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Online since: May 2020
Authors: Marián Kubliha, Ondrej Bošák, Soňa Rusnáková, Milan Žaludek, Přemysl Strážnický, Petr Gross
For application in less stressed parts, it is also possible to use another matrix with fillers from these waste materials for products daily needs in focus are green materials as well as materials where will be can recycle again.
Materials science and technologies series.
Materials science and technologies series.
Materials Science Forum. 2018, 919, 167-174.
Macromolecular Materials and Engineering. 2015, 300(1), 10-24.
Materials science and technologies series.
Materials science and technologies series.
Materials Science Forum. 2018, 919, 167-174.
Macromolecular Materials and Engineering. 2015, 300(1), 10-24.
Online since: April 2011
Authors: Xiao Hui Zeng, Wen Lang Luo, Man Hua Li
Research on a Remote Network Monitoring Model for Large-scale Materials Manufacturing
Xiaohui ZENG1, 2, a, Manhua LI1, b, Wenlang LUO1,c
1Department of Computer Science and Technology, Jinggangshan University, China
2The Key Laboratory of Embedded System and Service Computing, Ministry of Education, Tongji University, China
azeng_xhui@163.com, blimanhua@jgsu.edu.cn, clwl@jgsu.edu.cn
Key words: remote network monitoring, data storage, fault alarm, materials manufacturing
Abstract.
Network monitoring is widespread in the field of the materials manufacturing [1-3], and the field of the large-scale materials manufacturing adopts remote network monitoring relatively rarely [4-6].
But in some cases, remote network monitoring is very important for the large-scale materials manufacturing.
In order to monitor large-scale materials manufacturing in time, a remote network monitoring model for large-scale materials manufacturing is designed based on our previous studies [7,8], and according to the model, a remote network monitoring platform is implemented.
The main role of the platform is to monitor materials manufacturing machines and devices.
Network monitoring is widespread in the field of the materials manufacturing [1-3], and the field of the large-scale materials manufacturing adopts remote network monitoring relatively rarely [4-6].
But in some cases, remote network monitoring is very important for the large-scale materials manufacturing.
In order to monitor large-scale materials manufacturing in time, a remote network monitoring model for large-scale materials manufacturing is designed based on our previous studies [7,8], and according to the model, a remote network monitoring platform is implemented.
The main role of the platform is to monitor materials manufacturing machines and devices.
Online since: August 2013
Authors: Yuan Yuan Zhang, Shu Ran Lv
A series tests, including particles analysis test, density test, seepage test, static treaxial test and compression test were conducted to analyze the physical and mechanical properties of heap dam materials.
Sample name relative density( Dr) permeability coefficien k(×10-3cm/s) 1 Tailings dam material 0.47 0.606 2 Tailings dam material 0.58 0.495 3 Tailings dam material 0.73 0.468 Static traxial test T The statics properties of the tailings dam materials include sand transformation and intension properties.
[2] Jianlin Luo , in Chinese :Journal of safety science and technology, 2 (3) ,P84
[3] Quanming Li, xian Chen, Yunhai Wang and Xinggai Zhang, in Chinese: Journal of safety science and technology, Vol 5(3), P.74-76 [4] Perman A D M, International Journal of Rock Mechanics and Mining Science & Geomechanics, 1995, 32(3), P132 [5] Ana Rita Salgueiro, Henrique Garcia Pereira, and Gerado Benito, Risk Analysis, 2008,28(1):13-23
[6] Quanming Li, Guoli Liao, in Chinese: Journal of safety science and technology, 2007, Vol 3 (5), P 24~29
Sample name relative density( Dr) permeability coefficien k(×10-3cm/s) 1 Tailings dam material 0.47 0.606 2 Tailings dam material 0.58 0.495 3 Tailings dam material 0.73 0.468 Static traxial test T The statics properties of the tailings dam materials include sand transformation and intension properties.
[2] Jianlin Luo , in Chinese :Journal of safety science and technology, 2 (3) ,P84
[3] Quanming Li, xian Chen, Yunhai Wang and Xinggai Zhang, in Chinese: Journal of safety science and technology, Vol 5(3), P.74-76 [4] Perman A D M, International Journal of Rock Mechanics and Mining Science & Geomechanics, 1995, 32(3), P132 [5] Ana Rita Salgueiro, Henrique Garcia Pereira, and Gerado Benito, Risk Analysis, 2008,28(1):13-23
[6] Quanming Li, Guoli Liao, in Chinese: Journal of safety science and technology, 2007, Vol 3 (5), P 24~29
Online since: June 2011
Authors: Xiu Ting Wei, Li Peng Zhang, Jie Chen Mu
The ceramics materials were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM).
