Your search keyword '"Alat, Ece"' showing total 8 results

1. Corrosion and Ion Irradiation Behavior of Ceramic-Coated Nuclear Fuel Cladding

Author

Alat, Ece, primary, Hu, Jing, additional, Wolfe, Douglas E., additional, and Motta, Arthur T., additional

Published

2021

2. Undoped and ytterbium-doped titanium aluminum nitride coatings for improved oxidation behavior of nuclear fuel cladding

Author

Brova, Michael J., Alat, Ece, Pauley, Mark A., Sherbondy, Rachel, Motta, Arthur T., and Wolfe, Douglas E.

Published

2017

3. Multilayer (TiN, TiAlN) ceramic coatings for nuclear fuel cladding

Author

Alat, Ece, Motta, Arthur T., Comstock, Robert J., Partezana, Jonna M., and Wolfe, Douglas E.

Published

2016

4. Ceramic coating for corrosion (c3) resistance of nuclear fuel cladding

Author

Alat, Ece, Motta, Arthur T., Comstock, Robert J., Partezana, Jonna M., and Wolfe, Douglas E.

Published

2015

5. Effects of Substrate Materials and Surface Conditions on the Minimum Film-Boiling Temperature

Author

Ebrahim, Shikha A., primary, Alat, Ece, additional, Sohag, Faruk A., additional, Fudurich, Valerie, additional, Chang, Shi, additional, Cheung, Fan-Bill, additional, Bajorek, Stephen M., additional, Tien, Kirk, additional, and Hoxie, Chris L., additional

Published

2018

6. Corrigendum to “Ceramic coating for corrosion (c3) resistance of nuclear fuel cladding” [Surf. Coat. Technol. (2015) 133–143]

Author

Alat, Ece, primary, Motta, Arthur T., additional, Comstock, Robert J., additional, Partezana, Jonna M., additional, and Wolfe, Douglas E., additional

Published

2016

7. Effects of Substrate Materials and Surface Conditions on the Minimum Film-Boiling Temperature.

Author

Ebrahim, Shikha A., Alat, Ece, Sohag, Faruk A., Fudurich, Valerie, Chang, Shi, Cheung, Fan-Bill, Bajorek, Stephen M., Tien, Kirk, and Hoxie, Chris L.

Abstract

Film boiling is an important phenomenon in the evaluation of an emergency core cooling system following a hypothetical loss of coolant accident in a nuclear reactor. This study investigates the effects of liquid subcooling, surface oxidation, and surface materials on the minimum film-boiling temperature . Quenching experiments were performed using stainless steel and zirconium (Zr) test samples. The samples were heated to a temperature well above then plunged vertically in various degrees of liquid subcooling pools. A visualization study using a high-speed camera was conducted to capture the quenching behavior. Additionally, surface characterization analyses including X-ray diffraction, scanning electron microscopy, and energy dispersive X-ray spectroscopy were performed to quantify the surface conditions. Results indicate that liquid subcooling has a strong influence on . The visualization study shows a very thin vapor formation around the test sample for higher subcooling pools which explains the enhancement in the heat transfer. It is observed from the surface characterization analyses that the variations in the surface condition of the stainless steel and Zr causes the vapor bubbles to depart differently in the nucleate boiling regime. Furthermore, the effect of surface oxidation is clearly noticeable in the Zr test sample compared to the stainless steel test sample due to the oxidation kinematic of each substrate material. It is found that the substrate thermophysical properties have a significant impact on . Comparing the bare substrates shows that for the same degrees of liquid subcooling pool, the value of for the Zr sample is ∼30°C to 60°C higher compared to the stainless steel sample. Moreover, increasing the degrees of liquid subcooling contributes to a significant increase in that varies between ∼50°C and 70°C for both samples. [ABSTRACT FROM AUTHOR]

Published

2019

8. Analysis of magnesium addition, hydrogen porosity and T6 heat treatment effects on mechanical and microstructural properties of pressure die cast 7075 aluminum alloy

