Search results

Experimental Section Materials.
Kumar, Microcellular Polymers: Novel Materials for the 21st Century, Cellular Polymers Vol. 12 (1993) p. 207
Park, Journal of Applied Polymer Science Vol. 117 (2010) p. 2972
Wagner, Journal of Polymer Science Part B: Polymer Physics Vol. 41 (2003) p. 520
Matuana, Journal of Applied polymer Science, Vol. 88 (2003) p. 2842

The unique and attractive properties of nanostructured materials present new opportunities for the design of highly sophisticated electrochemical sensor.
Conclusions and Future Prospects Nanostructured materials are opening new horizons in the development of electrochemical sensor.
The unique and attractive properties of nanostructured materials present new opportunities for the design of highly sophisticated electroanalytical sensor.
Yu: Journal of Analytical Science 4 (2005), p. 359
Weiss: Science 307 (2005), p. 538

Experimental Materials.
Çelikok:European Journal of Pharmaceutics and Biopharmaceutics Vol. 57(2004), P. 279 [3] E.
Abdelbary: International Journal of Pharmaceutics, Vol. 468(2014), P. 97 [4] H.
Chai: Chinese Journal of Pharmaceuticals,Vol.6(2008), P. 432 [5] X.Q.Chen, C.Lliu and Y.
Li: Applied Mechanics ang Materials,Vol. 483(2014),P. 56

Study on Transformation Plasticity Behavior of Material SUS420J2 Masafumi Moromasa1 and Dongying Ju2* 1 Department of Electronic and Engineering, Graduate School of Engineering, Saitama Institute of Technology, Fusaiji 1690, Fukaya-city, saitama 369-0293, Japan 2 Saitama Institute of Technology, Fusaiji 1690, Fukaya-city, saitama 369-0293, Japan Corresponding author: dyju@sit.ac.jp Keywords : Transformation Plasticity, Transformation Plasticity coefficient, martensitic transformation Abstract In this paper, in order to study the transformation plasticity behavior of steel materials in heat treatment and other heating manufacturing process, experiment and simulation of heat treatment for SUS420J2 were carried out.
Introduction Stainless steel is used in many different areas of daily life and the field of application is necessary to be improved such as strength of the materials by using heat treatment technology.
However, few kinds of materials are identified, including carbon steels, because the experiments must be repeated under various loads for research on transformation plasticity.
Table.2 shows the chemical components of the material properties database MATEQ which is used in the standard of chemical composition of material SUS420J2 and the simulation.
Tomohiro Tanaka and Tatsuo Inoue, Identification of Transformation Plasticity Coefficient for Some Steels during Pearlite Transformation and the Dependence on Chemical Composition, Journal of the Society of Materials Science, Japan, Vol.57, No.10, pp.1036-1042, Oct.2008

Náhlík7,g Institute of Physics of Materials, AS CR, and Institute of Solid Mechanics, Mechatronics and Biomechanics, BUT Faculty of Mechanical Engineering; Brno, Czech Republic 2Institute of Physics of Materials, AS CR, Brno; Czech Republic 3Polymer Competence Center Leoben GmbH, Roseggerstrasse 12, 8700 Leoben, Austria 4Material Science and Testing of Polymers, Montanuniversitaet Leoben, Otto Gloeckel-Straße 2, 8700 Leoben, Austria 5,6Montanuniversität Leoben, Austria 7CEITEC IPM, Brno, Czech Republic aslavik@ipm.cz, bhutar@ipm.cz, cmichael.berer@pccl.at, danja.gosch@unileoben.ac.at, eflorianarbeiter@uniloeben.ac.at, fgerald.pinter@unileoben.ac.at, gnahlik@ipm.cz Keywords: fracture mechanics, failure of polymer bearings, mixed mode, numerical modelling Abstract.
Study of fatigue of roller bearing elements made of POM (Polyoxymethylene) and a general lack of knowledge about fatigue of materials in mixed modes caused a need to design a special specimen loaded under mixed mode conditions.
Schirmeisen: International Journal of Fatigue Vol. 62 (2014), p 93 [2] J.
Sih: Journal of Basic Engineering Vol. 85 (1963), p. 519 [9] M.R.
Aliha: International Journal of Solids and Structures Vol. 46 (2009), p. 311

Shan1, 2, c 1College of Electromechanical Engineering Qingdao University of Science and Technology, Qingdao, 266061, China 2Shandong Provincial Key Laboratory of Polymer Material Advanced Manufacturing Technology, Qingdao University of Science & Technology ahudedong@126.com, bxiaoxiaosmart@163.com, cshanwenyan@163.com Keywords: Rotating packed bed; Gas pressure drop; Count-flow; Cross-flow; Correlation Abstract.
Rotating packed bed is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separation and preparation of nano-materials.
Introduction Rotating packed bed (Abbreviation for RPB) is a new high efficient equipment for multiphase flow transference, it has been widely used in chemical separations and preparations of nano-materials.
Chemical Engineering Science. 56 (2001), p. 587 [8] H.W.
Science & Technology in Chemical Industry. 12(2004), p. 12 [18] W.Z.

