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At the same time, research directions №2 and №4 are actual since they are aimed at wastelessness of engineering and metallurgical enterprises, but for welding of critical structures these welding materials are allowed only in rare cases.
Guzei V.I., Kuzmenko V.G., Galinich V.I. et al. 4 Using salvage in ceramic welding flux manufacture Using a ladle steelmaking slag in the production of ceramic welding flux.
Ceramic welding flux manufacturing technology is developed.
Festus, Mixture experiments and their applications in welding flux design, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 30 (2008)
Atuanya, Formulation of a Metal Arc Welding Flux with a Potash Enriched Sodium Silicate Binder, Journal of Emerging Trends in Engineering and Applied Sciences, 3 (2012) 497-501

The Effect of Temperature on the Fundamental Characteristics of Self-Compacting No-Cement Refractory Castable Lenka NEVRIVOVA1,a* 1Brno University of Technology, Faculty of Civil Engineering, Institute of Technology of Building Materials and Components, Veveri 95, 602 00 Brno, Czech Republic anevrivova.l@fce.vutbr.cz Keywords: Self compacting refractory castable, Refractory castable corrosion, Corundum refractory castables.
Nevrivova, MgO Influence on the Fundamental Characteristics of Corundum Refractory Castables, Key Engineering Materials, Vol. 722, pp. 81-86, 2017 [2] M.
Journal American Ceramic Society, 81 (1998) 1385-1410 [6] A.P. da Luz, M.A.L.
Padolfelli, Refractory Castable Engineering, Baden-Baden Germany (2015), 3-10
Padolfelli, Refractory Castable Engineering, Baden-Baden Germany (2015), 3-10

Application of nanometer materials in ceramic The nano silver, zinc powder into the glaze stone ceramics, or coated with a layer of nanometer Ti02 thin film on ceramic surface, can kill bacteria.
Journal of Jilin Architecture and Civil Engineering Institute, 2003:27 32 [3] Gleiter H.Nanostructured Materials [J].Japan, Prog Mater Sci, 1989, (33):223
Foshan ceramic, 2003, 13 ( 2 ) :3 6 [5] Nianwei Zhao, Wang Wei.
Application of nanotechnology in engineering plastics.
Nanchang College Journal, 2002 ( 4 ) :74-76

Evaluation of mechanical properties of friction stir welded Al 6351 aluminium alloy with reinforcement particles in the weld region P.Karthikeyan¹, a * and K.Mahadevan², b ¹Research Scholar, Department of Mechanical Engineering, Pondicherry Engineering College, Puducherry – 605014, India. ²Professor, Department of Mechanical Engineering, Pondicherry Engineering College, Puducherry – 605014, India.
Materials science and engineering R 50 (2005) 1-78
Material science & Engineering A480(2008) 397-403
Materials science and engineering A459(2007)7-18
Material science and Engineering A 419 (2006) 25-31.

Study on Carbon Fiber Composite Materials Cutting Tools Mingyang Wu1,a, Mulin Tong2,b, Yiwen Wang3,c, Wei Ji4,d and Yu Wang5,e The key lab of National and Local United Engineering for "High-Efficiency Cutting & Tools", Harbin Univ. of Sci. and Tech, Harbin, 150080, P.
International Journal of Machine Tools and Manufacture,2003,(43):1087-1092
Gao, Materials Engineering,2009, No. 2, pp. 254-255.
Journal of the Japan Institute of Metals, 2005, 69(12): 1064-1068
SAMPLE Journal, 2013, 49(2): 20-21

So, adding La2O3 to Al2O3 or adding Al2O3 to La2O3 is considered the promising material engineering to get high dielectric constant and good thermal stability materials.
Gunay, Ceramics International Vol. 30 (2004), 163-170
Kompany, Ceramics International Vol. 31(2005), 671-675
Wang, Journal of Applied Physics Vol. 104 (2008), 053503-7
Wang, Journal of Applied Physics Vol. 104 (2008), 073518-7

Exploratory studies have demonstrated the potential uses for BCP ceramics as a scaffold for tissue engineering for bone regeneration, gene therapy and drug delivery.
BCP scaffolds for bone tissue engineering Tissue engineering for bone regeneration involves the seeding of osteogenic cells on to appropriate scaffolds and subsequent implantation of the seeded scaffolds into the bone defect.
These results indicate that the improved MBCP is a suitable matrix for bone tissue engineering.
Macro micro porous bioceramics are certainly good scaffolds for bone tissue engineering.
Tissue Engineering and Biodegradable Equivalents.

