Ahmed O Mosleh
Overview
Explore the profile of Ahmed O Mosleh including associated specialties, affiliations and a list of published articles.
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Articles
11
Citations
59
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Recent Articles
1.
Khalil A, Pozdniakov A, Solonin A, Mahmoud T, Alshah M, Mosleh A
Materials (Basel)
. 2023 Aug;
16(15).
PMID: 37570181
This paper studies the effect of the laser melting process (LMP) on the microstructure and hardness of a new modified AlCuMgMn alloy with zirconium (Zr) and Yttrium (Y) elements. Homogenized...
2.
Postnikova M, Kotov A, Bazlov A, Mosleh A, Medvedeva S, Mikhaylovskaya A
Materials (Basel)
. 2023 May;
16(10).
PMID: 37241341
The decrease of superplastic forming temperature and improvement of post-forming mechanical properties are important issues for titanium-based alloys. Ultrafine-grained and homogeneous microstructure are required to improve both processing and mechanical...
3.
Mochugovskiy A, Mosleh A, Kotov A, Khokhlov A, Kaplanskaya L, Mikhaylovskaya A
Materials (Basel)
. 2023 Jan;
16(1).
PMID: 36614782
This study focused on the microstructural analysis, superplasticity, modeling of superplastic deformation behavior, and superplastic forming tests of the Al-Mg-Si-Cu-based alloy modified with Fe, Ni, Sc, and Zr. The effect...
4.
Mosleh A, Kotova E, Kotov A, Gershman I, Mironov A
Materials (Basel)
. 2022 Dec;
15(23).
PMID: 36499891
Due to the engine's start/stop system and a sudden increase in speed or load, the development of alloys suitable for engine bearings requires excellent tribological properties and high mechanical properties....
5.
Moustafa E, Alazwari M, Abushanab W, Ghandourah E, Mosleh A, Ahmed H, et al.
Materials (Basel)
. 2022 Feb;
15(3).
PMID: 35160780
In this study, two successive methods were used to improve the grain structure and the mechanical and physical properties of Al 5052 aluminum alloy. The modifying elements, 0.99 wt.% of...
6.
Mosleh A, Khalil A, Loginova I, Solonin A
Materials (Basel)
. 2021 Oct;
14(20).
PMID: 34683746
AlZnMgCu, the high-strength aluminum alloy, is unsuitable for laser melting applications due to its high hot cracking sensitivity and large solidification temperature range. Adapting this alloy for laser melting processing...
7.
Elsheikh A, Saba A, Elaziz M, Lu S, Shanmugan S, Muthuramalingam T, et al.
Process Saf Environ Prot
. 2020 Nov;
149:223-233.
PMID: 33162687
COVID-19 outbreak has become a global pandemic that affected more than 200 countries. Predicting the epidemiological behavior of this outbreak has a vital role to prevent its spreading. In this...
8.
Yakovtseva O, Sitkina M, Mosleh A, Mikhaylovskaya A
Materials (Basel)
. 2020 May;
13(9).
PMID: 32370012
Increasing the strain rate at superplastic forming is a challenging technical and economic task of aluminum forming manufacturing. New aluminum sheets exhibiting high strain rate superplasticity at strain rates above...
9.
Khalil A, Loginova I, Pozdniakov A, Mosleh A, Solonin A
Materials (Basel)
. 2019 Oct;
12(20).
PMID: 31635182
The mechanical properties and microstructure of as-cast and homogenized AA7075 were investigated. This alloy was modified by adding transition elements 0.3%Sc + 0.5%Zr, 1%Ti + 0.2%B, and 1%Fe + 1%Ni...
10.
Mosleh A, Mikhaylovskaya A, Kotov A, Kwame J, Aksenov S
Materials (Basel)
. 2019 Jun;
12(11).
PMID: 31151181
Determining a desirable strain rate-temperature range for superplasticity and elongation-to-failure are critical concerns during the prediction of superplastic forming processes in α + β titanium-based alloys. This paper studies the...