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Wagner: Journal of Alloys and Compounds Vol. 468 (2009), p. 77-86 [4] C.
Fox: Journal of Alloys and Compounds Vol. 457 (2008), p. 296–309 [8] A.
Gil: Thermochimica Acta Vol. 167 (1990), p. 129-138 [10] Chao Li: Metallography principle (1996), p. 308-309, (in chinese) [11] Zainul Huda, Tuan Zaharinie: Journal of Alloys and Compounds Vol. 478 (2009), p. 128–132 [12] F.J.
Hirth: Beta Titanium Alloys in the 1980’s (1983), p. 185-207 [21] YU Teng, WANG Lei, ZHAO Yong-qing, WANG Hong-cai, GENG Ke-ping: Journal of Zhengzhou University Vol. 30 (2009), p. 6-9 [22] K.
Ishida: Journal of Alloys and Compounds Vol. 235(1996), p. 244-249 [23] Qing Miao, Lianxi Hu, Xin Wang, Erde Wang: Journal of Alloys and Compounds Vol.493 (2010), p. 87–90

Elements of rare earth, iron and boron were added in the way of Al-10Re, Al-10Fe and Al-3B intermediate alloys.
This was because that the metal compounds of high melting point would be formed when the rare earth elements content was controlled in a certain range, and the addition amount exceeded the range, the excessive rare earth elements would form needle-shaped compounds and distributed along the grain boundaries, which made the alloy become more brittle and decreased the elongation[8].
[5] X F Liu, X F Bian, Y X Liu, G H Zhang, J J Ma, The heredity of iron compound morphologies in Al alloys and spheroidizing mechanism, Acta Metallurgica Sinica. 1997, 33(10): 1062-1065
[11] P Shan, Investigation on the effect of B on the microstructure and property of Al heat-resistant conductive alloys with Zr addition by electrolysis[D].
[12] J X Kang, G S Fu, The Behaviors of inclusions and Hydrogen in Molten Aluminum[J], Special Casting & Nonferrous Alloys. 1995(5): 5-12.

The aim of this paper was to determine the resistance to high-temperature corrosion in atmosphere of air for alloy Fe-40Al-5Cr-0.2Ti-0.2B.
Introduction Alloys on intermetallic phase matrix FeAl are characterized with very good resistance to high-temperature corrosion.
They are resistant to corrosion in oxidising atmosphere as well as in carburising and in such including sulphur compounds.
FeAl alloys show high corrosion resistance due to creation of permanent layer of Al2O3.
Alloys FeAl also have good corrosion resistance in water environment.

This study aims to investigate the effect of artificial aging on the hardness of aluminum silicon alloys.
In some of these alloys, precipitation hardening is due to the deposition of two elements other than aluminum, to form intermetallic compounds.
From the background previously described, research was carried out with the aim of increasing the hardness of aluminum silicon alloys with an artificial aging process.
Samuel, Porosity and the fatigue behavior of hypoeutectic and hypereutectic aluminum–silicon casting alloys, International Journal of Fatigue 30(6) (2008) 1024-1035
Lei, Effect of rare earth Y and Al-Ti-B master alloy on the microstructure and mechanical properties of 6063 aluminum alloy, Journal of Alloys and Compounds 830 (2020) 154685

The aliminium alloys are of particular interest to both the aerospace industry and automotive industry because of their attractive combinations of properties such as medium strength, formability, weldability, corrosion resistance and low cost.
Consequently, it can be used to produce alloys and compounds that are difficult or impossible to obtain by the conventional melting and casting techniques [1-6].
Velasco, P/M aluminum matrix composites: an overview, Journal of Materials Processing Technology 133 (2003) 203-206
Torralba, The effects of mechanical alloying on the extrusion process of AA6061 alloy reinforced with Si3N4, Journal of the Brazilian Society of Mechanical Sciences and Engineering 25/2 (2003) 201–206
Lai, Recent developments in the fabrication of metal matrix-particulate composites using powder metallurgy techniques, Journal of Materials Science 29 (1994) 1999-2007