Huang, Materials Science & Engineering C, Biomimetic and Supramolecular Systems 27[2] (2007) p. 257-61
Miao, International Conference on Frontiers in Materials Science & Technology (FMST2008) 2008 p.211-14
Mansur, Journal of Materials Science 43[2] (2008) p.510-24
Purquerio, Key Engineering Materials 396-398 (2009) p.699-702
Miao, Journal of Materials Science 40[23] (2005) p.6145-50

An Improved Thermal-electric-displacement Coupled SPS FEM Simulation Yi Song1, a, Zhaoyao Zhou1, b, Zhicheng Chen1, c, and Yongquan Ye1, d 1School of Mechanical and Automotive Engineering, South China University of Technology, Guangzhou 510640, China a songyi0591@gmail.com, b zhyzhou@scut.edu.cn, c 258000652@qq.com, d 107502466@qq.com Keywords: FEM simulation, Spark plasma sintering, Powder, Coupled, Relative density.
References [1] A Zavaliangos, J Zhang, M Krammer and JR Groza: Materials Science and Engineering: A, Vol. 379 (2004), p. 218 [2] D Tiwari, B Basu, K Biswas: Ceramics International, Vol. 35 (2009), p. 699 [3] G Maizza, S Grasso, Y Sakka: Journal of Materials Science, Vol. 44 (2009), p. 1219 [4] J Yang, Y Li, X Li, L Guo, W Chen: Tezhong Zhuzao Ji Youse Hejin/Special Casting and Nonferrous Alloys, Vol. 27 (2007), p. 24 [5] X-M Liu, X-Y Song, J-X Zhang, S-X Zhao, J Wei: Zhongguo Youse Jinshu Xuebao/Chinese Journal of Nonferrous Metals, Vol. 18 (2008), p. 221 [6] DM Hulbert, D Jiang, U Anselmi-Tamburini, C Unuvar, AK Mukherjee: Materials Science and Engineering: A, Vol. 488 (2008), p. 333 [7] K Vanmeensel, A Laptev, O Van der Biest, J Vleugels: Journal of the European Ceramic Society, Vol. 27 (2007), p. 979 [8] J Zhang, A Zavaliangos, M Kraemer, J Groza: Proceedings of a symposium on Modelling the Performance of Engineering Structural Materials III, October 7, 2002 - October 10, 2002Minerals
[9] U Anselmi-Tamburini, S Gennari, JE Garay, ZA Munir: Materials Science and Engineering A, Vol. 394 (2005), p. 139
[10] B McWilliams, A Zavaliangos: Journal of Materials Science, Vol. 43 (2008), p. 5031

Study on Material Removal Mechanism of Silicon Nitride during ELID Ultraprecision Grinding Weidong Jin School of Mechatronics Engineering, CIT, Changzhou 213002, China Wdjin1968@126.com Keywords: Material removal mechanism, Silicon Nitride, ELID(Electrolytic In-process Dressing), Ultraprecision grinding Abstract.
Based on the analyzing ultraprecision grinding process of hard and brittle materials, taking ELID grinding of silicon nitride ceramic as an example, active control technology of passivating films state was introduced in this paper.
Conclusions Taking ELID grinding of silicon nitride ceramic as an example, comparative study of ELID grinding at adaptive dynamic balance mode, discontinuous electrolyzing mode and discontinuous grinding mode was introduced in this paper.
References [1] B.P.Bandyopadhyay, H.Ohmori and I.Takahashi: Journal of Material Process Technology, Vol.66 (1997), p.18-24 [2] G.
Ohmori: International Journal of Machine Tools & Manufacture, Vol.39 (1999), p.839-853 [5] C.