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Analysis of Mechanical Performance and Microstructure of Steel Slag Processed with Accelerated Carbonation Qisheng Wu1,a*, Hongxia Gu2,b, Tao Yang1,c, Changsen Zhang1,d, Zhian Min3,e, Yang Wu2,f 1School of Materials Science and Engineering, Yancheng Institute of Technology, Jiangsu Yancheng, 224051, China 2School of Materials Science and Engineering, Jiangsu University, Jiangsu Zhenjiang, 212013, China 3College of Materials Science and Engineering, Beijing University of Chemical Technology, Beijing, 100029, China aqishengwu@ycit.cn, b2287840185@qq.com, c370341662@qq.com, dzcs@ycit.cn, e782179783@qq.com, f1131574406@qq.com Keywords: Steel slag; Carbonation; Pressure Steaming; Calcium and Magnesium Carbonate; Spurrite Abstract.
Experiments Pretreatment and Characterization of Raw Materials.
Performance evaluation for carbonation of steel-making slags in a slurry reactor, Journal of Hazardous Materials. 186(1) (2011) 558
Leaching modelling of slurry-phase carbonated steel slag, Journal of Hazardous Materials. 302 (2015) 415
Carbonated Ladle Slag Fines for Carbon Uptake and Sand Substitute, Journal of Materials in Civil Engineering. 21(11) (2009) 657-665

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Water and soil resources are important material basis, upon which human subsistence and development are relying.
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Prostheses and implants are being developed from nanostructured materials with the unique properties that can lead to novel tissue engineering [3,5].
Comparing the generated materials with all calcined teperature, there are no obvious changes in structure and phase composition with showed a good crystalline.
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This is due to the little confidence on innovative materials and the limited knowledge about them.
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Materials Science and Engineering: C, 69, 380-387
Journal of the mechanical behavior of biomedical materials, 61, 590-599
Journal of Materials Science: Materials in Medicine, 23(7), 1605-1617
Materials Science and Engineering: C, 54, 20-25
Dental Materials, 32,e50-e51

Experimental Materials and Methods Mg-8.9wt%Al-0.53wt%Zn alloy ingots are adopted as the materials for experiment.
Acknowledgements The present research is supported by the National Natural Science Foundation of China (Grant No. 50735005, No.50605059), Natural Science Foundation for Young Scientists of Shanxi Province, China (Grant No.2007021026), and Natural Science Foundation of North University of China.
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Application of ultrasonic welding technology 2.1 Material weldability USW cannot be applied in all materials.
Materials used in textile and apparel industry belong to the third group.
Fig. 2 Thermo-adhesive seam Fig. 1 Functional diagram of ultrasonic welding 2) Influence of physical parameter of welding materials When welding materials, its weldablility must be taken into consideration primarily.
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The preparation of test materials.
Hot melt should overflow from heat shrinkable materials or it should be re-heated to adhesive overflow as qualified.
The anti-stripping test of anchor protection by heat shrinkable materials The method for anti-stripping test of prestressed anchor protection by heat shrinkable materials is based on the test specification close to domestic industries [15, 16] for design and test.
Through the anchorage on the face of thermal protection materials, construction technology testing, thermal protection materials, electrical insulation and sealing anchor test and thermal protection materials, peel test shows that using heat shrinkable material to protect prestressed anchor has the advantages of simple and reliable construction process, short construction period, low cost, good electrical insulation, as well as sealing and anti-peel strength.
(In Chinese) [9] Jules jade and so on: China Safety Science Journal, Vol. 16, NO.2 (2006), p136-140.