As the new materials synthetic technology developing, the research on thermoelectric materials develope quickly, the reports of new materials are very much, except traditional thermoelectric materials.
The additive affect microstructure of materials [7].
Beijing, Science Technology Press, (1998)
[6] XI Jinhui, LIU Yihan, YAO Guangchun: Functional Materials, Vol. 36 (2005), p. 374 [7] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths (in Chinese),Vol. 25 (2007), p. 190 [8] WANG Dongli, CHEN Lidong, BO Shengqiang: Journal of Inorganic Materials(in Chinese), Vol. 19 (2004), p. 1329 [9] LIN Yuanhua, ZHOU Xisong, NAN Jun: J Chin Ceram Soc (in Chinese), Vol. 32 (2004), p. 537 [10] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths, Vol. 24 (2006), p. 365 [11] MASUDA Y, NAGAHAMA D, ITAHARA H: J Mater Chem, Vol. 13 (2003), p. 1094 [12] ZHOU Y Q, MATSUBARA I, HORII S: J Applied Physics, Vol. 93 (2003), p. 2653 [13] ELHITI M A, ABOELATA A M: Journal of Magnetism and Magnetic Materials, Vol. 195 (1999), p. 667 [14] PARK K: Scripta Materiallia, Vol. 50 (2004), p. 551 [15] PARK K:Materials Science and Engineering, Vol.
As the new materials synthetic technology developing, the research on thermoelectric materials develope quickly, the reports of new materials are very much, except traditional thermoelectric materials.
The additive affect microstructure of materials [7].
Beijing, Science Technology Press, (1998)
[6] XI Jinhui, LIU Yihan, YAO Guangchun: Functional Materials, Vol. 36 (2005), p. 374 [7] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths (in Chinese),Vol. 25 (2007), p. 190 [8] WANG Dongli, CHEN Lidong, BO Shengqiang: Journal of Inorganic Materials(in Chinese), Vol. 19 (2004), p. 1329 [9] LIN Yuanhua, ZHOU Xisong, NAN Jun: J Chin Ceram Soc (in Chinese), Vol. 32 (2004), p. 537 [10] ZHANG Lipeng, YU Xianjin, DONG Yunhui: Journal of Rare Earths, Vol. 24 (2006), p. 365 [11] MASUDA Y, NAGAHAMA D, ITAHARA H: J Mater Chem, Vol. 13 (2003), p. 1094 [12] ZHOU Y Q, MATSUBARA I, HORII S: J Applied Physics, Vol. 93 (2003), p. 2653 [13] ELHITI M A, ABOELATA A M: Journal of Magnetism and Magnetic Materials, Vol. 195 (1999), p. 667 [14] PARK K: Scripta Materiallia, Vol. 50 (2004), p. 551 [15] PARK K:Materials Science and Engineering, Vol.
Online since: January 2022
Authors: Ya Nan Zhang, Hao Chen, Si Cheng Li, Ren Guo Guan, Feng Guo Liu
Materials and Methods
Materials and Preparation.
Advanced materials, 22 (2010) 3906-3924
Materials Science and Engineering: A, 2016, 667: 16-32
Materials & Design, 2016, 94: 54-60
Materials & Design, 2014, 63: 620-632
Advanced materials, 22 (2010) 3906-3924
Materials Science and Engineering: A, 2016, 667: 16-32
Materials & Design, 2016, 94: 54-60
Materials & Design, 2014, 63: 620-632
Online since: October 2021
Authors: Makhzuna Nasretdinova, Gulnarakhan Utemuratova, Adilbay Dawletmuratov, Afanasy Matveev, Denis Kaigorodov, Oleg Mustaev, Evgenii Kalinin
Animated nature has the most complex materials, devices and processes in comparison with all the inventions of mankind.
Natural materials are very cheap and abundant, their "quality" is much better than those made by man.
Modern biomimetics is largely associated with the development of new materials that copy natural ones.
International Journal of Pharmaceutical Research. 2020; 3(12): 2155-2161
International Journal of Pharmaceutical Research. 2020; 3(12): 2117-2125.
Natural materials are very cheap and abundant, their "quality" is much better than those made by man.
Modern biomimetics is largely associated with the development of new materials that copy natural ones.
International Journal of Pharmaceutical Research. 2020; 3(12): 2155-2161
International Journal of Pharmaceutical Research. 2020; 3(12): 2117-2125.
