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Currently the basic materials of Micro-turbine Engineering were nonmetal materials such as SiC, most of them are 2D or quasi-3D structures.
Currently the basic materials of micro gas turbine engineering were non-metallic materials such as SiC, and most of them are 2 dimensions or quasi-3 dimensions structures.
To analyze the performance of different materials, the two different materials were used for rotor and stator disks.
The reason is that the discharge gap is not the same in different voltage and materials.
[5] D.T.Pham,S.S.Dimov, S.Bigot et al.: Journal of Materials Processing Technology,Vol.149 (2004), pp.50-57.

In the paper, N,N′-bis(4-hydroxybenzyidene)azine (BHBYA) has been synthesized by p-hydroxybenzaldehyde and hydrazine as raw materials.
Chemical Journal of Chinese Universities. 1991，12(8):1066 [3] Y.H.
Chinese Journal of Spectroscopy Laboratory, Vol. 21 (2004), p999
Chinese Journal of Synthetic Chemistry, Vol. 12 (2004), p219
Advanced Materials Research, Vol. 396-398 (2012) , p2366

The use of this prepared these materials allows to degrade up to 99.9% of MR by photocatalysis in visible light at a pH of 6 and a H2O2 concentration of 0.1 M.
Immobilization of photocatalytic materials on a porous material from agricultural wastes is one of the keys to overcoming this problem [6,7].
Results and Discussion X-ray diffraction The diffractograms of the two composite materials developed Ag-ZnO and Ag-ZnO/CA showed in Fig. 1.
This asserts that the arrangement and use of both materials retains the crystal structure of photocatalytic materials and justifies the immobilization of the photocatalytic composite on the activated carbon.
Kaneco, Studies of effects of calcination temperature on the crystallinity and optical properties of Ag-doped ZnO nanocomposites, Journal of Composites Science. 3 (2019). https://doi.org/10.3390/jcs3010018

Materials based on films In2O3:Sn found commercial use as optical materials because of their high reflectance in infra red radiation and transmittance in visible spectrum.
Mattox, Sol-gel derived, air-baked indium and tin oxide films, Thin Solid Films. 204 (1991) 25–32 [4] Qiang Wei, Haixing Zheng, Yuhong Huang, Direct patterning ITO transparent conductive coatings, Solar Energy Materials and Solar Cells. 68 (2001) 383–390 [5] Kentaro Utsumi, Osamu Matsunaga, Tsutomu Takahata, Low resistivity ITO film prepared using ultra high density ITO target, Thin Solid Films. 334 (1998) 30–34 [6] C.
Schmidt, Wet chemical deposition of crystalline, redispersable ATO and ITO nanoparticles, Journal of Sol-Gel Science and Technology. 19 (2000) 201–204 [7] J.J.
Gopel, Sol-gel prepared In2O3 thin films, Thin Solid Films. 307 (1997) 288–293 [9] Keishi Nishio, Tadanori Sei, Toshio Tsuchiya, Preparation and electrical properties of ITO thin films by dip-coating process, Journal of Materials Science. 31 (1996) 1761–1766 [10] Osamu Yamamoto, Tadashi Sasamoto, Michio Inagaki, Indium tin oxide thin films prepared by thermal decomposition of ethylene glycol solution, J.
Senokosova Film-formation capacity of alcoholic solutions of iron(III) chloride with acetylacetone, Russian Journal of Applied Chemistry. 83, 11 (2010) 1935–1939

Yang, Journal of Magnetism and Magnetic Materials, 528, 167824 (2021)
Yamilov, Journal of Magnetism and Magnetic Materials, 588, 171469 (2023)
Savinov, et al., NPG Asia Materials, 13, (2021)
Töpfer, Materials Research Bulletin, 86, 19–23 (2017)
Roy, Materials Science and Engineering: B, 278, 115613 (2022)

Eckstein, Microforming—from basic research to its realization, Journal of Materials Processing Tech., 125 (2002) 35-44
Wang, An experimental study on size effects on flow stress and formability of aluminm and brass for microforming, Journal of Materials Processing Tech., 184 (2007) 42-46
Eckstein, Miniaturization in sheet metal working, Journal of Materials Processing Tech., 103 (2000) 95-101
Picart, Size effects on the constitutive behaviour for brass in sheet metal forming, Journal of Materials Processing Technology, 141 (2003) 439-446
Baaijens, Size effects in the processing of thin metal sheets, Journal of Materials Processing Technology, 115 (2001) 44-48

The article discusses flexible struts, reinforced with composite materials, located in the transverse direction.
In 2004, a set of rules for strengthening reinforced concrete structures with composite materials was issued in Russia, which gave impetus to the use of new types of materials on a legislative basis.
To make changes to the strength calculation algorithm for transverse reinforcement with composite materials.
The characteristics of materials, including composite materials, the structure of the rack frames, the strengthening method and testing are detailed in [9-11].
Sciences, Moscow, 2010

Journal of Materials Processing Technology.
Journal of Materials Processing Technology.
Journal of Materials Processing Technology.
Journal of Computational Materials Science Vol. 46 (2009), p. 347-351
Journal of Materials Science and Engineering Vol. 280 (2000), p.1–7.

Test Materials and Methods The purities of the alloy materials are 99.99 wt%, Si 99.999 wt%, and Cu 99.99 wt%.
Journal of Magnetism and Magnetic Materials, 2022:559
Materials Science and Engineering, 2019, 762: 138095.1-138095.9
Journal of Magnetic Materials and Devices, 2016
Materials Science Forum, 2016 :850

High-Speed Direct Laser Deposition: Technology, Equipment and Materials.
Equipment and Materials.
Journal of Materials Engineering and Performance.
Journal of Materials Engineering and Performance. 27 (2018) 6398-6406 [11] Klimova-Korsmik O, Turichin G, Zemlyakov E, Babkin K, Petrovsky P, Travyanov A.
Materials and Design. 114 (2016) 441-449.