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X-ray diffractometer/XRD (MTI, USA) aims to analyze the crystal structure formed on the adsorbent.
This aims to utilize the Co-containing carbon as a carbon source for the anode of Li-ion batteries.
The pore surface will be visible if it can reduce hydrocarbon compounds.
The activation process using ZnCl2 is one way to reduce hydrocarbon compounds which works by breaking hydrocarbon bonds or oxidizing surface molecules so that the carbon morphologically changes.
Mingmoon, Preparation of anode material for lithium battery from activated carbon, International Journal of Renewable Energy Development 10 (2021) 91–96. https://doi.org/10.14710/ijred.2021.32997

Introduction Considering a general high mismatch in coefficients of thermal expansion CTE between typical inclusions like SiC, Al2O3, B4C and diamond and a metallic matrix like pure Al and Al alloys, high micro stresses and strains in the matrix alloy and at the interfaces may initiate matrix deformation and thermal fatigue damage of the MMCs [1-3].
Journal of Materials Science. 2018;53(22):15514-29
Journal of Applied Physics. 2013;113(18):183504
Journal of Alloys and Compounds. 2018;735:777-86
Journal of Applied Crystallography. 2011;44(3):641-6

Firstly, the alloy was decomposed into 10 Ni-i binary alloys (i is the 10 main elements), The liquid line slope and solute equilibrium distribution coefficient of each binary alloy were measured by experiment or obtained from phase diagram [16].
Special Casting & Nonferrous Alloys, 2019, 39(3): 242-246
Journal of Alloys and Compounds, 2014, 586: 220-229
Orientation characteristics of single crystal super alloys with different preparation methods[J].
Journal of crystal growth, 2018, 485: 19-27

The present work also has aim to characterize dynamics carriers in a HEMT heterostructure which we will consider later a dynamic study of quantum well solar cells in a rigorous and complete manner.
Introduction One of the properties of the family compound semiconductor III-V is indeed the probability of forming hetero structures with a good crystal interface (eg GaAs / AlAsGa)[1].
This work is dedicated to the numeric physical modeling of a quantum well and its aim is solving the system of Schrödinger-Poisson equations and the numerical solution of this system was made by least squares method.
We have obtained the exact shape of the potential well and we have also fixing the ND doping in order to varied Aluminum rate because we have an alloy ( figure 1) so we have introduce a notion of effectif doping , it that we help to get the exact variation of ns with NDeff)) .From this model we have obtained Ef varied with ns for ND fixe and a variable Aluminum rate at T=300K° and W=160A°.
[7] Pu Jinrong, Sun Jiuxun, and Zhang Da, “an accurate polynomial-based analytical charge control model for AlGaN/GaN HEMT”, physics of semiconductor devices journal, issn 1063-7826, vol45, No 9, pp1205-1210, 2011.

The aim of this research is to investigate the effects of vanadium on physical and elastic properties of silica borotellurite glass system by means of density, molar volume and ultrasonic velocities.
Anavekar, Elastic properties of silver-phospho-vanadate glasses, Journal of Alloys and Compounds. 489 (2) (2010) 325–327
Puntharod, Boron and pentavalent vanadium local environments in binary vanadium borate glasses, Journal of Non-Crystalline Solids. 453 (2016) 118–124
Ali, Structural, AC conductivity and dielectric properties of vanado-tellurite glasses containing BaTiO3, Journal of Non-Crystalline Solids. 390 (2014) 31–36
Goswami, Characterisation of semiconducting V2O5–Bi2O3–TeO2 glasses through ultrasonic measurements, Journal of Non-Crystalline Solids. 320(1-3) (2003) 195-209.

Regular materials utilized for planning the hip implant are cobalt chrome compounds (CoCrMo), tempered/stainless steel (SS), and titanium amalgams (Ti-6Al-4V).
The biomedical applications are severally dominated by the utilizations of metallic alloys like stainless steel, Ti-alloys and Co-alloys, but lacks long term durability and bonding with human bones.
Bruce, “Metallic Alloys in Total Hip Arthroplasty,” 2015, pp. 14–1 to 14
[110] “ASM Specialty Handbook: Nickel, Cobalt, and Their Alloys - ASM International.” https://www.asminternational.org/handbooks/-/journal_content/56/10192/06178G/PUBLICATION (accessed Feb. 03, 2021)
P, “Evaluation of couple/crevice corrosion by prosthetic alloys under in vivo conditions,” Journal of biomedical materials research, Nov. 1978. https://pubmed.ncbi.nlm.nih.gov/739015/ (accessed Feb. 03, 2021)

To facilitate this, a review of the pitting corrosion of aluminium alloys was undertaken.
From examination of the literature [8-11] on atmospheric pitting corrosion of aluminium alloys there are some distinct trends that are readily noticeable.
Ailor: Five-year corrosion of aluminium alloys at several marine sites: British Corrosion Journal Vol. 1 (1966), p237-243
Nock: Resistance of aluminum alloys to weathering: Corrosion Vol. 9(10) (1953), p345-358
Coe: A curved multi-component aerosol hygroscopicity model framework: Part 1 - Inorganic compounds: Atmospheric Chemistry and Physics Vol. 5(5) (2005), p1205-1222

Studies in this area aimed at finding new protection solutions, compatible with the granular material in store.
Starting from the 7 metals of the Ancient World: gold, copper, silver, lead, tin, iron and mercury, science has progressed enormously, obtaining special alloys such as uranium or plutonium.
It is both physically and chemically unaffected by all solvents and chemicals used in industry, except melt alkali metals, fluorine and some halogenated compounds, at high temperature and high pressure.
The physicochemical processes that occur at the diffusion interface are complex, are physical and chemical, with the formation of complex chemical compounds in solid phase which can achieve a strong binding of the two materials of different chemical nature.
Thus for example in the case of diffusion welding of chromium-nickel alloys with ceramics based on silicon nitride, the chemical reactions that take place lead to the formation of chromium nitride - CrN in the interphase area, which provides a strong welding of a ceramic metal.

The intermetallic compounds are stiff and rigid and have high tendency to create barriers to dislocation movements in addition to grain boundaries with a consequent greater strength of the Al-Mg-Mn based composites than that of the Al-Mg-Mn alloy having no intermetallic.
Figure 9: Tensile strength of alloys (Al-Mg-Mn) reinforced PKS Nano and PKS Micro composites.
Figure 11: Impact energy values of alloys (Al-Mg-Mn) reinforced PKS Nano and PKS Micro composites.
Alloys Compd. 505(2), 772-782 (2010). https://scholar.google.com/citations [24] Bello, S.
Tensile Properties of Aluminum Silicon Nickel Iron Vanadium High Entropy Alloys.

The present study aims to develop iron based silica sand nanoparticles composites with improved mechanical properties.
Therefore the present study aims to develop silica sand nanoparticles by ball milling and then using these nanoparticles, the composite with iron matrix were prepared.
The results indicate that the iron based silica sand nanoparticles composites have hardness and tensile strength of equivalent to many of commercial iron alloys.
Lai, “Recent Developments in the Fabrication of Metal Matrix-Particulate Composites Using Powder Metallurgy Techniques’, Journal of Materials Science, 29 (1994) 1999 [2] G.
Materials Prepared by Sintering and Infiltration”, Journal of Powder Metallurgy and Metal Ceramic, 40[1-2] (2001) [3] Karabi Das, T.