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Online since: October 2010
Authors: Zeng Hua Liu, Ji Chen Zhao, Bin Wu, Cun Fu He
Material
Evaluation. 2002,60(1):53-59
Journal of Acoustical Society of America. 1998,103(6):3370-3375
Journal of Engineering Mechanics. 2002,128(11): 1206-1214
Journal of Engineering Mechanics. 2001,127(6):599-606
Smart Materials and Structures. 2005,14(4):685-695
Journal of Acoustical Society of America. 1998,103(6):3370-3375
Journal of Engineering Mechanics. 2002,128(11): 1206-1214
Journal of Engineering Mechanics. 2001,127(6):599-606
Smart Materials and Structures. 2005,14(4):685-695
Online since: December 2012
Authors: De Fu Chi, Dan Wang
It is an effective method to wrap liquid and/or solid material, known as core material by microcapsules and has potential extensive applications in essential oils [3].
Experimental Materials Alpha-pinene (α-pinene, purity 95%) was purchased from Aladdin (Shanghai, China).
Cox: Journal of Stored Products Research 40 (2004) 1-25
Zhang: Journal of Food Engineering 104 (2011) 455-460
Kiparissides: Journal of Controlled Release 38 (1996) 49-58
Experimental Materials Alpha-pinene (α-pinene, purity 95%) was purchased from Aladdin (Shanghai, China).
Cox: Journal of Stored Products Research 40 (2004) 1-25
Zhang: Journal of Food Engineering 104 (2011) 455-460
Kiparissides: Journal of Controlled Release 38 (1996) 49-58
Online since: August 2011
Authors: Li Hong Gao, Ping Yang, Ge Ning Xu
But the fatigue crack propagation data of many component structure or material can be used to analyze fatigue fracture life and reliability.
Computation example Sensitive Region of Crack Crack There is a port M10-25 gantry crane with base materials Q345 steel and 400 times for hiking every day.
G.: Journal of Engineering Mechanics.
[6] Jan K: International Journal of fatigue.
[7] Jianyu Zhang, Binjun Fei: Journal of Beijing university of aeronautics and astronautics.
Computation example Sensitive Region of Crack Crack There is a port M10-25 gantry crane with base materials Q345 steel and 400 times for hiking every day.
G.: Journal of Engineering Mechanics.
[6] Jan K: International Journal of fatigue.
[7] Jianyu Zhang, Binjun Fei: Journal of Beijing university of aeronautics and astronautics.
Online since: December 2013
Authors: Xiao Tong Liu, Sheng Gao Cheng, Yi Shi, Yin Wang
Fenton oxidation process as a kind of advanced oxidation process, for refractory material has good treatment effect.
Materials and methods Materials.
Fenton reagent oxidation-coagulation treatment of coking wastewater of experimental research: Journal of environmental science and technology.
Fenton reagent treat starch factory wastewater: Journal of chemical industry in Henan.
Fenton oxidation experimental study on the emulsion wastewater: Industrial water and wastewater.Vol.30 (1999), p. 20(In Chinese) [6] Shengbing Chen,Shaohua He.The oxidation mechanism of Fenton reagent and its application: Journal of environmental science and technology.Vol.03(2004), p.105(In Chinese) [7] Gang Luo,Junli Huang: Chemical engineer.Vol. 87(2001), p.23 [8] Bossmann S H, Oliveros E,G b S et al: J.
Materials and methods Materials.
Fenton reagent oxidation-coagulation treatment of coking wastewater of experimental research: Journal of environmental science and technology.
Fenton reagent treat starch factory wastewater: Journal of chemical industry in Henan.
Fenton oxidation experimental study on the emulsion wastewater: Industrial water and wastewater.Vol.30 (1999), p. 20(In Chinese) [6] Shengbing Chen,Shaohua He.The oxidation mechanism of Fenton reagent and its application: Journal of environmental science and technology.Vol.03(2004), p.105(In Chinese) [7] Gang Luo,Junli Huang: Chemical engineer.Vol. 87(2001), p.23 [8] Bossmann S H, Oliveros E,G b S et al: J.
Online since: June 2013
Authors: Markus Boxhammer, Jin Ming Lu
Modelling and State Estimation in Pulsed ECM with Variable Electrolyte
Conductivity
Markus Boxhammer1,a, Jinming Lu,2,b
1Institute of Automatic Control, TU Munich, Boltzmannstr. 15, 85748 Garching, Germany
2Institute of Materials Science and Mechanics of Materials, TU Munich, Boltzmannstr. 15, 85748
Garching, Germany
amarkus.boxhammer@mytum.de, blu@wkm.mw.tum.de
Keywords: electrochemical machining, control, gap estimation, variable conductivity.
For a complete system description Faraday's Law is we incorporated, resulting in ˙s = k U − ∆U R + s κ A − f (2a) I = U − ∆U R + s κ A, (2b) where k denotes the material removal parameter, f the tool feedrate and U the applied voltage, respectively.
