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Online since: July 2014
Authors: Ling Ji
Materials Science and Engineering: R: Reports, 2005, 50(1): 1-78
Journal of materials engineering and performance, 2013, 22(6): 1558-1564
Metallurgical and Materials Transactions A, 2013: 1-10
Materials & Design, 2011, 32(2): 535-549
Journal of Lanzhou University o f Technology,2010,1- 4.
Journal of materials engineering and performance, 2013, 22(6): 1558-1564
Metallurgical and Materials Transactions A, 2013: 1-10
Materials & Design, 2011, 32(2): 535-549
Journal of Lanzhou University o f Technology,2010,1- 4.
Online since: April 2016
Authors: Jaromir Hubálek, Jiří Smilek, Martina Klučáková, Hana Kynclová, Jan Prášek, Petr Sedlacek
Experimental
Materials and methods
Aluminium foil (99.999 %, Goodfellow, UK), sulphuric acid (H2SO4, 96 % p.a., Penta), oxalic acid ((COOH)2, p.a.
The authors thank the Ministry of Education, Youth and Sports of Czech Republic for the support of the project Sustainability and Development REG LO1211 addressed to the Materials Research Center at FCH VUT.
References [1] Vida-Simiti I, Nemes D, Jumate N, et al.: Jom, 64 (2012), 10, 1143-1147 [2] Sulka G D and Parkola K G: Thin Solid Films, 515 (2006), 1, 338-345 [3] Masuda H and Fukuda K: Science, 268 (1995), 5216, 1466-1468 [4] Gultepe E, Nagesha D, Sridhar S, et al.: Advanced Drug Delivery Reviews, 62 (2010), 3, 305-315 [5] Ding G Q, Zheng M J, Xu W L, et al.: Nanotechnology, 16 (2005), 8, 1285-1289 [6] Pancholi A, Stoleru V G and Kell C D: Nanotechnology, 18 (2007), 21, [7] Lim J H and Wiley J B: Journal of Nanoscience and Nanotechnology, 15 (2015), 1, 633-641 [8] Zhang J P, Kielbasa J E and Carroll D L: Materials Chemistry and Physics, 122 (2010), 1, 295-300 [9] Hrdy R, Kynclova H, Drbohlavova J, et al.: International Journal of Electrochemical Science, 8 (2013), 4, 4384-4396 [10] Kynclova H, Pribyl J, Hrdy R, et al. (2014).
[11] Poinern G E J, Ali N and Fawcett D: Materials, 4 (2011), 3, 487-526 [12] Treccani L, Klein T Y, Meder F, et al.: Acta Biomaterialia, 9 (2013), 7, 7115-7150 [13] Stroeve P and Ileri N: Trends in Biotechnology, 29 (2011), 6, 259-266 [14] Schneider J J, Engstler J, Budna K P, et al.: European Journal of Inorganic Chemistry, 2005 (2005), 12, 2352-2359 [15] Santos A, Kumeria T and Losic D: Materials, 7 (2014), 4297-4320 [16] Kant K, Yu J X, Priest C, et al.: Analyst, 139 (2014), 5, 1134-1140 [17] de la Escosura-Muniz A, Chunglok W, Surareungchai W, et al.: Biosensors & Bioelectronics, 40 (2013), 1, 24-31 [18] Lin K C, Kunduru V, Bothara M, et al.: Biosensors & Bioelectronics, 25 (2010), 10, 2336-2342 [19] Deng J J and Toh C S: Sensors, 13 (2013), 6, 7774-7785 [20] Kant K, Priest C, Shapter J G, et al.: Electrochimica Acta, 139 (2014), 225-231 [21] Cheow P-S, Zhi E, Ting C, et al.: Electrochimica Acta, 53 (2008), 14, 4669-4673 [22] Osmanbeyoglu H U, Hur T B and Kim H K: Journal
of Membrane Science, 343 (2009), 1-2, 1-6 [23] Boss C, Meurville E, Sallese J M, et al.: Journal of Membrane Science, 401 (2012), 217-221 [24] Zaraska L, Kurowska E, Sulka G D, et al.: Journal of Solid State Electrochemistry, 16 (2012), 11, 3611-3619 [25] Tripathy J and Wiley J B: Journal of Solid State Electrochemistry, 19 (2015), 5, 1447-1452 [26] Tian M L, Xu S Y, Wang J G, et al.: Nano Letters, 5 (2005), 4, 697-703
The authors thank the Ministry of Education, Youth and Sports of Czech Republic for the support of the project Sustainability and Development REG LO1211 addressed to the Materials Research Center at FCH VUT.
