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Online since: February 2017
Authors: György Czél, Mate Zattler
Recycled raw materials can also be chosen in case if the function of product made it possible to apply lower tight material.
Factory made regranulated materials or grinded recyclate materials of external origin often appears in the injection moulding workshops as well.
Merely the markings of MDA 643 and MDA 656 of recycled PP materials were known.
MFI measurement when extrusion materials are intended to use for injection moulding.
Three different PP raw materials were compared in our example.
Factory made regranulated materials or grinded recyclate materials of external origin often appears in the injection moulding workshops as well.
Merely the markings of MDA 643 and MDA 656 of recycled PP materials were known.
MFI measurement when extrusion materials are intended to use for injection moulding.
Three different PP raw materials were compared in our example.
Online since: November 2016
Authors: G. Annino, L. Federici, Massimo Gabrieli, A. Ranavolo, N. Silvaggi, Vincenzo Bonaiuto
Finally, between the conductive fabric layers is placed a layer of special insulating material.
In this study, it was not verified the validity and the repeatability of the measurements along the time that could be affected by alteration in the property of the polymeric materials that compose the mat.
European Journal of Applied Physiology and Occupational Physiology, Berlin, v. 50, n. 2, pages 273-282, (1983) [2] Buckthorpe M, Morris J, Folland JP, Validity of vertical jump measurement devices, Journal of Sports Sciences, Volume 30, Issue 1, pages 63-69, (2012) [3] Laurent B, Berryman N and Dupuy O, A comparison of 2 optical timing systems designed to measure flight time and contact time during jumping and hopping, Journal of Strength & Conditioning Research, Volume 23 – Issue 9, pages 2660-2665, (2009)
[6] Harman EA, Rosenstein MT, Frykman PN, Rosenstein RM and Kraemer WJ, Estimation of Human Power Output From Vertical Jump, Journal of Applied Sport Science Research, Volume 5 - Issue 3, pages 116-120, (1991)
[7] Aragón-Vargas LF, Evaluation of four vertical jump tests: methodology, reliability, validity, and accuracy, Journal on Measurement in Physical Education and Exercise Science Vol. 4 No. 4 pp. 215-228, (2000) [8] Markovic G, Dizdar D, Jukic I, Cardinale M, Reliability and factorial validity of squat and countermovement jump tests, Journal of Strength & Conditioning Research, Volume 18 - Issue 3, pages 551-555, (2004)
In this study, it was not verified the validity and the repeatability of the measurements along the time that could be affected by alteration in the property of the polymeric materials that compose the mat.
European Journal of Applied Physiology and Occupational Physiology, Berlin, v. 50, n. 2, pages 273-282, (1983) [2] Buckthorpe M, Morris J, Folland JP, Validity of vertical jump measurement devices, Journal of Sports Sciences, Volume 30, Issue 1, pages 63-69, (2012) [3] Laurent B, Berryman N and Dupuy O, A comparison of 2 optical timing systems designed to measure flight time and contact time during jumping and hopping, Journal of Strength & Conditioning Research, Volume 23 – Issue 9, pages 2660-2665, (2009)
[6] Harman EA, Rosenstein MT, Frykman PN, Rosenstein RM and Kraemer WJ, Estimation of Human Power Output From Vertical Jump, Journal of Applied Sport Science Research, Volume 5 - Issue 3, pages 116-120, (1991)
[7] Aragón-Vargas LF, Evaluation of four vertical jump tests: methodology, reliability, validity, and accuracy, Journal on Measurement in Physical Education and Exercise Science Vol. 4 No. 4 pp. 215-228, (2000) [8] Markovic G, Dizdar D, Jukic I, Cardinale M, Reliability and factorial validity of squat and countermovement jump tests, Journal of Strength & Conditioning Research, Volume 18 - Issue 3, pages 551-555, (2004)
Online since: January 2014
Authors: Yong Qin Wen, Chao Cui
The test raw material and the method
2.1 Test materials
The clay of test taken from Hohhot, a site for the newly piled all disturbed clay, loose soil, soil and its main physical property indexes are shown in table 1.
[7] Qingwen Ma,Ping Xu, etc., Journal of building materials: 2010, 13 (1) : 57-61 [8] Zhiquan Zhang ,Guijuan Zhao, etc.
,natural science edition, 2007, 27 (5) : 20-23 [9] Xianzhi Huang, Xiaohong Bai.
Journal of building materials, 2006, 9 (3) : 291-296
China journal of highway, 2006, 19 (5) : 12-17
[7] Qingwen Ma,Ping Xu, etc., Journal of building materials: 2010, 13 (1) : 57-61 [8] Zhiquan Zhang ,Guijuan Zhao, etc.
