Studying the microstructure, physical & mechanical properties of Al matrix reinforced with bi-modal particles coated with either Ni or Cu / by Ghada EmadEldin Farag Fadel Abouattia ; under the supervision of Dr. Mahmoud A. Adly, Dr. Lamiaa Z. Mohamed, Dr. Aiea A. Elhabak

By:

Ghada EmadEldin Farag Fadel Abouattia [preparation.]

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Material type: Text

TextLanguage: English Summary language: English, Arabic Producer: 2022Description: 64 pages : illustrations ; 30 cm. + CDContent type:

text

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volume

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دراسة البنية المجهرية والخواص الفيزيائية والميكانيكية للالومنيوم المدعم بجزيئات ثنائية مطلية بالنيكل أو النحاس [Added title page title]

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669.722 21

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Dissertation note: Thesis (M.Sc.)-Cairo University, 2022. Summary: In the current study, a new generation of aluminum hybrid composite was successfully fabricated using powder metallurgy technique. The Al matrix was reinforced with (SiC-Y2O3) particles with 2.5, 5, and 7.5 wt% content coated with either Ni or Cu and a 50:50 ratio of SiC to yttria. For the purpose of studying the effect of the different weight percentages of the reinforcement material on the properties of the composite, a series of tests were performed. The samples were examined by optical, SEM, and TEM microscopy which showed uniform distribution of the reinforcement material and a uniform and complete coating in the Cu coated samples. XRD was also used for phase identification and a AlNi5Si2 peak was observed in the Ni coated samples indicating an interaction between SiC particles and the Al matrix. Another AlCu6 peak was observed in the Cu coated samples confirming complete coating in Cu coated samples. Wettability test also showed similar results as the Ni coated samples exhibited a hydrophilic nature while the Cu coated ones had a more hydrophobic nature. For examining the mechanical and tribological properties of the composites, a hardness test was conducted. The results show that increasing the wt% of the reinforcement up to 5wt% increases the hardness of the composite compared to pure Al sample. A pin-on-disc test was also conducted to study the wear rate of the samples. It was found that increasing the wt% of reinforcement decreases the wear rate of the Al composite with the best values at 0.5 m/s sliding speed and 7.5 wt% of reinforcement. For electrical and thermal conductivities, samples exhibited lower values in both conductivities compared to pure Al.Summary: تم استخدام تقنية ميتالورجيا المساحيق لتصنيع المواد المركبة ذات الاساس الالومنيوم مضاف اليها كربيد السليكون مع اكسيد الاتريوم مطلية بالفضة ثم النيكل أو النحاس. حيث كانت نسبة كربيد السليكون: اكسيد الاتريوم مطلية 50:50 . ثم تم طلاء الجسيمات المضافة ب 10 ٪ بالوزن بالنانو فضة متبوعة بالطلاء بطبقة أخرى من 10 ٪ نانو نيكل أو نانو نحاس بتقنية الترسيب الكيميائي غير الكهربائي. تم ضغط جميع العينات بواسطة مكبس أحادي المحور تحت 480 ميجا باسكال ، ثم تم تلبيدها في فرن تفريغ عند 600 درجة مئوية لمدة ساعة واحدة. الهدف من هذه الدراسة هو تصنيع جيل جديد من مركبات Al مدعمة بجزيئات ثنائية من كربيد السليكون مع اكسيد الاتريوم مطلية بالفضة ثم النيكل أو النحاس و دراسة تأثير النسب المختلفة من الجزيئات المدعمة على خصائص المركب.

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Thesis	قاعة الرسائل الجامعية - الدور الاول	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.13.13.M.Sc.2022.Gh.S (Browse shelf(Opens below))	Not for loan	01010110087742000

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Thesis (M.Sc.)-Cairo University, 2022.

Bibliography: pages 59-64.

In the current study, a new generation of aluminum hybrid composite was successfully fabricated
using powder metallurgy technique. The Al matrix was reinforced with (SiC-Y2O3) particles with
2.5, 5, and 7.5 wt% content coated with either Ni or Cu and a 50:50 ratio of SiC to yttria. For the
purpose of studying the effect of the different weight percentages of the reinforcement material on
the properties of the composite, a series of tests were performed. The samples were examined by
optical, SEM, and TEM microscopy which showed uniform distribution of the reinforcement
material and a uniform and complete coating in the Cu coated samples. XRD was also used for
phase identification and a AlNi5Si2 peak was observed in the Ni coated samples indicating an
interaction between SiC particles and the Al matrix. Another AlCu6 peak was observed in the Cu
coated samples confirming complete coating in Cu coated samples. Wettability test also showed
similar results as the Ni coated samples exhibited a hydrophilic nature while the Cu coated ones
had a more hydrophobic nature. For examining the mechanical and tribological properties of the
composites, a hardness test was conducted. The results show that increasing the wt% of the
reinforcement up to 5wt% increases the hardness of the composite compared to pure Al sample. A
pin-on-disc test was also conducted to study the wear rate of the samples. It was found that
increasing the wt% of reinforcement decreases the wear rate of the Al composite with the best
values at 0.5 m/s sliding speed and 7.5 wt% of reinforcement. For electrical and thermal
conductivities, samples exhibited lower values in both conductivities compared to pure Al.

تم استخدام تقنية ميتالورجيا المساحيق لتصنيع المواد المركبة ذات الاساس الالومنيوم مضاف اليها كربيد السليكون مع اكسيد الاتريوم مطلية بالفضة ثم النيكل أو النحاس. حيث كانت نسبة كربيد السليكون: اكسيد الاتريوم مطلية 50:50 . ثم تم طلاء الجسيمات المضافة ب 10 ٪ بالوزن بالنانو فضة متبوعة بالطلاء بطبقة أخرى من 10 ٪ نانو نيكل أو نانو نحاس بتقنية الترسيب الكيميائي غير الكهربائي. تم ضغط جميع العينات بواسطة مكبس أحادي المحور تحت 480 ميجا باسكال ، ثم تم تلبيدها في فرن تفريغ عند 600 درجة مئوية لمدة ساعة واحدة. الهدف من هذه الدراسة هو تصنيع جيل جديد من مركبات Al مدعمة بجزيئات ثنائية من كربيد السليكون مع اكسيد الاتريوم مطلية بالفضة ثم النيكل أو النحاس و دراسة تأثير النسب المختلفة من الجزيئات المدعمة على خصائص المركب.

Issues also as CD.

Text in English and abstract in Arabic & English.

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