Online since: July 2012
Authors: Pei Feng Zhao, Qing Fu Wang
Study on Material Constant Values of Ti-6Al-4V-Rare Earth Titanium
Peifeng Zhao1, a Qingfu Wang1,b
1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China
azpf_1972@163.com bwqf87@sina.cn
Keywords: titanium alloy; hot compression deformation; flow stress; constant value
Abstract: According to hot compressive test date, relationship between flow stress, temperature, strain rate and strain is studied.
Li: Journal of Materials Processing Technology Vol. 209 (2009), p. 2892-2896, In Chinese
Li: Journal of Plasticity Engineering Vol. 6 (2008), p. 118-121
Ryan: Materials Science and Engineering Vol. 322 (2002), p. 43-63
Deng, etc.: Materials Characterization Vol. 58(2007), p. 168-185, In Chinese.
Li: Journal of Materials Processing Technology Vol. 209 (2009), p. 2892-2896, In Chinese
Li: Journal of Plasticity Engineering Vol. 6 (2008), p. 118-121
Ryan: Materials Science and Engineering Vol. 322 (2002), p. 43-63
Deng, etc.: Materials Characterization Vol. 58(2007), p. 168-185, In Chinese.
Online since: May 2014
Authors: Feng Bin Liu, Bao Jing
Lots of literatures have recorded the hydrophobic modification of TiO2 nano-materials.
The super-hydrophobic surface has a very important application prospect in the self-cleaning materials, microfluidic devices, biological materials and many other felids.
And the modified surface has a better photocatalytic performance to the hydrophobic materials.
Li Jian,Luo Jia,Preparation and Characterization of TiO2 Nanotube Arrays by Anodic Oxidation Method[N],Journal of Inorganic Materials,2010,490-494
[15].Hu Xuebin, Xu Xuan,Preparation and Catalytic Kinetic of Hydrophobic Photocatalytic Catalysts, Journal of Inorganic Materials,2009,1115-1120
The super-hydrophobic surface has a very important application prospect in the self-cleaning materials, microfluidic devices, biological materials and many other felids.
And the modified surface has a better photocatalytic performance to the hydrophobic materials.
Li Jian,Luo Jia,Preparation and Characterization of TiO2 Nanotube Arrays by Anodic Oxidation Method[N],Journal of Inorganic Materials,2010,490-494
[15].Hu Xuebin, Xu Xuan,Preparation and Catalytic Kinetic of Hydrophobic Photocatalytic Catalysts, Journal of Inorganic Materials,2009,1115-1120
Online since: August 2020
Authors: Alexey Vasilchenko, Artem Ruban, Oleksandr Blyznyuk, Yuliia Bezuhla
Polymeric materials are used in structures as sealants, thermal insulation, as part of fire-retardant materials, where their fire resistance is an important property [2, 3, 4].
Increasing fire resistance of polymer materials, reducing their combustibility, is always given special attention.
Kochetkov et al., Elastomer Heat-Shielding Materials Containing Aluminosilicate Microspheres, Russ.
Byrne, Investigation of a synthetic aluminosilicate inorganic polymer, Journal of Materials Science. 37 (2002) 2311–2316
Weil, Sergei Levchik, A Review of Current Flame Retardant Systems for Epoxy Resins, Journal of Fire Sciences. 22(1) (2004) 25-40
Increasing fire resistance of polymer materials, reducing their combustibility, is always given special attention.
Kochetkov et al., Elastomer Heat-Shielding Materials Containing Aluminosilicate Microspheres, Russ.
Byrne, Investigation of a synthetic aluminosilicate inorganic polymer, Journal of Materials Science. 37 (2002) 2311–2316
Weil, Sergei Levchik, A Review of Current Flame Retardant Systems for Epoxy Resins, Journal of Fire Sciences. 22(1) (2004) 25-40
Online since: July 2015
Authors: Qiang Xie, Zuo Bing Chen, Yong Peng Shen, Wen Yue Dong
For example, the movement condition of the materials in the drum directly affects the material breakage, energy loss and even equipment vibration.
Journal of Zhejiang University,2007,41(7):1195-1200 [4] HUANG Zhigang.
Study on Particulate Materials Flow and Heat and Mass Transfer in Rotary Dryers[D].
Chemical Engineering Science, 2007, 62(13): 3378-3396
Chemical Engineering Science, 2008, 63(23): 5728-5770
Journal of Zhejiang University,2007,41(7):1195-1200 [4] HUANG Zhigang.
Study on Particulate Materials Flow and Heat and Mass Transfer in Rotary Dryers[D].
Chemical Engineering Science, 2007, 62(13): 3378-3396
Chemical Engineering Science, 2008, 63(23): 5728-5770