Author

Alat, Ece, Kalkanlı, Ali, and Metalurji ve Malzeme Mühendisliği Anabilim Dalı

Subjects

Metalurji Mühendisliği, Metallurgical Engineering, Tensile strength

Abstract

Alüminyum alaşımları, düşük yoğunluğun yanı sıra sahip olduğu işlenebilirlik gibi özellikleri nedeniyle büyük önem arz eder. 7075 alüminyum alaşımı Al-Zn-Mg-Cu grubunda yer alan bir dövme alaşımıdır. Bu elementlerin alaşıma katılmış olmaları, 7075 alüminyum alaşımına diğer tüm alüminyum alaşımlarından daha yüksek mukavemet ve etkin bir çökelti sertleştirilebilme özelliği kazandırmıştır.Öte yandan, alüminyum alaşımlarının uygulamalarda yaygın olarak kullanılmasına engel teşkil eden bazı hususlar mevcuttur. Alüminyum alaşımlarında en sık karşılaşılan problemlerden bir tanesi, hidrojen poroziteleridir. Buna ek olarak, 7075 alaşımındaki bir durum da yeterinde akışkan olmamaktır. Magnezyum artışının bu eksikliği telafi edeceği düşünülmektedir. Buna göre, bu çalışmada, hidrojen porozitesi ve fazladan magnzeyum içeren basınçlı kalıp döküm yöntemi ile üretilmiş, 7075 alüminyum alaşım numuneleri incelenmiştir. Amacımız, hidrojen miktarı ile hidrojen porozitesi arasındaki ilişkiyi ve hidrojen porozitesi, magnezyum artışı ve T6 ısıl işlem uygulamasının basınçlı kalıp döküm yöntemi ile üretilmiş 7075 alüminyum alaşımının çekme ve bükülme dayancı özellikleri üzerine etkilerini belirlemektir.7075 alüminyum alaşım hurdaları bir basınçlı döküm firmasından temin edilmiştir. Gerekli spektral incelemelein ardından, basınçlı döküm prosesi iki aşamada gerçekleştirilmiştir. Birinci aşamada, magnezyum konsantrasyonu artırılmış 7075 alüminyum alaşımı dökülmüştür, ikinci aşamada ise herhangi bir alaşım değişikliği yapılmamış 7075 alaşımının dökümü gerçekleştirilmiştir. Bu dökümler yapılırken, her bir döküm öncesi hidrojen miktarı ölçümü gerçekleştirilmiştir. Son bir operasyon olarak da belli numunelere T6 ısıl işlemi uygulanmıştır. Aluminum alloys are having more attention due to their high specific stiffness and processing advantages. 7075 aluminum alloy is a wrought composition aluminum alloy in the Al-Zn-Mg-Cu series. Due to the significant addition of these alloying elements, 7075 has higher strength compared to all other aluminum alloys and effective precipitation hardenability characteristic.On the other hand, aluminum alloys have some drawbacks, which hinder the widespread application of them. One of the most commonly encountered defects in aluminum alloys is the hydrogen porosity. Additionally, in case of 7075, another problem is the lack of fluidity. Magnesium addition is thought to be effective in compensating this deficiency. Accordingly, in this study, die cast 7075 aluminum alloy samples with hydrogen porosity and additional magnesium content were investigated. Our aim was to determine the relationship between hydrogen content and hydrogen porosity, and the effects of hydrogen porosity, additional magnesium and T6 heat treatment on ultimate tensile and flexural strength properties of pressure die cast 7075 aluminum alloy.7075 aluminum alloy returns were supplied from a local pressure die casting company. After spectral analysis, pressure die casting was conducted at two stages. In the first stage, 7075 aluminum alloy with an increase in magnesium concentration was melted and secondly 7075 aluminum alloy was cast directly without any alloying addition. While making those castings, hydrogen content was measured continuously before each casting operation. As a final operation T6 heat treatment is carried out for certain samples. Finally, in order to accomplish our aim, mechanical and microstructural examination tests were conducted. 125

Published

2012