محمدرضا طرقینژاد
دانشیار، دانشکده مهندسی مواد، دانشگاه صنعتی اصفهان
[ 2 ] - Effect of Ti-microalloy Addition on the Formability and Mechanical Properties of a Low Carbon (ST14) Steel
A low carbon Al-killed Ti-added steel was produced in Mobarakeh Steel Complex in Iran. Mechanical properties and microstructural characterizations of steel in the as-cast, hot-rolled, cold-rolled and annealed conditions are presented. Dilatometery tests were carried out to measure the finishing and annealing temperatures of steel. It was found that the addition of small amounts of Ti increas...
[ 3 ] - Nanotwins Formation in Accumulative Roll-Bonded Brass
Accumulative roll-bonding (ARB) is a severe plastic deformation process that is using rolling to produce ultrafine grains in coarse grained metallic materials. In this study, ARB has been applied on 70/30 brass up to 6 cycles at ambient temperature and non-lubricated conditions to apply a true strain up to 4.8 Von Mises strain. Microstructures of ARBed brass samples were characterized by scanni...
[ 4 ] - An investigation on the bond strength of aluminum strips in presence of brass mesh after cold roll bonding
In the present study, the presence of brass mesh on the bond strength of aluminum (AA1050) strips in the cold roll bonding process was investigated. The influence of various process parameters including reduction in thickness, pre-rolling annealing, initial thickness of the strips, and post-rolling annealing was also considered. After cold roll bonding process, peeling test was carried out and ...
[ 5 ] - Analysis of Strengthening Mechanisms in an Artificially Aged Ultrafine Grain 6061 Aluminum Alloy
The current study adopted a quantitative approach to investigating the mechanical properties, and their relationship to the microstructural features, of precipitation-strengthened 6061 aluminum alloy processed through accumulative roll bonding (ARB) and aging heat treatment. To serve this purpose, the contributions of different strengthening mechanisms including grain refinement, precipitation...
[ 6 ] - The effect of temperature and strain rate on elongation to failure in nanostructured Al-0.2wt% Zr alloy fabricated by ARB process
A nano/ultra-fine grain Al-0.2wt% Zr alloy was produced by accumulated roll bonding (ARB) processafter 10 cycles. The fraction of high angle grain boundaries increased from 8% to 65.4% during 10passes during ARB process. This alloy was subjected to tensile test at different temperatures (523,573and 623 K) and strain rates (0.1 and 0.01 s-1). The optimum condition of temperature and strain rate ...
[ 7 ] - بررسی خواص مکانیکی و ریز ساختاری اتصال نفوذی TLP نانوکامپوزیت Al2O3p/Alبا استفاده از لایه واسطه مس
Due to their superior properties such as high specific strength, high creep resistance and high strength at elevated temperatures, aluminum composites reinforced with alumina nano particles are widely used for advanced purposes such as aerospace and auto industries. Lack of an appropriate welding process limits their applications. Transient liquid phase (TLP) bonding is one of the state-of-the...
[ 8 ] - ارزیابی متالورژیکی نقاط فاقد پوشش در ورقهای فولادی گالوانیزه گرم و تأثیر آن بر خواص ورق
In this paper, bare spot defects in hot-dip galvanized sheets were studied in terms of the microstructure and their influence on the corrosion and mechanical properties. Surface characteristics and microstructural features were examined by scanning electron microscopy equipped with energy dispersive spectroscopy microanalysis system. The results showed that the major cause of the bare spots was...
[ 9 ] - مدل سازی و پیش بینی استحکام تسلیم آلیاژ آلومینیم 6061 پس از انجام فرایند نورد تجمعی
در پژوهش حاضر خواص مکانیکی آلیاژ آلومینیم 6061 فوقریزدانه پس از سیکلهای مختلف فرایند نورد تجمعی بهصورت کمّی مورد ارزیابی قرار گرفت. جهت نیل به این هدف، مدلسازی استحکام تسلیم نمونهها بر مبنای پارامترهای ریزساختاری مستخرج از الگوهای پراش پرتو ایکس و تصاویر میکروسکوپی و استفاده از روابط ریاضی مربوطه برای محاسبه مکانیزمهای استحکامدهی صورت پذیرفت. ریزساختار نمونهها پس از سیکلهای مختلف نورد ت...
[ 10 ] - بررسی ریز ساختار و مقاومت فرسایشی کامپوزیتهای زمینه Al-Ti تقویت شده بوسیله ذرات SiC و Al2O3
In this research, the production of Aluminum matrix composites (AMCS) consolidated by hot powder extrusion along with physical and mechanical properties of extruded bars have been studied. The matrix alloy was prepared from elemental powders of Al and 10wt% Ti. The composites comprises 5,10,15 or 20 vol% SiC or Al2O3 particles with an average size of 5 micron. The powder mixtures were sealed ...
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