References [1] Altena, H.S.J.: Precision ECM by Process Characteristic Modelling, Diss., Glasgow Caledonian University, 2000 [2] Boxhammer, M.; Riedl, G.; Ruhlig D.; Lohmann B.: Simultaneous control of current density and frontal gap in Precise Electrochemical Machining, INSECT, pp. 18-24, Vienna, 2011 [3] Gauthier, J.P.; Bornard, G.: Observability for any u(t) of a Class of Nonlinear Systems, IEEE Transactions on Automatic Control, vol. 26(4), pp. 922-926 , 1981 [4] Jain, N.K.; Jain, V.K.: Optimization of Electrochemical Machining Process Parameters using Genetic Algorithms, Machining science and technology, vol. 11(2), pp. 235-258, 2007[5] Kozak J., Rajurkar K.P., Wei B.; Modelling and Analysis of Pulse Electrochemical Machining, Journal of Engineering for Industry, vol. 116, pp. 316-323, 1994 [6] Kozak, J.; Gulbinowicz, D.; Gulbinowicz, Z.: The Mathematical Modeling and Computer Simulation of Pulse Electrochemical Micromachining, Engineering Letters, vol. 16(4), pp. 556-561
[7] Loutrel, S.P.; Cook N.H.: A Theoretical Model for High Rate Electrochemical Machining, Journal Eng. for Industry, vol. 95, pp. 1003-1008, 1973 [8] Rajurkar, K.P.; Wei, B.; Kozak, J.; McGeough, J.
A.: Modelling and Monitoring Interelectrode Gap in Pulse Electrochemical Machining, CIRP Annals-Manufacturing Technology, vol. 44(1), pp. 177-180, 1995 [9] Simon, D.: Optimal State Estimation: Kalman, H Infinity, and Nonlinear Approaches, WileyInterscience, p. 405, 2006 [10] Slotine, J.J.E.; Li, W.: Applied nonlinear control, Prentice-Hall, pp. 207-275, 1991 [11] Thorpe, J.F.; Zerkle, R.D.: Analytic Determination of the Equilibrium Electrode Gap in Electrochemical Machining, International Journal of Machine Tool Design and Research, vol. 9(2), pp. 131-144, 1969
For a complete system description Faraday's Law is we incorporated, resulting in ˙s = k U − ∆U R + s κ A − f (2a) I = U − ∆U R + s κ A, (2b) where k denotes the material removal parameter, f the tool feedrate and U the applied voltage, respectively.
References [1] Altena, H.S.J.: Precision ECM by Process Characteristic Modelling, Diss., Glasgow Caledonian University, 2000 [2] Boxhammer, M.; Riedl, G.; Ruhlig D.; Lohmann B.: Simultaneous control of current density and frontal gap in Precise Electrochemical Machining, INSECT, pp. 18-24, Vienna, 2011 [3] Gauthier, J.P.; Bornard, G.: Observability for any u(t) of a Class of Nonlinear Systems, IEEE Transactions on Automatic Control, vol. 26(4), pp. 922-926 , 1981 [4] Jain, N.K.; Jain, V.K.: Optimization of Electrochemical Machining Process Parameters using Genetic Algorithms, Machining science and technology, vol. 11(2), pp. 235-258, 2007[5] Kozak J., Rajurkar K.P., Wei B.; Modelling and Analysis of Pulse Electrochemical Machining, Journal of Engineering for Industry, vol. 116, pp. 316-323, 1994 [6] Kozak, J.; Gulbinowicz, D.; Gulbinowicz, Z.: The Mathematical Modeling and Computer Simulation of Pulse Electrochemical Micromachining, Engineering Letters, vol. 16(4), pp. 556-561
[7] Loutrel, S.P.; Cook N.H.: A Theoretical Model for High Rate Electrochemical Machining, Journal Eng. for Industry, vol. 95, pp. 1003-1008, 1973 [8] Rajurkar, K.P.; Wei, B.; Kozak, J.; McGeough, J.
A.: Modelling and Monitoring Interelectrode Gap in Pulse Electrochemical Machining, CIRP Annals-Manufacturing Technology, vol. 44(1), pp. 177-180, 1995 [9] Simon, D.: Optimal State Estimation: Kalman, H Infinity, and Nonlinear Approaches, WileyInterscience, p. 405, 2006 [10] Slotine, J.J.E.; Li, W.: Applied nonlinear control, Prentice-Hall, pp. 207-275, 1991 [11] Thorpe, J.F.; Zerkle, R.D.: Analytic Determination of the Equilibrium Electrode Gap in Electrochemical Machining, International Journal of Machine Tool Design and Research, vol. 9(2), pp. 131-144, 1969
Online since: March 2013
Authors: Yukiko Nakahara, Shijie Zhu, Yusuke Kodama, Arimitsu Usuki, Makoto Kato
The testing materials are nylon 6, NCH-2 (2 wt% clay reinforced composite) and NCH-5 (5 wt% clay reinforced composite).
Experimental Procedures 2.1 Materials Figure 1 shows the dimensions of the dumbbell-shaped tensile specimens.
