Search results

Applied Mechanics and Materials Vol. 325-326 (2013) 1454-1459
Advanced Materials Research Vol. 712-715 (2013), 347-351
Inorganic Materials: Applied Research.  
Materials Science and Engineering A342 (2003) 58-/79 [9] Panckow A., Steffenhagen J., Lierath F.
Journal of Nano Research.

Materials for 3DP.
The 3DP process is quite flexible in choice of materials.
This article describes the chemical background of polymers and the relevance of these materials for future developments in RP.
[19] Stampfl J. and Liska R., New materials for rapid prototyping applications, Macromolecular Chemistry and Physics.
Proc. of 11th Punjab science congress, Patiala, India, 2008, 158

Advanced Composite Materials for Aerospace Engineering. 129 – 174. (2016)
Bitzer Honeycomb technology: materials, design, manufacturing, applications and testing.
Journal of Materials Science Letters. 13(3). 203 – 205. (1994) https://doi.org/10.1007/BF00278162 [17] W.
Davies A study of skin-core adhesion in glass fibre reinforced sandwich materials.
Journal of Sandwich Structures & Materials. 11, 4. 293 – 311. (2009) https://doi.org/10.1177/1099636209104513 [28] D.

Complementary cementitious materials are finely ground solid materials that are used to replace a portion of the cement in a concrete mixture.
These complementary materials may be naturally occurring, manufactured or natural waste [2].
Examples of pozzolanic materials are volcanic ash, pumice, opaline shales, burnt clay and fly ash.
Sharp sand was also subjected to Sieve analysis test in order to determine the gradation of the materials according to [10].
Cement reduction in construction industry translates to reduction in cost of construction and emission of CO2 gas. 5.0 Recommendation Having exhibited the highest compressive strength after 28 days curing period, it is recommended that the blend of 40%L:60%C be adopted to replace cement in mortar production for masonry, rendering, plastering and pointing applications References [1] Amankwah, E.O., Badiako, M., Kankam, C.K. (2014) “Influence of calcined clay pozzolana on strength characteristics of Portland cement concrete” International Journal of Materials Science and Applications, Vol. 3, Issue 6, pp. 410-419 [2] AL-Jumaily, I.A.S., Naji, N., Kareem, Q (2015) “An Overview on the Influence of Pozzolanic Materials on Properties of Concrete” International Journal of Enhanced Research in Science Technology and Engineering, Vol. 4, Issue 3, pp. 81-92 [3] Plenge, W.H (2002) “Roadmap 2030: The U.S Concrete Industry Technology Roadmap” Concrete Research and Education Foundation, U.S.A

Study on drying technology of sargassum fusiforme Shuxing Liu1a, Lili Zhu 1b＊,Shumeng Zhang1c 1College of Life Science&Engineering,Shaanxi University of Science&Technology,Xi’an,Shannxi,710021,China aliusx@sust.edu.cn,b2008zhulili@163.com,clongmer355@sohu.com Keywords: Sargassum fusiforme; Dry; Blanching; Hot air Abstract：A convenient and nutritious dried instant Sargassum fusiforme was developed by the study on the technology of drying with the raw materials of Sargassum fusiforme.
Materials and methods Materials Sargassum fusiform；purchased from the city Wenzhou; Electric Blast Oven(Wei Yongxing Science Instrument Co., Ltd.); DZF Vacuum dryer (Wei Yongxing Science Instrument Co., Ltd.); MF-50Halogen Moisture Analyzers (Hogon Scientific Instrument Co., Ltd) Methods Technological Process.
Chinese Journal of Marine Drugs, 1998 (3): 33-34
[6] Ratti C.Hot air and freeze-drying of high-value foods [J].Journal of Food Engineering, 2001, 49:311-319
Food Science, 2008, 29 (5): 212

Low Temperature Plasma-initiated Copolymerization of Acrylamide and Sodium Acrylate Wang Mingyang1,2,a, Wang Shenggao1,2,b, Zhang Wenbo1,2,c, Xu Kaiwei1,2,d 1Key Laboratory of Plasma Chemistry and Advanced Materials of Hubei Province, Wuhan 430074, China 2School of Material Science and Engineering, Wuhan Institute of Technology, Wuhan 430074, China awmy570491334@163.com, bwyysg@163.com, cdeboluoyi@126.com, dxukaiwei8@yahoo.com.cn Keywords: Plasma-initiated polymerization; Copolymerization; Atmospheric plasma Abstract.
Experimental Materials and Equipment.
Zhao: Journal of the Chemical Industry and Engineering Society of China.
Sumiyama: Nakanishi-European Polymer Journal.
Meng: Plasma Science & Technology Vol. 8 (2006), p. 433

