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Experimental Materials.
Journal of applied science and engineering 23.1 (2020): 61-68
Journal of Thermoplastic Composite Materials (2020): 0892705720939169
International journal of polymer science 2015 (2015)
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In order to meet the demand for materials for advanced fighter, countries have to focus on the development of [1] aluminum alloy at 300˚C temperature can replace the titanium alloy.
Starting from the influence of alloy composition on the performance of the organization and the melt, by controlling the rapid solidification process parameters, can significantly improve the performance and quality of metal materials, the organization, has opened up a new and effective way for the performance potential of mining materials, has broad application prospects[4,5].
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There are many ways of environmental management and comprehensive utilization of mine solid waste; recover useful elements, produce building materials, secondary energy recovery, fill the mine pit and collapse pit, paving, etc.
Introduction Mine solid waste is the remaining abandoned materials after the extraction of useful components from the mineral resources, including a lot of waste rocks from stripping the open pit mine and pit mining, gangue, tailings from mineral processing and slag from smelting etc[1].
Production of building materials (1)Take the block and solid waste as concrete aggregate Solid waste with larger particles could be processed into concrete aggregate .
Due to techniques, cost and other factors, high-grade building materials such as glass-ceramic granite, glass silicon which have been developed failed to obtain strong competition in the market
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Application of nonlinear viscoplastic constitutive modeling engineering problems could more accurately express the complex deformation behavior of materials, elastic deformation, plastic deformation and creep behaviour were take into account, could increase the accuracy of calculate results.
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Previous mass and heat transfer studies have concentrated on the reactor wall [1-5] and little has been done on the bottom of the reactor despite its importance in serving many design and operation purposes such as: (i) Prediction of the heat loss rate from the bottom of the reactor to the surrounding, accordingly, design an auxiliary cooling jacket under the tank bottom to remove excess heat generated in case of highly exothermic reactions which need rapid cooling such as immobilized cell or enzyme biochemical reactions which involve heat-sensitive materials involved in these reactions from thermal degradation.
Materials and Method Experimental setup.
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ACKNOWLEDGEMENT This project is financially supported by Fujian Natural Science Fund(2010J01295)and by Xiamen Science and Technology Project Fund (3502Z20093031)，Ph.D.
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The beam size and material parameters as shown in Table 1.
Acknowledgements This research was supported by National Natural Science Foundation of China(project No.51175005 and the Natural Science Foundation Key Project in Anhui Education Department(project No.KJ2011A094) References [1] Liang C., Sun F.
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Effects of B2O3 on Properties of Low Fluoride Content Mould Flux for Thin Slab Continuous Casting Yanqing Lu1,2,a, Guodong Zhang1,b and Maofa Jiang2,c 1School of Materials and Metallurgy, University of Science and Technology Liaoning, China 2School of Materials and Metallurgy, Northeastern University, China aluyanqing77@163.com, baszhangguodong@sina.com, c5223apple@163.com Keywords: B2O3, low content fluoride, mould flux, thin slab continuous casting Abstract.
Materials and methods According to mould flux used in thin slab CC practice, the industrial material, such as synthetic calcium silicate, wollastonite, sintering diatomite, cement and insulation brick powder were used in experiment.
Acknowledgements The present work was financially supported by Liaoning province Natural Fund (20082190), and the science and technology funds from Liaoning Province Education Department (2009T051).
Zhu: Journal of Iron and Steel Research, 12 (2000), p. 46 [2] Y.
He: Journal of University of Science and Technology Beijing, 11 (2006), p. 1019