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Morsi, Review: reaction synthesis processing of Ni–Al intermetallic materials, Materials Science and Engineering: A, 299 (2001) 1-15
Weatherly, A study of combustion synthesis of Ti-Al intermetallic compounds, Journal of Materials Science, 31 (1996) 3707-3713
Zhou, Characterization of mechanically alloyed Ti–Al–Si powder blends and their subsequent thermal stability, Materials Science and Engineering: A, 338 (2002) 282-298
Suryanarayana, Mechanical alloying and milling, Progress in Materials Science, 46 (2001) 1-184
Zavaliangos, Sintering activation by external electrical field, Materials Science and Engineering: A, 287 (2000) 171-177

Acknowledgements The authors gratefully acknowledge the financial support of this research by National Natural Science Foundation of China (No. 51235004, No. 51375235), Science and Technology Supporting Program of Jiangsu Province (No.
Bauer, Finite element modeling approaches in grinding, International Journal of Machine Tools and Manufacture. 49 (2009) 109
Cai, Study on the single grain high-speed grinding mechanism, Journal of Northeastern University (Natural Science). 23(5) (2002) 470-473
Finite element simulation of the orthogonal metal cutting process, Materials Science Forum. 471-472 (2004) 582-586
Branis, Finite element simulation of chip formation in orthogonal metal cutting, Journal of Materials Processing Technology. 110(5) (2001) 19-27

Two kinds of materials will be discussed.
Metallurgica,21,249-253,(1987) [5] HYZAK , METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 7, 8, 1217-1224, 1976 [6] E.O.Hall, Proc.
[12] RIDLEY N, METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE Volume: 15 Issue: 6 Pages: 1019-1036, 1984 [13] Porter D.A.EASTERLING KE, SMITH GDW, ACTA METALLURGICA Volume: 26 Issue: 9 Pages: 1405-1422 Published: 1978 [14] ATASOY OE, OZBILEN S, JOURNAL OF MATERIALS SCIENCE Volume: 24 Issue: 1 Pages: 281-287, (1989)
Harrogate, Paper1 [25] B.Garbarz and F.B.Pickering, Materials Science and Technology, 4, 967, (1988) [26] M.
I., Shikov A., Nikulin A.and Vorobieva A., Materials Science and Engineering, 1999, A267, 99

Tool Logistics In The Centre Of Excellence Of 5-Axis Machining Ivan Baránek 1, a, Ivan Buranský 1,b 1 Institute of Production Technologies, Faculty of Materials Science and Technology Slovak University of Technology in Bratislava, Slovakia a ivan.baranek@stuba.sk, b ivan.buransky@stuba.sk Keywords: Logistics, 5-axis Machining, Heat Clamping, Balancing, Tool Inspection, Sharpening.
It applies general solutions in tool logistics system in the Centre of Excellence of 5-axis Machining at Faculty of Materials Science and Technology in Trnava.
Tool Logistics System In The CE5AM The Centre of Excellence of 5-axis Machining (CE5AM) at the Faculty of Materials Science and Technology in Trnava supports essential technologies of 5-axis machining.
Balanced setup can be achieved by different methods e.g.: by adding weights, removing material or utilizing settable compensations.
Influence of tool balancing on machined surface quality in high speed machining. - ITMS 26220120045. - article published in Journal of Production Engineering, ISSN 1821-4932, Vol. 15, No. 1, 2011, str. 11-14.

The use of corrosion inhibitors, cathodic/anodic protection, corrosion-resistant materials, corrosion monitoring, and inspection tool has been severely utilized in protecting metals against corrosion.
Experimental Materials.
Rocco, et al., Glycine max meal extracts as corrosion inhibitor for mild steel in sulphuric acid solution, Journal of Materials Research and Technology. (2020) 912756-12772
Chen, et al., Papaya leaves extract as a novel eco-friendly corrosion inhibitor for Cu in H2SO4 medium, Journal of Colloid and Interface Science, 582 (2021) 918-931
Sreedhar, Lactobionic Acid as a New Synergist in Combination with Phosphonate–Zn (II) System for Corrosion Inhibition of Carbon Steel, Journal of Materials Science & Technology. 30 (2014) 77-89

It is an effective way to surface strengthening of metallic materials.
Besides, he built up The deformation and diffusion model of the nanocrystalline material was built up by the auther.The friction damage and the sliding contact fatigue damage under sliding contact load were analyzed by using the nanocrystalline material with the average grain size smaller than 100nm, micro nanocrystalline materials with 100nm~1000nm and micron materials[18].
The results show that the nanocrystalline materials not only can perfectly resist the friction damage and sliding contact fatigue damage, but also reduced the friction coefficient obviously comparing with the micro nanocrystalline materials and the micron materials.
The nanocrystalline microstructure obtained can enhance the strength of the materials in certain degree.
Ovid’ko: International Materials Reviews, Vol.50(2005), p.65 [18]T.

To reduce or eliminate the fibrous encapsulation layer, N2/H2 plasma treatment process is used to modify the polyurethane which is the most materials of the bio-electrode.
Modified layers are only a few nanometers in thickness and have no influence on the functions of the materials, and the surface modification can change the wettability and promote the adhesivity of cells on the materials.
Materials and Methods L Kam et al. studied the effect of borosilicate glass on astrocytes and fibroblas after grafting biological polypeptide molecular on its surface.
Matsuura: Journal of Applied Polymer Science Vol. 115 (2010), p.855 [4] A.E.
Wenxu: Journal of Zhejiang University (Natural Science) vol. 01 (1999), p.74

To develop new stent coating materials, it is critical to selectively inhibit smooth muscle cell proliferation without affecting the proliferation and repair of endothelial cells.
Discussion Current coated drug stents are mainly rapamycin and paclitaxel-eluting stents.The non-selective cytotoxicity of the coating materials can induce the endothelial damage.
To develop new highly efficient and specific stent coating materials, it is critical to inhibit smooth muscle cell proliferation without affecting endothelial cell repair.
Acknowledgements The project was supported by National Natural Science Foundation of China(81270181),Hunan Provincial Natural Science Foundation of China (11JJ2046).
Journal of the American College of Cardiology 2006;48:2584-91

Abstract.Reinforced soil has been among the most effective soil modification materials.
The advances of these materials have usually been considered by an increase in their applications.
MATERIAL Composite materials consist of two parts.
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibres, Journal of Applied Clay Science 38, 23-32
[5] Chegenizadeh, A. and Prof.Hamid Nikraz ,”Composite Soil: Fibre Inclusion and Strength”, Journal of Advanced Materials Research,1646, 2011 [6] Chegenizadeh, A. and Hamid Nikraz ,Interaction of soil and short fibre, , ASTM digital library,2011 [7] Chegenizadeh, A. and Hamid Nikraz, Composite Clayey Sand and Short Fibre, Advanced Materials Research Journal [8] Freitag, D.R. (1986) Soil randomly reinforced with fibres, Journal of Geotechnical Engineering ASCE 112 (8), pp. 823–826

Box 413, Harbin Institute of Technology, Harbin, China, 150001 a lzqmail@sohu.com; b spm@hit.edu.cn Keywords: Diamond cutting tool, Lapping, Molecular dynamics simulation, Tersoff Abstract: Molecular dynamics is a rapidly developing field of science and has become an established tool for studying the dynamic behavior of material machining.
Jang: Journal of Mechanical Working Technology, Vol.17 (1988) No.8, pp.147-155
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Field and F.M. van Bouwelen: Journal of Physics D: Applied Physics, Vol.33 (2000), pp.985-990
Dong: Applied Surface Science, Vol.252 (2006), pp.7523-7531