Fabrication and Characterization of Cellulose Acetate Ultrafine Fibers Containing CdTe Quantum Dots by Electrospinning Dongmei Zhao1, 2, Liguo Sun3, Mingqiang Wang3, and Jian Li1a 1 College of Material Science and Engineering, Northeast Forest University, Harbin, 150040, China. 2Department of Food and Environment Engineering, Heilongjiang East University, Harbin, 150086, China 3School of Chemical Engineering and Materials, Heilongjiang University, Harbin, 150040, China.
It was because of the adding of QDs improving the crystallinity of the material that the temperature of weight loss rised and heat-resistant capacity was enhanced for composite fibers.
It indicated that burned material was not QDs but the polymer.
Journal of Colloid and Interface Science. 347(2010), p. 215 [10] T.
Journal of Applied Polymer Science. 119(2011), p. 803 [11] Z.

＆Eng.College, Henan University of Science and Technology, Luoyang 471003, China a email: sujh@mail.haust.edu.cn b email: liuping@mail.haust.edu.cn Keywords: Cu-Cr-Sn-Zn Alloy, Lead Frame, Aging Process, Artificial Neural Network Abstract.
Cu-Cr-Sn-Zn alloy is a material for lead frames with excellent soften resistivity, press formability, electroplatability, bondability, solderability and others[4].
(No.2002AA331112) References [1] H.J.Ryu, H.K.Baik: Journal of Materials Science Vol. 35 (2000), p. 3641 [2] F.X.Huang and J.S.Ma: Scripta materialia Vol. 48 (2003), p. 97 [3] P.Liu, B.X.Kang and X.G.Cao: Materials Science and Engineering Vol.
A265 (1999), p. 262 [4] F.Rensei: Journal of the Japan Copper and Brass Research Association Vol. 27 (1988), p.109 [5] Z.Zhang and K.Friedrich: Composites Science and Technology Vol.63 (2003), p. 2029 [6] Z.

Positron beam study of Co doped ZnO films prepared by PLD Ren Hongfeng1,a , Weng Huimin1,b , Ye Bangjiao1,c , Han Rongdian1 , Li Hui2 , and Gao Chuanbo1 1 Department of Modern Physics, University of Science and Technology of China, Hefei, Anhui 230026, China 2 Department of Material Science and Engineering, University of Science and Technology of China, Hefei, Anhui 230026, China a renhan@mail.ustc.edu.cn, bwenghm@ustc.edu.cn, cbjye@ustc.edu.cn Keywords: Co doped, ZnO films, Slow positron beam, Growth temperature Abstract Slow positron beam are used to study defect structures in Co doped and undoped ZnO films prepared by Pulsed Laser Deposition (PLD) at 400°C, 600°C, 700°C on c-plane sapphire.
With the benefits of positron annihilation and variable beam energy, it is a sensitive probe to detect open-volume defects in various materials such as metals, semiconductors, polymers and nanomaterials [4][5].
Slow positron beam in University of Science and Technology of China (USTC) are used in this work.
With the ability to separate information of defects in surface from inner layer as well as to provide more details about defect structures at atom level, positron beam is proved to be a powerful and sensitive tool for defects structure studies of DMS materials.
Nishitani et al., Journal of Applied Physics,Volume 90, Number 2, July 15, 2001 [7] Yan Zhao,Yijian Jiang,Yan Fang, Journal of Crystal Growth (2007) [8]Van Veen A et al., 1990, Slow Positron Beams for Solids and Surfaces ed Schultz P J et al (New York: American Institute of Physics), p171 [9] A.zubiaga, F.Tuomisto et al., Appl.

Compared with DAC (diamond anvil cell) static super-high pressure apparatus, the 6-8 type multianvil high pressure experimental apparatus can provide us a larger sample, which is convenient to test physical property and can be used to synthesize some new materials with special properties.
The sample pressure can be obtained through measuring the resistance changes associated with high pressure phase transition of metals, semiconductor materials.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China( Project No. 51302065 ) and the Funding of Henan University of Science and Technology ( Grant No. 2012QN027 ).
Liebermann, High Prssure Research: An International Journal. 31, 493 (2011) [3] D.
Hongsen, High Pressure Research: An International Journal. 32, 167 (2012) [11] E.C.