Conclusion (1) With an increase in testing temperature, the tensile strength and fatigue strength of all materials decrease.
Kato, “Development of polymer clay nanocomposites by intercalation”, Engineering Materials, Japan, Vol. 57, No.4 (2009), pp. 31-35
Kato, “Tensile and Fatigue Behavior in Clay Reinforced Nylon 6 Nanocomposites”, Journal of the Society of Materials Science, Japan, Vol. 58, No. 12 (2009), pp. 969-974.
Experimental Procedures 2.1 Materials Figure 1 shows the dimensions of the dumbbell-shaped tensile specimens.
Conclusion (1) With an increase in testing temperature, the tensile strength and fatigue strength of all materials decrease.
Kato, “Development of polymer clay nanocomposites by intercalation”, Engineering Materials, Japan, Vol. 57, No.4 (2009), pp. 31-35
Kato, “Tensile and Fatigue Behavior in Clay Reinforced Nylon 6 Nanocomposites”, Journal of the Society of Materials Science, Japan, Vol. 58, No. 12 (2009), pp. 969-974.
Online since: February 2013
Authors: Jian Xin Pan, Qiang Li
In order to make the performance of the work as possible uniform,and keep the tool life as possible long, quenching and heat treatment process was used for samples.The hardness of the materials is about HRC28.
In high speed milling, along with the cutting speed increasing further, the temperature rises gradually, the material softening enhancement.In addition,temperature makes the workpiece material flow stress drop.
Analysis of residual stresses induced by dry turning of difficult-to-machine materials[J].
Journal of Materials Processing Technology, 2002 ,128:318-323 [7] P.Koshy et al.
Journal of Materials Processing Technology ,2002,127:266-273
In high speed milling, along with the cutting speed increasing further, the temperature rises gradually, the material softening enhancement.In addition,temperature makes the workpiece material flow stress drop.
Analysis of residual stresses induced by dry turning of difficult-to-machine materials[J].
Journal of Materials Processing Technology, 2002 ,128:318-323 [7] P.Koshy et al.
Journal of Materials Processing Technology ,2002,127:266-273
Online since: February 2011
Authors: Si Jia Liu, Jin Hua Ju, Hua Wang, Ji Wen Xu, Ling Yang, Jie Chang Di
Bernik et al. [3] discovered that TiO2-doped ZnO-Bi2O3 system materials can promote ZnO grain growing, while the grain growth was the fundamental way to reduce the breakdown voltage.
It is well known that AC impedance spectroscopy is a powerful technique for the characterization of grain boundaries in ceramic materials.
Kutty: Journal of Materials Science:Materials in Electronics, Vol.7 (1996), p137-148
[7] Raghavan Nadar Viswanath, Sinna Nadar Ramasamy: Materials transactions, Vol.42, (2001), p.1647-1652
West: Journal of Electroceramics, Vol.1, (1997), p.125-132
It is well known that AC impedance spectroscopy is a powerful technique for the characterization of grain boundaries in ceramic materials.
Kutty: Journal of Materials Science:Materials in Electronics, Vol.7 (1996), p137-148
[7] Raghavan Nadar Viswanath, Sinna Nadar Ramasamy: Materials transactions, Vol.42, (2001), p.1647-1652
West: Journal of Electroceramics, Vol.1, (1997), p.125-132
Online since: January 2017
Authors: Dan Hua Xu, Shi Hua Liu, Qing Dan Yuan, Peng Chen
Experimental procedure
The main starting materials employed in this study is fused silica powder.
Solar Energy Materials and Solar Cells, 2002, 72(1): 3-10
Journal of Non-Crystalline Solids, 2008, 354(12): 1285-1289
Properties of Silica Ceramic Made from Amorphous Silica[C]//Key Engineering Materials. 2010, 434: 838-839
Materials Science and Engineering, 1975, 20: 83-88
Solar Energy Materials and Solar Cells, 2002, 72(1): 3-10
Journal of Non-Crystalline Solids, 2008, 354(12): 1285-1289
Properties of Silica Ceramic Made from Amorphous Silica[C]//Key Engineering Materials. 2010, 434: 838-839
Materials Science and Engineering, 1975, 20: 83-88
Online since: May 2014
Authors: Yue Sheng Chai, Xiao Dong Zhao, Chun Xiao Cao, Hui Qin Chen
Materials Science and Engineering, A243(1998)77-81
[3] S.L.
Materials Science and Engineering, A243(1998)82-88 [7] T.
Materials Science and Technology, 16(2000)511-516 [9] T.
Journal of Materials Processing Technology, 108(2001)320-327 [11] Y.V.R.K.
Journal of Aeronautical Materials, 28(2008)18-22
Materials Science and Engineering, A243(1998)82-88 [7] T.
Materials Science and Technology, 16(2000)511-516 [9] T.
Journal of Materials Processing Technology, 108(2001)320-327 [11] Y.V.R.K.
Journal of Aeronautical Materials, 28(2008)18-22