the effect of mn addition on oxidation resistance of ti-48al synthesized by mechanical alloying
Authors
abstract
titanium aluminide and its alloys have been utilized in automotive, aerospace and power industries because of their specific properties such as low density (~ 4 g/cm3), high melting temperature (~ 1460 °c) and excellent high-temperature strength. ti-48al intermetallic compound and its alloys with 1.5, 3 and 5 at.%mn were produced with mechanical alloying of elemental powders for 50 hours. the process of mechanical alloying was carried out in a planetary ball mill machine with wc cups and balls under inert atmosphere of argon. to obtain bulk samples, the mechanically alloyed powders were cold pressed with the load of 40 ton and then heat treated at 1050 °c under argon atmosphere in an electrical furnace with quartz tubes. the x-ray diffraction analysis showed that the addition of manganese to ti-48al during mechanical alloying causes no formation of a new phase in titanium aluminide system. scanning electron microscopy observations on the surface of sintered bulk samples revealed that boundaries between powder particles have been well formed at 1050 °c. the results of hardness tests showed that the addition of mn up to 5 at.% increases the hardness value of ti-48al compound (~22.1 hrc) to ~ 40.7 hrc. evaluation of oxidation behavior showed that oxidation resistance of ti-48al-5mn alloy is slightly smaller (~0.015 g) than that of ti-48al. on the contrary to ti-48al-5mn alloy, ti-48al compound had a steady-state oxidation behavior for oxidation periods longer than 14000 seconds. scanning electron microscopy images and the results of energy dispersive spectroscopy showed that the lower oxidation resistance of ti-48al-5mn compared to that of ti-48al is related to the formation of rutile at 900 °c on the oxidized surfaces of ti-48al-5mn.
similar resources
Effect of Mo Addition on Nanostructured Ni50Al50 Intermetallic Compound Synthesized by Mechanical Alloying
The mechanical alloying process was used to synthesize the Ni50Al50−xMox nanocrystalline intermetallic compound using pure Ni and Al elemental powder. This process was carried out in the presence of various Mo contents as a micro-alloying element for various milling times. Structural changes of powder particles during mechanical alloying were studied by X-ray diffractometry (XRD) and scanning e...
full textEFFECT OF SiC ADDITION ON HYDROGEN DESORPTION PROPERTIES OF NANOCRYSTALLINE MgH2 SYNTESIZED BY MECHANICAL ALLOYING
In this study, the composite material with composition of MgH2-5 wt% SiC has been prepared by co-milling of MgH2 with SiC powder. The effect of milling time and additive on MgH2 structure, i.e. crystallite size, lattice strain, particle size and specific surface area, and also hydrogen desorption properties of obtained composite was evaluated by thermal analyzer method and compared with pure un...
full textthe effect of keeping reflective journals by language instructors on the process of reading comprehension among iranian high school students
خواندن ودرک مطلب از مهمترین مهارتها در یادگیری زبان خارجی محسوب می شود. این تحقیق تاثیر برگه های تامل برانگیز هدایت شده را در ارتقاع مهارت خواندن ودر ک مطلب در دانش اموزان دبیرستانی ایرانی بررسی می نماید. ازمجموع ?2 دانش آموز سال چهارم دبیرستان شهید رجایی شهرستان اسلامشهر¸ پس از اجرای آزمون استاندارد ((nelson 150a تعداد 39 دانش آموز که نمرات آنها یک سطح انحراف معیار بالاتر یا پایین تر ازمعدل قر...
Effect of Ni on Amorphization of Ti-Cu-Ni Ternary alloys Prepared by Mechanical alloying
Amorphous alloys has been taken into consideration because of their unique properties and are nominated as the future engineering materials. In this research, the effect of Ni and milling time on amorphization process and thermal stability of Ti50Cu50-xNix(x=10, 15, 25 at%) alloy system were investigated. The evolution of amorphization during milling, thermal stability and subsequent heat treat...
full textthe effect of taftan pozzolan on the compressive strength of concrete in the environmental conditions of oman sea (chabahar port)
cement is an essential ingredient in the concrete buildings. for production of cement considerable amount of fossil fuel and electrical energy is consumed. on the other hand for generating one tone of portland cement, nearly one ton of carbon dioxide is released. it shows that 7 percent of the total released carbon dioxide in the world relates to the cement industry. considering ecological issu...
My Resources
Save resource for easier access later
Journal title:
مهندسی متالورژی و موادجلد ۲۷، شماره ۱، صفحات ۹۳-۰
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023