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SUPERVISOR
Ahmad Saatchi,Ahmad KermanPour,Fakhreddin Ashrafizadeh
احمد ساعت چي (استاد راهنما) احمد کرمانپور (استاد مشاور) سيدفخرالدين اشرفي زاده (استاد راهنما)
 
STUDENT
Farhad Shahriari Nogorani
فرهاد شهرياري نوگوراني

FACULTY - DEPARTMENT

دانشکده مهندسی مواد
DEGREE
Doctor of Philosophy (PhD)
YEAR
1381

TITLE

The formation, microstructural evaluation and high temperature behavior study of Al-Ti coatings on nickel-based superalloy B-1900
In this thesis, Friction Stir Processing (FSP) was used to develop surface Al-Al 2 O 3 nanocomposite on Al2024 plate. A new procedure was introduced for applying the reinforcement particles in which 10 volume percent of Al 2 O 3 nanopowder, as the reinforcement, was added to the aluminum powder and milled for 1 hour. Composite powder was applied on Al2024 plate by atmosphere plasma spray and then the FSP was performed on the plate. In order to optimize the FSP parameters, microstructural and hardness evaluation were done. Optimized parameters including tool design, rotational speed, linear speed and tilt angle were determined to be 800 rpm, 25 mm/min and 3 0 respectively. Microstructural evaluation was performed by optical microscopy and Image Tool software. In order to examine the effects of the FSP process on hardness and wear behavior, hardness and wear tests were performed on base metal and FSPed samples. Dominating wear mechanisms were investigated by surface examination and studying of wear product using scanning electron microscopy (SEM). The thickness of nanocomposite layer produced by FSP was measured to be 600µm in which uniform distribution of Al 2 O 3 particles with good bonding with substrate were observed. Microstructural evaluation showed that FSP process significantly reduces the grain size in nugget zone, from 250µm (base metal) to 2.5µm. Maximum hardness of base metal, FSPed sample without Al 2 O 3 and FSPed nanocomposite were measured to be 90, 110 and 230 HV respectively. Wear test results showed improved wear resistance in FSPed and nanocomposite samples. Wear rate of base metal, FSPed sample and FSPed nanocomposite were 0.037, 0.027 and 0.004 mgr/m respectively
در رساله حاضر، با استفاده از روش هاي ابداعي و روش هاي موجود اصلاح پوشش هاي آلومينايدي، تلاش گرديده تا تيتانيوم به نحو مؤثري وارد ترکيب پوشش آلومينايد ساده بر سوپرآلياژ پايه نيکلي B-1900 گردد. به اين منظور از روش هاي نفوذ همزمان Al و Ti در يک مخلوط پودر، نفوذ متوالي Ti و Al در مخلوط هاي پودر جداگانه، رسوب فيزيکي بخار Ti ونفوذ ثانويه Al، وپاشش سرد مخلوط پودر عنصري Al و Ti وآنيل نفوذي ثانويه استفاده شد. ريزساختار پوشش هاي تشکيل شده به وسيله متالوگرافي نوري و الکتروني، آناليز شيميايي طيف سنجي پراکندگي انرژي، پروفيل عمقي غلظت به روش طيف سنجي تخليه هاله اي نشر نوري و آناليز فازي به روش پراش پرتو ايکس مشخصه يابي گرديد و چگونگي فرايند تشکيل آنها تحليل شد. نتايج پژوهش نشان داد فرايند هاي نفوذ همزمان و متوالي Ti و Al قادرند مقدار قابل توجهي Ti را به همراه Al به سطح سوپرآلياژ نفوذ دهند، اما پوشش هاي حاصل از دو فرايند ديگر تفاوت چنداني با آلومينايد ساده نداشت. ريز ساختار پوشش هاي آلومينايد اصلاح شده با تيتانيوم شامل لايه هاي مجزاي b وترکيبات سه تايي Al-Ni-Ti نظيرAl 2 NiTi، AlNi 2 Ti، (Al 1-x Ni x ) 3 Ti وگاه (Ti,Al) 2 Ni بود.

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