References [1] Vida-Simiti I, Nemes D, Jumate N, et al.: Jom, 64 (2012), 10, 1143-1147 [2] Sulka G D and Parkola K G: Thin Solid Films, 515 (2006), 1, 338-345 [3] Masuda H and Fukuda K: Science, 268 (1995), 5216, 1466-1468 [4] Gultepe E, Nagesha D, Sridhar S, et al.: Advanced Drug Delivery Reviews, 62 (2010), 3, 305-315 [5] Ding G Q, Zheng M J, Xu W L, et al.: Nanotechnology, 16 (2005), 8, 1285-1289 [6] Pancholi A, Stoleru V G and Kell C D: Nanotechnology, 18 (2007), 21, [7] Lim J H and Wiley J B: Journal of Nanoscience and Nanotechnology, 15 (2015), 1, 633-641 [8] Zhang J P, Kielbasa J E and Carroll D L: Materials Chemistry and Physics, 122 (2010), 1, 295-300 [9] Hrdy R, Kynclova H, Drbohlavova J, et al.: International Journal of Electrochemical Science, 8 (2013), 4, 4384-4396 [10] Kynclova H, Pribyl J, Hrdy R, et al. (2014).
[11] Poinern G E J, Ali N and Fawcett D: Materials, 4 (2011), 3, 487-526 [12] Treccani L, Klein T Y, Meder F, et al.: Acta Biomaterialia, 9 (2013), 7, 7115-7150 [13] Stroeve P and Ileri N: Trends in Biotechnology, 29 (2011), 6, 259-266 [14] Schneider J J, Engstler J, Budna K P, et al.: European Journal of Inorganic Chemistry, 2005 (2005), 12, 2352-2359 [15] Santos A, Kumeria T and Losic D: Materials, 7 (2014), 4297-4320 [16] Kant K, Yu J X, Priest C, et al.: Analyst, 139 (2014), 5, 1134-1140 [17] de la Escosura-Muniz A, Chunglok W, Surareungchai W, et al.: Biosensors & Bioelectronics, 40 (2013), 1, 24-31 [18] Lin K C, Kunduru V, Bothara M, et al.: Biosensors & Bioelectronics, 25 (2010), 10, 2336-2342 [19] Deng J J and Toh C S: Sensors, 13 (2013), 6, 7774-7785 [20] Kant K, Priest C, Shapter J G, et al.: Electrochimica Acta, 139 (2014), 225-231 [21] Cheow P-S, Zhi E, Ting C, et al.: Electrochimica Acta, 53 (2008), 14, 4669-4673 [22] Osmanbeyoglu H U, Hur T B and Kim H K: Journal
of Membrane Science, 343 (2009), 1-2, 1-6 [23] Boss C, Meurville E, Sallese J M, et al.: Journal of Membrane Science, 401 (2012), 217-221 [24] Zaraska L, Kurowska E, Sulka G D, et al.: Journal of Solid State Electrochemistry, 16 (2012), 11, 3611-3619 [25] Tripathy J and Wiley J B: Journal of Solid State Electrochemistry, 19 (2015), 5, 1447-1452 [26] Tian M L, Xu S Y, Wang J G, et al.: Nano Letters, 5 (2005), 4, 697-703
Online since: June 2014
Authors: Bao Jun Pang, Wen Lai Ma, Wei Zhang
It is shown that the DC characteristics are different with impact velocities, t/d and bumper materials[10,11].
The bumper materials are Kevlar, magnesium, aluminum 2024, titanium, molybdenum, lead and tungsten.
The projectile and bumper materials were modeled with the SPH technique.
The projectile and bumper materials are discretized as a set of particles with size of 0.05mm.
The DC characteristics vary with impact velocities, t/d and bumper materials.
The bumper materials are Kevlar, magnesium, aluminum 2024, titanium, molybdenum, lead and tungsten.
The projectile and bumper materials were modeled with the SPH technique.
The projectile and bumper materials are discretized as a set of particles with size of 0.05mm.
The DC characteristics vary with impact velocities, t/d and bumper materials.
Online since: March 2016
Authors: Hong Xu, Xin Zhang, Chang Shun Wang, Jin Chuan Hu, Cheng Wang, Chang Hua Liu, Wei Hua Zhang
The structure of stircast Al-Cu[J], Journal of Materials Science,1985,20,20:4335-4344
[9]Li T, Huang W D, et al.
Journal of Materials Processing Technology, 2002, 125-126(1-2): 309-316
Journal of Wuhan University of Technology-Materials Science Edition, 2007, 22(1): 74-76
Journal of Materials Processing Technology, 2003, 138 (8): 306-310 [46] Chen X Y, Zeng D B.
Journal of Materials Science and Technology, 1995, 5(11):312- 324
Journal of Materials Processing Technology, 2002, 125-126(1-2): 309-316
Journal of Wuhan University of Technology-Materials Science Edition, 2007, 22(1): 74-76
Journal of Materials Processing Technology, 2003, 138 (8): 306-310 [46] Chen X Y, Zeng D B.
