قاسم دینی
دانشکاه اصفهان
[ 1 ] - استفاده از خاکستر سبوس برنج برای تولید نانو ذرات Al2O3/SiC به روش سنتز خود انتشار دمای بالا و آسیاکاری
در این پژوهش از سیلیس موجود در سبوس برنج برای سنتز نانو ذرات Al2O3/SiC استفاده شده است. سبوس برنج یکی ادر این پژوهش از سیلیس موجود در سبوس برنج برای سنتز نانو ذرات Al2O3/SiC استفاده شده است. سبوس برنج یکی از ضایعات کشاورزی در کشورهای تولید کنندهی برنج مانند ایران است. به همین منظور، خاکستر بدست آمده از سوزاندن سبوس برنج که حاوی بیش از 93 درصد سیلیس است به همراه پودر آلومینیوم و کربن به نسبت مو...
[ 2 ] - Observation of Stacking Fault Tetrahedral in TWIP Steel
Low stacking fault energy face centered cubic (FCC) materials contain characteristic defect structures. Stacking fault tetrahedral are one of those rare structures that occur under special experimental conditions. For the first time, stacking fault tetrahedral were observed in Fe-30Mn-3Al-3Si twinning induced plasticity (TWIP) steel. Their presence resulted from a quenching heat treatment.
[ 3 ] - Detailed Microstructural Evolutions of TWIP Steel During Tensile Straining: In situ SEM Observations
Microstructural evolutions of twinning induced plasticity (TWIP) steel during tensile straining were investigated by in situ SEM observations. The results indicated that slip lines and mechanical twins as well as surface relief were increased with increasing strain, resulting in a stepped surface. Additionally, these deformation mechanisms could change the shape of each grain via shear and rota...
[ 4 ] - The Effect of Deformation Temperature on the Mechanical Properties and Microstructural Evolutions of High Manganese TWIP Steel
In this study, the effect of tensile test temperature (148 to 673 K) on the microstructural evolutions and the mechanical properties of high manganese twinning induced plasticity (TWIP) steel with the chemical composition of Fe- 31Mn-3Al-3Si (wt. %) was investigated. XRD, SEM and TEM were used to study the microstructural evolutions. Stacking fault energy (SFE) of the alloy was also calculated ...
[ 5 ] - Improving the Microstructure, Mechanical and Magnetic Properties of AISI 4340 Steel Using the Heat Treatment Process
AISI 4340 steel is one of the super strong steels that can be selected for different applications. By designing the proper cycles of heat treatment, the optimum microstructure and properties of this steel can be achieved. In this study, different heat treatment cycles were introduced to achieve the optimum microstructure and improve the mechanical and magnetic properties of AISI 4340 steel. The...
[ 6 ] - 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...
[ 7 ] - تأثیر pH و زمان فرایند هیدروترمال بر سنتز نانوذرات فریت منگنز
Manganese ferrite nanoparticles (NPs) have different applications, especially in medical diagnosis and treatment as well as the biomolecule separation,. In this research, the effects of various parameters such as the pH of reaction solution and the hydrothermal process duration on the synthesis of spinel phase in NPs were evaluated. Crystal structure, chemical composition, morphology and ...
[ 8 ] - سنتز سبز نانوذرات اکسید روی با استفاده از عصاره گیاه خوراکی-دارویی بن سرخ (Allium jesdianum)
Background: Synthesis of ZnO nanoparticles (ZnO NPs) is very valuable due to their applications in cancer treatment, unique thermal, optical and electronic properties. In this study, green synthesis of ZnO nanoparticles was performed using Allium jesdianum extract. The green synthesis is a successful process that is environment friendly and low-cost as well. Methods: In this study, the extract...
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