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Online since: November 2012
Authors: Dian Dian Ding, Shun Chuan Wu
Micro-seismic monitoring technology originate from the 1980s[3].In this day and age, the technology has been commonly used in mine, underground oil and gas materials storage cavern ,and obtains a preferable fruit and achieves expectant aim in South Africa, America, Canada, Japan and Australia[4-5].
[2] L.Fei: Chinese Journal of Engineering Geophysics, Vol. 5 (2008) No.5, p. 554.
Duvall: Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts, Vol. 12 (1975) No.4, p. 69
GE: International Journal of Coal Geology, Vol. 64 (2005) No.1-2, p. 44
KAISER: International Journal of Rock Mechanics and Mining Sciences, Vol. 34 (1997) No.2, p. 249
[2] L.Fei: Chinese Journal of Engineering Geophysics, Vol. 5 (2008) No.5, p. 554.
Duvall: Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts, Vol. 12 (1975) No.4, p. 69
GE: International Journal of Coal Geology, Vol. 64 (2005) No.1-2, p. 44
KAISER: International Journal of Rock Mechanics and Mining Sciences, Vol. 34 (1997) No.2, p. 249
Online since: February 2019
Authors: Renat V. Gavariev, I.A. Savin, Igor O. Leushin
Kondrashov, Shaping of cutting part of angle milling cutters with nonzero geometry, World Applied Sciences Journal.
IOP Conference Series: Materials Science and Engineering, 134(1) (2016) 012031
Materials Science Forum, 870 (2016) 328-333
Çelik, Investigation of the abrasive wear behaviour of ZA-27 alloy and CuSn10 bronze, Journal of Materials Science, 46(14) (2011) 4850-4857
Gavariev, Development of expert systems for modeling of technological process of pressure casting on the basis of artificial intelligence, IOP Conference Series Materials Science and Engineering, September 2017, Institute of Physics Publishing
IOP Conference Series: Materials Science and Engineering, 134(1) (2016) 012031
Materials Science Forum, 870 (2016) 328-333
Çelik, Investigation of the abrasive wear behaviour of ZA-27 alloy and CuSn10 bronze, Journal of Materials Science, 46(14) (2011) 4850-4857
Gavariev, Development of expert systems for modeling of technological process of pressure casting on the basis of artificial intelligence, IOP Conference Series Materials Science and Engineering, September 2017, Institute of Physics Publishing
Online since: January 2007
Authors: Robert Ruprecht, Jürgen Haußelt, Volker Piotter, G. Finnah, B. Zeep
Hausselt
Forschungszentrum Karlsruhe, Institute for Materials Research III,
P.O.
Nevertheless, there are still only a few methods for processing of materials stronger than plastics and for lowering assembly costs.
Micro Powder Injection Molding (MicroPIM).Although micro injection molding is becoming more and more established in industry for polymeric materials, polymers still have limitations and cannot be used for applications that require materials with higher mechanical, thermal, and abrasion-resistive properties.
One of these parts is determined for tensile and bending tests so that the bonding strength of the junction between two materials can be investigated (Fig. 3).
Especially in the case of metal materials, MicroPIM is focused on using finer powders with mean particle dimensions in the range of a few micrometers only.
Nevertheless, there are still only a few methods for processing of materials stronger than plastics and for lowering assembly costs.
Micro Powder Injection Molding (MicroPIM).Although micro injection molding is becoming more and more established in industry for polymeric materials, polymers still have limitations and cannot be used for applications that require materials with higher mechanical, thermal, and abrasion-resistive properties.
One of these parts is determined for tensile and bending tests so that the bonding strength of the junction between two materials can be investigated (Fig. 3).
Especially in the case of metal materials, MicroPIM is focused on using finer powders with mean particle dimensions in the range of a few micrometers only.
Online since: March 2015
Authors: Gianluca Buffa, Antonino Ducato, Livan Fratini, Davide Campanella
Ward, Advances in Friction Welding, Advances in Materials Science and Engineering, (2014)
Frost, On the extrusion stage of linear friction welding of Ti6Al4V, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 271 (1999) 477-484
Frost, Modelling the linear friction welding of titanium blocks, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 292 (2000) 8-17
Nakata, Dissimilar metal joining of ZK60 magnesium alloy and titanium by friction stir welding, Materials Science and Engineering: B, 177 (2012) 543-548
Reed, Linear friction welding of Ti6Al4V: experiments and modelling, Materials Science and Technology, (2014).
