2 15.63 0.39 13.85 Tailings 1 80.76 0.15 26.61 LIMS Tailings 100.00 0.44 100.00 Reference [1] Liu Meihua, Liu Siqing, et al: submitted to submitted to Journal of Conservation and Utilization of Mineral Resources (2009) (In Chinese) [2] Li Guangtao, Zhang Zonghua, Wang Yajing:submitted to Journal of Metal Mine (2007) (In Chinese) [3] Niu Fusheng: submitted to Journal of China Mining (2009) (In Chinese) [4] Liu Siqing, Zhang Min, et al: submitted to Conference Journal of Advanced Materials Research (2012)
Online since: May 2026
Authors: Jerome Lopena, Jaychris Georgette Onia, Romano Neyra, Amerfaisal Adiong, Michael Jayce Beltran, Ivan Leslee Palatan
Mohan: Materials Advances Vol. 6 (2024), pp. 527-546
Saavedra Flores: Materials Vol. 15 (2022), 9044
Maciejewska: Materials Vol. 16 (2023), 2988
Aigbodion: Journal of Renewable Materials Vol. 10 (2022), pp. 2217-2246
Rameshkumar: Journal of Optoelectronics and Biomedical Materials Vol. 10 (2018), pp. 21-28.
Saavedra Flores: Materials Vol. 15 (2022), 9044
Maciejewska: Materials Vol. 16 (2023), 2988
Aigbodion: Journal of Renewable Materials Vol. 10 (2022), pp. 2217-2246
Rameshkumar: Journal of Optoelectronics and Biomedical Materials Vol. 10 (2018), pp. 21-28.
Online since: June 2015
Authors: Bing Zhang, Shu Yuan Li, Jia Jing Jiang
Brogaard, LK[8] makes LCA and comparison for CO2-equivalent emissions of different materials based on material recycling databases.
Material Input Flow mainly includes two parts: Materials output from previous operation step, and new additive materials added.Material produced by current operation step can be regarded as Material Output Flow.
Material Output Flow also includes two parts: Materials that can be used for next operation step, and material that can’t be recycled.
Here, new additive materials added in Material Input Flow must also be regarded as LCA input elements.
These MNs outputing from certain PL can be divided into producing materials that can be used in next operation step and disposal material.
Material Input Flow mainly includes two parts: Materials output from previous operation step, and new additive materials added.Material produced by current operation step can be regarded as Material Output Flow.
Material Output Flow also includes two parts: Materials that can be used for next operation step, and material that can’t be recycled.
Here, new additive materials added in Material Input Flow must also be regarded as LCA input elements.
These MNs outputing from certain PL can be divided into producing materials that can be used in next operation step and disposal material.
Online since: September 2018
Authors: Sivaldo L. Correia, Oscar Ueno, S. Schwaab, D. Ganasini, M.V. Folgueras
Micrographs obtained via SEM/SE of materials M1 and M2.
Micrographs obtained via SEM/SE of materials M3, M4 and MPC.
Ban: Construction and Building Materials Vol. 77 (2015), p. 370
Rahier et. al.: Journal of Materials Science Vol. 42 (2007), p. 2982
Correia et al.: Materials Science Forum Vols. 498-499 (2005), p. 447
Micrographs obtained via SEM/SE of materials M3, M4 and MPC.
Ban: Construction and Building Materials Vol. 77 (2015), p. 370
Rahier et. al.: Journal of Materials Science Vol. 42 (2007), p. 2982
Correia et al.: Materials Science Forum Vols. 498-499 (2005), p. 447
Online since: December 2011
Authors: Tian Chao Yu, Ying Sun, Yong Hou Sun
By the process of “meshing-loading- calculating- view of results”, the result of structure optimization of CCFSB is got which shows materials distribution.
It purposed "analysis - Optimization - improved - and then analysis - comparing" the optimization process which makes the optimized frame structure and the intensity remains constant and significant reduction in used materials to achieve the design goals.
Beijing: science press, 2005.
Journal of space, 2004, 25 (6) : 673-676.
Beijing: science press, 2005.
It purposed "analysis - Optimization - improved - and then analysis - comparing" the optimization process which makes the optimized frame structure and the intensity remains constant and significant reduction in used materials to achieve the design goals.
Beijing: science press, 2005.
Journal of space, 2004, 25 (6) : 673-676.
Beijing: science press, 2005.
Online since: February 2011
Authors: Zhi Feng Xu, Ren Ping Shao, Jie Ma
Acknowledgments
This research is sponsored by the Natural Science Fund of China (NSFC) (Grant No. 50575187) and the fund of Chinese aviation science (01I53073) and the fund of Natural science of ShanXi province in China(2004E219).
[3] Shao Renping,GuoWanlin,Kaoru Hirota: KeyEngineering Materials,Vols.353-358(2007),p.1072 [4] Yu Dejie,Cheng Junsheng,: Chinese Journal of Mechanical Engineering,Vol.41(6)(2005),p.102 [5] Cheng Yang,Yansong He: Identification of GearTooth-Root Crack Failure Through Solid Sound Wave Signals[C],Processing of ICMT'2001,Chongqing,China,China Machine Press,p.386-388
[6] YANG Debin,YANG Juxing,YANG Jianhong: Journal of University of Science and Technology Beijing,Vol.30(4)(2008), p.436-440
Journal of Sound and Vibration, Vol.282 (9)(2005), p.313–339
[11] Shao Ren-ping, Huang Xin-na: Journal of Aerospace Power.
[3] Shao Renping,GuoWanlin,Kaoru Hirota: KeyEngineering Materials,Vols.353-358(2007),p.1072 [4] Yu Dejie,Cheng Junsheng,: Chinese Journal of Mechanical Engineering,Vol.41(6)(2005),p.102 [5] Cheng Yang,Yansong He: Identification of GearTooth-Root Crack Failure Through Solid Sound Wave Signals[C],Processing of ICMT'2001,Chongqing,China,China Machine Press,p.386-388
[6] YANG Debin,YANG Juxing,YANG Jianhong: Journal of University of Science and Technology Beijing,Vol.30(4)(2008), p.436-440
Journal of Sound and Vibration, Vol.282 (9)(2005), p.313–339
[11] Shao Ren-ping, Huang Xin-na: Journal of Aerospace Power.
Characteristics and Adsorption of Volatile Organic Sulfur Compounds from Food Waste Processing Plant
Online since: June 2014
Authors: Lian Hai Ren
The scan was set from m/z 15-300 u.
2.3 Adsorption experimental section
2.3.1 Materials
A commercial activated carbon was used as adsorbent in the experiment.
Journal of hazardous Materials, Vol.2(2011), p. 683-690
Journal of Colloid and Interface Science, Vol. 1(2006), p.128-136
New Carbon Materials, Vol. 2(2007), p.135-140
Journal of Colloid and Interface Science, Vol. 2(2006), p.814-817
Journal of hazardous Materials, Vol.2(2011), p. 683-690
Journal of Colloid and Interface Science, Vol. 1(2006), p.128-136
New Carbon Materials, Vol. 2(2007), p.135-140
Journal of Colloid and Interface Science, Vol. 2(2006), p.814-817