Based on COMPASS forcefield, the relationship between microstructure and macroscopic properties of poly (propylene-co-γ-butyrolactone carbonate) (PPCG) was firstly investigated with 'Materials Studio' simulation soft successfully.
Molecular simulation is an available tool for understanding and discovering the relationship between micro-structure and functions of materials [2].
In this paper, poly(propylene-co-γ-butyrolactone carbonate) (PPCG), which has been successfully synthesized in our previous experiment, became the object of molecular simulation with the molecular simulation soft 'Materials Studio 3.0' (MS Modeling).
Narasimhan.: Journal of Controlled Release Vol.82(1) (2002) , p.115-125 [2] W.C.
Huang: Journal of Polymer Science Part-A: Polymer Chemistry Vol.43(2) (2005) , p. 2468-2475 [7] L.B.

Effect of Forward Extrusion and Heat Treatment on Microstructure and Mechanical Properties of as-cast ZK60 Magnesium Alloy Yong Xue 1, a, Zhimin Zhang 1, b, Lihui Lang 2, c 1 North University of China, School of Material Science and Engineering, 030051 Taiyuan, China 2 Beihang University, School of Mechanical Engineering and Automation, 100191 Beijing, China a merryjukii@hotmail.com, b zhangzhimini@live.nuc.edu.cn, c forge54@163.com Keywords: Plastic deformation, Microstructure, Mechanical properties, ZK60 Magnesium alloy Abstract.
Experimental materials and methods Ingots of Mg-(5.0-6.0) wt% Zn-(0.3-0.9) wt% Zr with a diameter of 190mm were used in the present experiment.
Acknowledgements The present research is sponsored by National Natural Foundation of China (No.50735005, No.50605059), Shanxi Provincial Science Foundation for Youths of China (No.2007021026), and Development for Science and Technology in Higher Educational Institutes (No. 20081027).
References [1] H.Wantanabe, H.Tsutsui, and T.Mukai et al.: International Journal of Plasticity, Vol.17 (2001), p.387 [2] Galiyev, R.Kaibyshev: Materials Transactions, Vol.42 (2001), p.1190 [3] C.M.Liu, Z.J.Liu, and X.R.Zhu: The Chinese Journal of Nonferrous Metals, Vol.16 (2006), p.1 [4] X.Yu, P.D.Ding, and J.Peng: The Chinese Journal of Hot Working Technology, Vol. 3(2004), p.14 [5] J.Liu, Z.S.Cui, and C.X.LI: The Chinese Journal of Nonferrous Metals, Vol.18 (2008), p.1020 [6] D.Y.Maeng, T.S.Kim, and J.H.Lee et al.: Scripta Materialia, Vol.43 (2000), p.385 [7] Y.D.Yu, K.F.Zhang, and D.M.Jiang et al.: The Chinese Journal of Nonferrous Metals, Vol.13 (2003), p.71 [8] R.Lapovok, P.F.Thomson, R.Cottam, and Y.
Estrin: Materials Science and Engineering A, Vol.410-411(2005), p.390

There are a series of active and effective researches on helical milling technology over home and abroad in the past few years.Wangyang Ni [1]studied on the machining dynamics of helical milling about aerospace aluminum alloy, titanium alloy and CFRP materials; R.
Acknowledgement This project is supported by Key Item of Sci-tech Supporting Plan in Tianjin ( 09ZCKFGX03300), National Natural Science Foundation of China (50705066) and Natural Science Foundation of Tianjin (08JCYBJC01300).
[3] B.Denkena,D.Boehnke,J.H.Dege:CIRP Journal of Manufacturing Science and Technology, Vol.1 (2008), pp. 64–69
Ji, et al:Key Engineering Materials. (2010), pp.431-432:346-350
[8] N.Kardes,Y.Altintas:Journal of Manufacturing Science and Engineering,Vol.129(2007),pp. 21-31

AIMS Materials Science, 7(1), 116
Engineering science and technology, an international journal, 20(4), 1324-1333.Ashok, A., et al. (2019).
Journal of Hazardous Materials, 403, 123443
International Journal of Mechanical Sciences, 105704
International journal of thermal sciences, 49(6), 1031-41