The present study aims to evaluate the amount of α”-martensitic transformation due to the cryogenic heat treatment in the Ti35Nb(0,0; 2,5; 5,0; 7,5)Sn alloys.
Patoor, “Mechanical properties of low modulus β titanium alloys designed from the electronic approach,” Journal of the Mechanical Behavior of Biomedical Materials , vol. 3, pp. 565-573, 2010
Hanada, “Microstructures and mechanical properties of metastable β TiNbSn alloys cold rolled and heat treated,” Journal of Alloys and Compounds, vol. 439, pp. 145-155, 2007
[20] Taek-Kyun Junga, Hyo-Soo Lee, Satoshi Semboshi, Naoya Masahashi, Tadasu Abumiya, Shuji Hanada, A new concept of hip joint stem and its fabrication using metastable TiNbSn alloy, Journal of Alloys and Compounds 536S (2012) S582–S585
Li, “The influence of cryogenic-aging circular treatment on the microstructure and properties of aluminum matrix composites,” Journal of Alloys and Compounds, vol. 695, pp. 1930-1945, 2017

The activated carbon particles in solder paste composite have significant effects on the formation of intermetallic compounds (IMCs) at the solder/Cu substrate interfaces by suppressing the IMCs thickness.
Intermetallic compound formation Basically, intermetallic compounds (IMCs) are formed as reaction products between solder and substrate during reflow soldering.
Chan: Journal of Electronic Materials, Vol. 29 (2000), p. 1015-1020
Whalley: Journal of Materials Processing Technology, Vol.150 (2004), p. 1134-1144
Hussain: Journal of Alloys and Compounds, Vol. 507 (2010), p. 290-296

Special attention has been also paid in Ni-Cr-Si-B alloys since they provide the same high wear and corrosion resistance at ambient and high temperatures as Co-based alloys [5].
The aim to this paper is to study the microstructure, phase composition and microhardness of Inconel 625 alloys coatings and Ni-base alloy coatings on Monel alloy by ESD and laser cladding.
Precipitates in the matrix are detected with Cr, C and B exists, which indicates the compounds are carbide and boride.
(2) The main phases of the composite coatings are compounds γ-Ni, interdendritic eutectic phase (Ni3(B,Fe,Si)), boride (B4C, CrB) and chromium carbides (Cr7C3, Cr23C6).
Gupta: Journal of Materials Science, Vol. 36 (2001), p. 1433 [2] S.

Compounds formed during sintering were studied by EDS.
The literature reports on alloys such as the Al-Mn [6] and Mg-Ni alloys that have also been produced under these conditions [7].
However, Cu-Si-B alloys have not been yet investigated for this purpose.
According to the Cu-Si phase diagram, there are no compounds of copper and silicon in the whole range of Si concentration (48 wt.%).
Sideris: Journal of Alloys and Compounds Vol. 372 (2004), p. 88

The plots for all the alloys present similar qualitative characteristics.
Hristoforou, Electron microscopy study of (Fe-Co)-Nb-Si-B alloys, Journal of Optoelectronics and Advanced Materials, pp 1775-1780, 2006 [16] DM Kepaptsoglou, M.
Svec, Pecularities of nanocrystal formation in rapidly quenched (FeCo)MoCuB amorphous alloys, Journal of Microscopy, 223, pp 288-291, 2006 [17] M.
Hristoforou, Evolution of lattice parameter and process rates during nanocrystallization of amorphous Fe–Co–Si–B alloy, Journal of Alloys and Compounds, 434, pp. 211-214, 2007 [19] M.
Švec, Pecularities of electrical resistivity during transformations in amorphous and nanocrystalline alloys, Journal of Alloys and Compounds, 434, pp. 248-251, 2007 [20] TJ Papaioannou, P.