,natural science edition, 2007, 27 (5) : 20-23 [9] Xianzhi Huang, Xiaohong Bai.
Journal of building materials, 2006, 9 (3) : 291-296
China journal of highway, 2006, 19 (5) : 12-17
Online since: March 2012
Authors: Pierluigi Priolo, Łukasz Figiel, C. Pisano
Taylor: Journal of Material Science Vol. 41, 3271-3297 (2006)
[8] S.R.
Cole: Journal of Science and Engineering of Composites Materials Vol. 17, (2010) [11] B.
Hoa: Journal of Composite Materials Vol. 41, 497-504 (2007) [16] J.
Buckley: Computational Materials Science Vol. 44, 1332-1343 (2009) [23] A.
Pegoretti: Journal of Composite Materials, in press
Cole: Journal of Science and Engineering of Composites Materials Vol. 17, (2010) [11] B.
Hoa: Journal of Composite Materials Vol. 41, 497-504 (2007) [16] J.
Buckley: Computational Materials Science Vol. 44, 1332-1343 (2009) [23] A.
Pegoretti: Journal of Composite Materials, in press
Online since: June 2011
Authors: Jian Feng Zhu, Lan Ye
Conclusion
Using Ti-Al-C-TiO2 as the raw materials, Ti3AlC2/Al2O3 composites materials were synthesized by hot pressing.
During the process of hot pressing, raw materials of Ti, C, Al and TiO2 firstly react to form the intermediate phases, such as TiC, Ti-Al inermetallics at relatively lower temperature.
Han et al.: Bulletin of materials science Vol. 33 (2010), p. 401 [2] X.P.
Chu: Journal of Alloys and Compounds Vol. 494 (2010), p. 132 [8] Z.B.
Huang: Materials Science and Engineering A.
During the process of hot pressing, raw materials of Ti, C, Al and TiO2 firstly react to form the intermediate phases, such as TiC, Ti-Al inermetallics at relatively lower temperature.
Han et al.: Bulletin of materials science Vol. 33 (2010), p. 401 [2] X.P.
Chu: Journal of Alloys and Compounds Vol. 494 (2010), p. 132 [8] Z.B.
Huang: Materials Science and Engineering A.
Online since: September 2015
Authors: Arisbel Cerpa, Francisco J. Alguacil, Maria Isabel Lado, Félix López
The different types of carbon nanotubes structures are promising materials for the treatment of metal-bearing solutions.
2.
International Journal of Chemical Science and Application, Vol 5, Issues 2 (2014) 56-67
Sorption of Cd(II) onto carbon-based materials-a comparative study.
Journal of Hazardous Materials, 166 (2009) 109-116
Diamond and Related Materials, 15 (2006) 90–94
International Journal of Chemical Science and Application, Vol 5, Issues 2 (2014) 56-67
Sorption of Cd(II) onto carbon-based materials-a comparative study.
Journal of Hazardous Materials, 166 (2009) 109-116
Diamond and Related Materials, 15 (2006) 90–94
Online since: November 2016
Authors: Miloš Janeček, Michal Hájek, Jozef Veselý, Petr Harcuba, Jana Šmilauerová, Pavel Zháňal
Hickman, The formation of omega phase in titaniumand zirconiumalloys: a review, Journal
of Materials Science 4 (6) (1969) 554-563
Chidambaram, Omega phase in materials, Progress in Materials Science 27 (3) (1982) 245-310. doi:10.1016/0079-6425(82)90002-0 [7] S.
Disegi, Implant Materials.
Cieslar, Precision of electrical resistivity measurements, Materials Science and Engineering: A 462 (1-2) (2007) 339-342. doi:10.1016/j.msea.2006.01.175[20] T.
Tanner, High resolution electron microscopy observations of athermal omega phase in Ti-Mo alloys, Materials Science Forum 56-58 (1990) 329-334. doi:10.4028/www.
Chidambaram, Omega phase in materials, Progress in Materials Science 27 (3) (1982) 245-310. doi:10.1016/0079-6425(82)90002-0 [7] S.
Disegi, Implant Materials.
Cieslar, Precision of electrical resistivity measurements, Materials Science and Engineering: A 462 (1-2) (2007) 339-342. doi:10.1016/j.msea.2006.01.175[20] T.
Tanner, High resolution electron microscopy observations of athermal omega phase in Ti-Mo alloys, Materials Science Forum 56-58 (1990) 329-334. doi:10.4028/www.