Journal of Materials Science and Technology, 1995, 5(11):312- 324
Online since: August 2013
Authors: Ming Long Yuan, Hong Li Li, Guo Xian Zhou, Ming Wei Yuan, Lin Jiang
Journal of materials science Materials in medicine, Vol. 23 (2012), p.1371
[3] H.S.
Journal of Applied Polymer Science, Vol. 109(2008), p. 3087 [4] K.W.
Cai, Journal of Applied Polymer Science, Vol.116(2010), p. 2866 [7] S.
Advanced Materials Research, Vol. 364 (2012), p. 317 [8] P.
Materials and Design,Vol. 31(2010),p. 3289 [10]O.
Journal of Applied Polymer Science, Vol. 109(2008), p. 3087 [4] K.W.
Cai, Journal of Applied Polymer Science, Vol.116(2010), p. 2866 [7] S.
Advanced Materials Research, Vol. 364 (2012), p. 317 [8] P.
Materials and Design,Vol. 31(2010),p. 3289 [10]O.
Online since: September 2019
Authors: Pu Guang Ji, Elizaveta Bobrynina, Oleg Tolochko, Fu Xing Yin, Dan Dan Qi, Gong Kai Wang
Effect of Nanocarbons Additions on the Microstructures and Properties of Copper Matrix Composite by Spray Drying Process
Ji Puguang1,2,3,4,a*, Qi Dandan1,2,3,b and Yin Fuxing1,2,3,c*,
Wang Gongkai1,2,3,d, Elizaveta Bobrynina5, Oleg Tolochko5
1Research Institute for Energy Equipment Materials, Hebei University of Technology, Tianjin 300130, China
2School of Material Science & Engineering, Hebei University of Technology, Tianjin 300130, China
3Tianjin Key Laboratory of Materials Laminating Fabrication and Interface Control Technology, Hebei University of Technology, Tianjin 300130, China
4Cangzhou Hegong Science and Technology Park Construction and Investment Co., Ltd.
Thus composite materials copper with a fullerene soot content 1-5 wt.% have been produced.
Hong, Electrical and mechanical properties of carbon nanotube reinforced copper nanocomposites fabricated by electroless deposition process, Materials Science & Engineering A 513–514 (2009) 247–253 [3] K.
George, Processing of copper–carbon nanotube composites by vacuum hot pressing technique, Materials Science & Engineering A 560 (2013) 365–371 [6] E.S.Vasil'eva, S.V.
Guan, Tribological properties of copper matrix composites reinforced with homogeneously dispersed grapheme nanosheets, Journal of Materials Science & Technology (2018) https://doi.org/10.1016/j.jmst.2018.02.010
Thus composite materials copper with a fullerene soot content 1-5 wt.% have been produced.
Hong, Electrical and mechanical properties of carbon nanotube reinforced copper nanocomposites fabricated by electroless deposition process, Materials Science & Engineering A 513–514 (2009) 247–253 [3] K.
George, Processing of copper–carbon nanotube composites by vacuum hot pressing technique, Materials Science & Engineering A 560 (2013) 365–371 [6] E.S.Vasil'eva, S.V.
Guan, Tribological properties of copper matrix composites reinforced with homogeneously dispersed grapheme nanosheets, Journal of Materials Science & Technology (2018) https://doi.org/10.1016/j.jmst.2018.02.010
Online since: June 2014
Authors: Li Ya Xia, Yan Ping Pang, Shao Long Yu, Pei Yun Chen, Dong Jun Gong
In recent years, Near- infrared (NIR) spectroscopy has become one of the most attractive and used methods for analysis of agricultural-related products and plant materials allowing for the simultaneous, rapid and nondestructive quantification of major components in the food matrix[7-9].
Materials and methods Materials The collected Codonopsis pilosulc from different origins was purchased in the local and all products are grown in the year.
Acknowledgements This work was financially supported by the Special Fund for Quality-Science Research project "doubles strike" key geographical indication protection technology on the origin of Chinese medicinal materials inspection appraisal method (2012104019-4) References [1] Chen H T, Tsai Y L, Chen Y S, et al: The American journal of Chinese medicine, Vol. 38(2010), p. 359
[2]Zhuang S R, Chiu H F, Chen S L, et al: British Journal of Nutrition, Vol. 107(2012), p. 712
[4] Luo H, Lin S, Ren F, et al: Journal of Food Protection, Vol. 70(2007), p.1440 [5] Shan B E, Zeki K, Sugiura T, et al: Cancer Science, Vol. 91(2000), p.383 [6] Liu G Z, Cai D G and Shao S: Journal of traditional Chinese medicine, Vol. 8(1988), p.41 [7] Cozzolino, Daniel, Heather Eunice Smyth, and Mark Gishen : Journal of Agricultural and Food Chemistry , Vol. 26(2003), p. 7703 [8] Smyth HE, Cozzolino D : Curr Bioact Comp , Vol. 7(2011), p. 66 [9] Cozzolino, Daniel : Drug Development Research , Vol. 8(2012), p. 504
Materials and methods Materials The collected Codonopsis pilosulc from different origins was purchased in the local and all products are grown in the year.