Frost, On the extrusion stage of linear friction welding of Ti6Al4V, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 271 (1999) 477-484
Frost, Modelling the linear friction welding of titanium blocks, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 292 (2000) 8-17
Nakata, Dissimilar metal joining of ZK60 magnesium alloy and titanium by friction stir welding, Materials Science and Engineering: B, 177 (2012) 543-548
Reed, Linear friction welding of Ti6Al4V: experiments and modelling, Materials Science and Technology, (2014).
Online since: October 2014
Authors: Ke Fei Liu, Yu Zhi Li
Test and Methods
Raw Materials.
In order to carry out comparative analysis of various materials, the prism specimens of ERC and cement concrete have been prepared with uniform gradations (AM-10 mean-value), size (100mm×100mm×300mm) and test environment (20℃).
Liu, Pavement performance study of epoxy resin concrete , Journal of Southeast University (Natural Sciences). 39 (2010) 274-278
Li, and X.W.Peng, Experimental Study on the Temperature Shrinkage Performance of Epoxy Resin Concrete, Journal of China & Foreign Highway. 28 (2008) 174-177
Liu, Study on the Fatigue Property of Epoxy Resin Concrete, Journal of China & Foreign Highway. 30(2010) 297-300.
In order to carry out comparative analysis of various materials, the prism specimens of ERC and cement concrete have been prepared with uniform gradations (AM-10 mean-value), size (100mm×100mm×300mm) and test environment (20℃).
Liu, Pavement performance study of epoxy resin concrete , Journal of Southeast University (Natural Sciences). 39 (2010) 274-278
Li, and X.W.Peng, Experimental Study on the Temperature Shrinkage Performance of Epoxy Resin Concrete, Journal of China & Foreign Highway. 28 (2008) 174-177
Liu, Study on the Fatigue Property of Epoxy Resin Concrete, Journal of China & Foreign Highway. 30(2010) 297-300.
Online since: June 2014
Authors: Yong Jiang, Shao Fen Bu, Wen Fu Zeng
References
[1] Chen xiangbao, Handbook of polymer matrix composite materials, Chemical Industry Press, Beijing, 2004.
(In Chinese) [7] Lu Shaorong, Zhang Hailiang, Wang Xiayu, Polymer Materials Science & Engineering, 2005, 21(5):261-265.
(In Chinese) [9] Chen Yufei, Zhang Xu, Sun Jialin, et al, Journal of Jiangsu University(Natural Science Edition), 2013, 34(3):335-339.
(In Chinese) [10] Liu Yanyan, Wu Yaoguo, Liu Kai, et al, Journal of Materials Science and Engineering, 2011, 29(2):316-320.
(In Chinese) [11] Yong Jiang, Ping Zhang, Zuwu Liu, et al, Materials Chemistry and Physics, 2006, (99):498-504.
(In Chinese) [7] Lu Shaorong, Zhang Hailiang, Wang Xiayu, Polymer Materials Science & Engineering, 2005, 21(5):261-265.
(In Chinese) [9] Chen Yufei, Zhang Xu, Sun Jialin, et al, Journal of Jiangsu University(Natural Science Edition), 2013, 34(3):335-339.
(In Chinese) [10] Liu Yanyan, Wu Yaoguo, Liu Kai, et al, Journal of Materials Science and Engineering, 2011, 29(2):316-320.
(In Chinese) [11] Yong Jiang, Ping Zhang, Zuwu Liu, et al, Materials Chemistry and Physics, 2006, (99):498-504.
Online since: November 2020
Authors: Vytenis Naginevicius, Vladimirs Gudakovskis, Esmeralda Styps, Rolandas Sertvytis, Eriks Gerins, Viktors Gutakovskis
The determination of these variables depends on experience and knowledge regarding the workpiece and tool materials, coolant conditions, and other factors.The determination of these operating parameters depends on experience and knowledgeregarding the workpiece and tool materials, coolant conditions, and other factors.
As the machined part material were chosen AISI 420 and AISI 304 Stainless steel.
Material: AISI 420.
Cus, et al., Adaptive controller design for feedrate maximization of machining process, Journal of Achievements in Materials and Manufacturing Engineering. 17(1-2) (2006) 237-240
Alaskar, Adaptive control program for rough turning machining processes, 6th Int'l Conference on Advances in Engineering Sciences and Applied Mathematics (ICAESAM’2016). 21-22 (2016) 18-23
As the machined part material were chosen AISI 420 and AISI 304 Stainless steel.
Material: AISI 420.
