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Ṣāḥib al-Aghānī Abū al-Faraj al-Iṣbahānī al-rāwiyahKhalaf Allāh, Muḥammad Aḥmad. January 1968 (has links)
Risālat al-duktūrāh--Jāmiʻat al-Qāhirah. / Bibliography: p. 236-242.
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Ṣāḥib al-Aghānī Abū al-Faraj al-Iṣbahānī al-rāwiyahKhalaf Allāh, Muḥammad Aḥmad. January 1968 (has links)
Risālat al-duktūrāh--Jāmiʻat al-Qāhirah. / Bibliography: p. 236-242.
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La biographie du sultan ayyoubide al-Malik al-Kamil, 615-635 de l'Hégire, 1218-1238Ismail, Kamil. January 1900 (has links)
Thèse--Paris. / Includes bibliography.
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Alloying Aluminum with Transition MetalsFan, Yangyang 04 May 2015 (has links)
A castable alloy, i.e., one that flows easily to fill the entire mold cavity and also has resistance to hot tearing during solidification, must invariably contain a sufficient amount of a eutectic structure. For this reason, most traditional aluminum casting alloys contain silicon because the aluminum-silicon eutectic imparts to the alloy excellent casting characteristics. However, the solidus temperature in the Al-Si system does not exceed 577°C, and the major alloying elements (i.e., zinc, magnesium, and copper) used with silicon in these alloys further lower the solidus temperature. Also, these elements have high diffusivity in aluminum and so, while they enhance the room temperature strength of the alloy, they are not useful at elevated temperatures. Considering nickel-base super alloys, whose mechanical properties are retained up to temperatures that approach 75% of their melting point, it is conceivable that castable aluminum alloys can be developed on the same basis so that they are useful at temperatures approaching 350C. A castable aluminum alloy intended for high temperature applications must contain a eutectic structure that is stable at temperatures higher than 600°C, and must contain second phase precipitate particles that are thermodynamically stable at the service temperature. Transition metal trialuminides with the general chemical formula AlxTMy in which TM is a transition metal, are excellent candidates for both the eutectic structure and the precipitate particles. In this research, the use of transition metals in the constitution of aluminum casting alloys is investigated with emphasis on the morphology, crystallography, and mechanisms of formation of the various phases.
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Aluminium matrix nanocomposites produced in situ by friction stir processingLee, I-Shan 26 March 2011 (has links)
Friction stir processing (FSP) was applied to produce aluminum based in situ
composites from powder mixtures of Al-Fe, Al-Mo, and Al-Fe2O3. Billet of powder
mixtures was prepared by the use of conventional pressing and sintering route. The
sintered billet was then subjected to multiple passages of FSP. During FSP, the material
has experienced both high temperature and very large plastic strain. The basic idea for
fabricating the composites is to combine the hot working nature of friction stir
processing (FSP) and the exothermic reaction between aluminum and transition metals
(Al-Fe, Al-Mo) or metal oxides (Al-Fe2O3).
In the Al-Fe alloy, in situ Al¡VFe reaction can be induced during FSP and form
Al-Al13Fe4 composite. The size of reinforcing particles formed by the in-situ reaction is
~100 nm. In Al-Mo alloys, fine Al-Mo intermetallic particles with an average size of
~200 nm were formed and uniformly dispersed in the aluminum matrix by FSP. The
Al-Mo intermetallic particles were identified mainly as Al12Mo with minor amount of
Al5Mo. The exothermic reaction could result in local melting of Al at the Al/TM
interface, and the liquid Al may accelerate the reaction. In addition, it is suggested that
the critical mechanism responsible for the rapid reaction and the formation of nanometer
sized particles in FSP is the effective removal of the Al-TM intermetallic phase from
the Al-TM interface, maintaining an intimate contact between TM and Al.
In the Al-Fe2O3 system, the reactions taking place during FSP includes the thermite
reaction (2Al +Fe2O3 ¡÷ Al2O3 + 2Fe), and the reaction between the reduced Fe and Al
to form Al13Fe4. In the FSPed Al-Fe2O3 specimens, there are two types of second phase
particles, Al13Fe4 and Al2O3. The Al2O3 particles (about 10 nm in size) usually appear
as a cluster of 100-200 nm in diameter. There are two types of Al2O3 phases existed in
the Al matrix after FSP passes, depending on the content of Fe2O3. One is £^-Al2O3 in Al-2Fe2O3 specimens, and the other is £\-Al2O3 in Al-4Fe2O3 specimens. It is suggested
that the formation of different type of Al2O3 particles in the Al-Fe2O3 composites may
be attributed to different heat release in each system. The lower heat release in
Al-2Fe2O3 sample favors the formation of the while the higher heat release in
Al-4Fe2O3 sample results in the £\-Al2O3.
The Al-Al13Fe4/Al2O3 composite produced by FSP exhibits both high strength and
good tensile ductility. The higher strength in Al-Fe2O3 specimen may be due to the
presence of fine Al2O3 particles. The flow stress of the Al-4Fe2O3 composite can
maintain at 100 MPa even at 773 K. The good thermal stability and high temperature
strength of Al-Al13Fe4/Al2O3 composites could be attributed to the fine dispersion of
second phase particles in the aluminum matrix, especially the nanometric Al2O3
particles. These Al2O3 particles are very stable at elevated temperatures, even after long
time exposure at 873 K.
The temperature excursion in FSP is determined by both the FSP parameters and
the exothermic reaction involved. The peak temperature in Al-Fe or Al-Fe2O3
system during FSP was calculated as a function of the fraction of Fe or Fe2O3 reacted.
Based on calculated results, it is noted that with the in situ reaction, the value of
can easily reach the melting point of Al, especially for the Al-Fe2O3 system. The
reaction mechanism and microstructure evolution during FSP are discussed.
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Jamʻīyat al-ʻUlamāʼ al-Muslimīn al-Jazāʼirīyīn wa-dawruhā fī al-ḥarakah al-waṭanīyah al-Jazāʼirīyah, 1349-1358 H, 1931-1939 M /Muṭabbaqānī, Māzin Ṣalāḥ Ḥāmid. January 1988 (has links)
Thesis (master's)--Jāmiʻat al-Malik ʻAbd al-ʻAzīz, Jiddah. / Includes bibliographical references (p. 247-266).
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The theology of al-ʻAllāma al-Hillī (d. 726/1325)Schmidtke, Sabine. January 1991 (has links)
Thesis (Ph. D.)--University of Oxford, Oxford, England, 1990. / Spine title: al-ʻAllāma al-Ḥillī. Includes bibliographical references (p. 261-283) and indexes.
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Arab social life in the Middle Ages : an illustrated study /Guthrie, Shirley. January 1995 (has links)
Texte remanié de: Th.--Edinburgh, 1991. / Glossaire. Bibliogr. p. 218-221. Index.
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Die Quellen des Kitab al Agani /Fleischhammer, Manfred, January 2004 (has links)
Texte remanié de: Diss.--Philosophische Fakultät--Halle-Wittenberg--Martin-Luther-Universität, 1965. / Bibliogr. p. 253-255. Notes bibliogr. Index.
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The theology of al-ʻAllāma al-Hillī (d. 726/1325)Schmidtke, Sabine. January 1991 (has links)
Thesis (Ph. D.)--University of Oxford, Oxford, England, 1990. / Spine title: al-ʻAllāma al-Ḥillī. Includes bibliographical references (p. 261-283) and indexes.
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