Online since: July 2011
Authors: Qi Bin Lin, Guang Tao Du
The “cross-shape” FMF used in this paper is soft magnetic materials.
Soft magnetic materials have found the most use in magnetic microsensors, microactuators, and microsystems[12].
Matovic: Journal of Mechanical Engineering Science Vol. 220(2006), p. 1645-1654
Alvarez et al.: Proceeding of the Institution of Mechanical Engineers, Part C: Journal of Micromechical Engineering Science Vol.10(2000), 204-208
Lin et al.: Journal of Semiconductors Vol. 31(2010)
Soft magnetic materials have found the most use in magnetic microsensors, microactuators, and microsystems[12].
Matovic: Journal of Mechanical Engineering Science Vol. 220(2006), p. 1645-1654
Alvarez et al.: Proceeding of the Institution of Mechanical Engineers, Part C: Journal of Micromechical Engineering Science Vol.10(2000), 204-208
Lin et al.: Journal of Semiconductors Vol. 31(2010)
Online since: March 2014
Authors: Yu Hong Chen, Li Li Zhang, Li Min Qi
Dispersion Behavior of Silicon Carbide Whisker
Zhang Lilia, Chen Yuhongb, Qi Liminc
School of Materials Science and Engineering, Beifang University of Nationalities, Ningxia, Yinchuan 750021, P.R.
Now Ningxia Jin Jing Science and Technology Development Co., Ltd developed a new process of SiC particle by silicon vapor-phase reaction.
Experimental The SiCw is from Jin Jing Science and Technology Development Co., Ltd, Ningxia.
References [1] WANG Qiuhong, ZHENG Yong, SUN Fan, et al.Preparation of SiC Wishker and Application in Reinforce of Composite Materials,J.Cemented Carbide.
BINNER.Characterization of silicon carbide and silicon powders by XPS and zeta potential measurement,Journal Of Materials Science Letters.20(2001)123– 126 [7] Jing Sun, Lian Gao.Dispersing SiC powder and improving its rheological behaviour,Journal of the European Ceramic Society.21 (2001) 2447–2451 [8] LI Hongzhen,FANG Guizhen,LI Junye,et al.Synthesis of PEI/MCC and Its Adsorption Character for Uric Acid.Polymer Materials Science And Engineering.
Now Ningxia Jin Jing Science and Technology Development Co., Ltd developed a new process of SiC particle by silicon vapor-phase reaction.
Experimental The SiCw is from Jin Jing Science and Technology Development Co., Ltd, Ningxia.
References [1] WANG Qiuhong, ZHENG Yong, SUN Fan, et al.Preparation of SiC Wishker and Application in Reinforce of Composite Materials,J.Cemented Carbide.
BINNER.Characterization of silicon carbide and silicon powders by XPS and zeta potential measurement,Journal Of Materials Science Letters.20(2001)123– 126 [7] Jing Sun, Lian Gao.Dispersing SiC powder and improving its rheological behaviour,Journal of the European Ceramic Society.21 (2001) 2447–2451 [8] LI Hongzhen,FANG Guizhen,LI Junye,et al.Synthesis of PEI/MCC and Its Adsorption Character for Uric Acid.Polymer Materials Science And Engineering.
Online since: March 2014
Authors: Masao Sakane, Takamoto Itoh, Hideyuki Kanayama, Masahiro Sakabe, Shu Li Liu, Takahiro Morishita, Norio Takeda
Kuwabara, Journal of the Society of Materials Science, Japan, Vol.36, No.403 (1987), pp.376-382
Socie, Transaction of the American Society of Mechanical Engineers, Journal of Engineering Materials and Technology, Vol.113, No.1 (1991), pp.23-30
Ameyama, Journal of the Society of Materials Science, Japan, Vol.41, No.468 (1992), pp.1361-1367
Socie, Transaction of the American Society of Mechanical Engineers, Journal of Engineering Materials and Technology; Vol.117, No.7 (1995), pp.285-292
Ozaki, Journal of the Society of Materials Science, Japan, Vol. 60, No. 2, (2011), pp. 88-93
Socie, Transaction of the American Society of Mechanical Engineers, Journal of Engineering Materials and Technology, Vol.113, No.1 (1991), pp.23-30
Ameyama, Journal of the Society of Materials Science, Japan, Vol.41, No.468 (1992), pp.1361-1367
Socie, Transaction of the American Society of Mechanical Engineers, Journal of Engineering Materials and Technology; Vol.117, No.7 (1995), pp.285-292
Ozaki, Journal of the Society of Materials Science, Japan, Vol. 60, No. 2, (2011), pp. 88-93