Cus, et al., Adaptive controller design for feedrate maximization of machining process, Journal of Achievements in Materials and Manufacturing Engineering. 17(1-2) (2006) 237-240
Alaskar, Adaptive control program for rough turning machining processes, 6th Int'l Conference on Advances in Engineering Sciences and Applied Mathematics (ICAESAM’2016). 21-22 (2016) 18-23
Online since: July 2011
Authors: Ling Wang, Jian Zhang
Chinese Journal Of Rock Mechanics And Engineer, 2010(29)2148-2158
Journal of Hebei Polytechnic University (Natural Science Edition), 2009(31)11-13
The Application Of Porous Materials in HV&AC.Refrigeration and Air Conditioning[J], 2009(23)26-30
Journal of the University of Petroleum , China, 2000(24)111-116
Building Science, 2010(26)94-107.
Journal of Hebei Polytechnic University (Natural Science Edition), 2009(31)11-13
The Application Of Porous Materials in HV&AC.Refrigeration and Air Conditioning[J], 2009(23)26-30
Journal of the University of Petroleum , China, 2000(24)111-116
Building Science, 2010(26)94-107.
Online since: January 2021
Authors: Nguyen Hong Linh, Bui Thanh Danh, Nguyen Manh Cuong, Le Hong Ky, Nguyen Van Cuong, Nguyen Thi Thanh Nga, Tran Thi Hong, Tran Ngoc Giang
Journal of Environmental Science and Engineering B 6, pp. 387-390, 2017
Journal of Material ProcessingTechnology 1998; 79: 30-40
Journal of Materials Processing Technology2008;195:160–170
Wang, The application on power mixed EDM in rough machining, Journal of Materials Processig Technology 129 (2002) 30-33
Journal of Materials Processing Technology 2010; 210: 631–641.
Journal of Material ProcessingTechnology 1998; 79: 30-40
Journal of Materials Processing Technology2008;195:160–170
Wang, The application on power mixed EDM in rough machining, Journal of Materials Processig Technology 129 (2002) 30-33
Journal of Materials Processing Technology 2010; 210: 631–641.
Online since: July 2012
Authors: Mei Li, Hang Xu, Ai Rong Xu, Zhi Qiang Liang
Treatment of Four Dyes Wastewater Using Fenton Reagent and Dynamical Research
Mei Li1,a, Hang Xu1,b,*, Airong Xu1,c, Zhiqiang Liang2,d
1.Chemical Engineering and Pharmaceutics School, Henan University of Science and Technology, Luoyang 471003, China
2.State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, College of Chemistry, Jilin University, Changchun 130012,China
ahagdali@126.com; bxuhang09@tsinghua.org.cn; cairongxu@126.com; dliangzq@jlu.edu.cn
Keywords: Fenton; wastewater; kinetic model; dye
Abstract: Fenton’s reagent was employed to treat four modeling compound of textile wastewater.
Experimental Materials The Chemical structure of Reactive Brilliant Blue X-BR (RBB X-BR), Reactive Black SRE (RB SRE), Reactive Red SBE (RR SBE), and Methylene Blue (MB) are shown in Tab.1.
Fig.1 The relationship of [H2O2]o/kap and dye concentration Acknowledgement This work is supported by the National Nature Science Foundation of China (No: 21006057), China Postdoctoral Science Foundation (No: 20100470351) and State Key laboratory of Inorganic Synthesis and Preparative Chemistry Opening Topic Foundation (No: 2012-24).
A., Rodriguez J.: Journal of Hazardous Materials, Vol.143(2007), p.128 [4] Ipek G., Gulerman A.S.
,Filiz B.D.: Journal of Hazardous Materials, Vol.136(2006),p.763 [5] Xu.H., Zhang D.X., Xu W.G.: Journal of Hazardous Materials, Vol.158(2008),p.445
Experimental Materials The Chemical structure of Reactive Brilliant Blue X-BR (RBB X-BR), Reactive Black SRE (RB SRE), Reactive Red SBE (RR SBE), and Methylene Blue (MB) are shown in Tab.1.
Fig.1 The relationship of [H2O2]o/kap and dye concentration Acknowledgement This work is supported by the National Nature Science Foundation of China (No: 21006057), China Postdoctoral Science Foundation (No: 20100470351) and State Key laboratory of Inorganic Synthesis and Preparative Chemistry Opening Topic Foundation (No: 2012-24).
A., Rodriguez J.: Journal of Hazardous Materials, Vol.143(2007), p.128 [4] Ipek G., Gulerman A.S.
,Filiz B.D.: Journal of Hazardous Materials, Vol.136(2006),p.763 [5] Xu.H., Zhang D.X., Xu W.G.: Journal of Hazardous Materials, Vol.158(2008),p.445