Acknowledgements This work was financially supported by the Special Fund for Quality-Science Research project "doubles strike" key geographical indication protection technology on the origin of Chinese medicinal materials inspection appraisal method (2012104019-4) References [1] Chen H T, Tsai Y L, Chen Y S, et al: The American journal of Chinese medicine, Vol. 38(2010), p. 359
[2]Zhuang S R, Chiu H F, Chen S L, et al: British Journal of Nutrition, Vol. 107(2012), p. 712
[4] Luo H, Lin S, Ren F, et al: Journal of Food Protection, Vol. 70(2007), p.1440 [5] Shan B E, Zeki K, Sugiura T, et al: Cancer Science, Vol. 91(2000), p.383 [6] Liu G Z, Cai D G and Shao S: Journal of traditional Chinese medicine, Vol. 8(1988), p.41 [7] Cozzolino, Daniel, Heather Eunice Smyth, and Mark Gishen : Journal of Agricultural and Food Chemistry , Vol. 26(2003), p. 7703 [8] Smyth HE, Cozzolino D : Curr Bioact Comp , Vol. 7(2011), p. 66 [9] Cozzolino, Daniel : Drug Development Research , Vol. 8(2012), p. 504
Online since: June 2014
Authors: Di Shi Bian, Dan Hong Chen
Academic journal of Zhongzhou, No 4(2007), p.71-73
[4] S.J.Chang, Wang S.X.
Research on Development of Tourism Industry Cluster.Journal of Zhengzhou University of High Industry (Social Science), No 5,(2006), p. 52-55 [5] T.G,Yan.
On Upgrading Industrial Cluster Based on Cluster Innovation Network.Journal of Yancheng Teachers University (Humanities & Social Sciences), No 2(2008 ),p.33-39 [7] Y.Z.
Journal of Yanbei Normal University, No 5(2005), p. 22-23 [8] S.J.Chang, Wang S.X.
Journal of Zhengzhou University of High Industry (Social Science), No 5(2006), p. 52-55 [9] M.X.Yang.
Research on Development of Tourism Industry Cluster.Journal of Zhengzhou University of High Industry (Social Science), No 5,(2006), p. 52-55 [5] T.G,Yan.
On Upgrading Industrial Cluster Based on Cluster Innovation Network.Journal of Yancheng Teachers University (Humanities & Social Sciences), No 2(2008 ),p.33-39 [7] Y.Z.
Journal of Yanbei Normal University, No 5(2005), p. 22-23 [8] S.J.Chang, Wang S.X.
Journal of Zhengzhou University of High Industry (Social Science), No 5(2006), p. 52-55 [9] M.X.Yang.
Online since: June 2011
Authors: Long Fei Wang, Chun Sheng Yang, Yi Gui Li, Jing Quan Liu, Xiao Xiao Yan
For these applications, microneedles may vary in materials, fabrication process, geometry and size.
Materials in microneedles are silicon [7], metals [8], polymers [9].
Stemme: submitted to Journal of microelectromechanical systems (2003)
Ye, etal: submitted to Microelectronics Journal (2005)
Chou: submitted to Tamkang Journal of Science and Engineering (2004)
Materials in microneedles are silicon [7], metals [8], polymers [9].
Stemme: submitted to Journal of microelectromechanical systems (2003)
Ye, etal: submitted to Microelectronics Journal (2005)
Chou: submitted to Tamkang Journal of Science and Engineering (2004)
Online since: August 2011
Authors: Xiao Gang Wang, Xin Zhan Li, Qin Zheng
And it opens our mind to utilize body-scanning technology for deeper science research.
For scanning to become a freely used technology, we have to consider the potential use for deeper science research [1].
In China more than 75 millions woman warm jackets were produced in every year/2/. 89 patterns were collected from the fashionable journals or magazines in China and Russia, which the time is beginning from 1978.
The angle is used to present the property of textile material.
More and more science research will be engaged in with scanning system.
For scanning to become a freely used technology, we have to consider the potential use for deeper science research [1].
In China more than 75 millions woman warm jackets were produced in every year/2/. 89 patterns were collected from the fashionable journals or magazines in China and Russia, which the time is beginning from 1978.
The angle is used to present the property of textile material.
More and more science research will be engaged in with scanning system.