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Academic literature on the topic 'Aluminum and its alloys'

Author: Grafiati

Published: 4 June 2021

Last updated: 9 February 2022

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Journal articles on the topic "Aluminum and its alloys"

Fan, Yang Yang, and Makhlouf M. Makhlouf. "Castable Aluminium Alloys for High Temperature Applications." Materials Science Forum 765 (July 2013): 8–12. http://dx.doi.org/10.4028/www.scientific.net/msf.765.8.

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Most traditional aluminium casting alloys are based on the aluminium-silicon eutectic system because of its excellent casting characteristics. However, the solidus in this system does not exceed 577 °C and the major alloying elements used with silicon in these alloys have high diffusivity in aluminium. Therefore, while these elements enhance the room temperature strength of the alloy, they are not useful at elevated temperatures. Considering nickel-base superalloys, whose mechanical properties are retained up to temperatures that approach 75% of their melting point, it is conceivable that cast

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HAYAMA, Masujiro. "Spining of aluminum and its alloys." Journal of Japan Institute of Light Metals 36, no. 12 (1986): 841–50. http://dx.doi.org/10.2464/jilm.36.841.

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OKOCHI, Haruno, and Katsuyuki TAKAHASHI. "Analysis of Aluminum and Its Alloys." Tetsu-to-Hagane 75, no. 3 (1989): 406–15. http://dx.doi.org/10.2355/tetsutohagane1955.75.3_406.

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Huynh, Khanh Cong, and Luc Hoai Vo. "Modification of aluminium and aluminium alloys by AL-B master alloy." Science and Technology Development Journal 17, no. 2 (2014): 56–66. http://dx.doi.org/10.32508/stdj.v17i2.1315.

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Chemical compositions and microstructures affect on mechanical – physical and working properties of aluminium and aluminum alloys. Transition elements, such as Ti, V, Cr, Zr in solid solution greatly reduce the electrical conductivity of aluminium and its alloys. For reduction of detrimental effects of transition elements, Al-B master alloys are added into molten aluminium to occur reactions of boron and transition elements to form diborides of titanium, vanadium, chromium and zirconium, which are markedly insoluble in molten aluminium, then these transition elements have an insignificant effe

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Mounika, G. "Closed Loop Reactive Power Compensation on a Single-Phase Transmission Line." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 2156–59. http://dx.doi.org/10.22214/ijraset.2021.35489.

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Zinc-aluminium alloys are alloys whose main ingredients stay zinc and aluminium. Other alloying elements clasp magnesium and copper .Zinc Aluminum Alloys over the past decayed are occupying attention of both researches and industries as a promising material for tribological applications. At this moment commercially available Zinc-Aluminium alloys and bearing bronzes due to good cost ability and unique combination of properties. They can also be deliberated as competing material for cast iron, plastics and even for steels. It has been shown that the addition of alloying elements including coppe

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Wang, Zhi, Raghunandan Ummethala, Neera Singh, et al. "Selective Laser Melting of Aluminum and Its Alloys." Materials 13, no. 20 (2020): 4564. http://dx.doi.org/10.3390/ma13204564.

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The laser-based powder bed fusion (LBPF) process or commonly known as selective laser melting (SLM) has made significant progress since its inception. Initially, conventional materials like 316L, Ti6Al4V, and IN-718 were fabricated using the SLM process. However, it was inevitable to explore the possible fabrication of the second most popular structural material after Fe-based alloys/steel, the Al-based alloys by SLM. Al-based alloys exhibit some inherent difficulties due to the following factors: the presence of surface oxide layer, solidification cracking during melt cooling, high reflectivi

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ENJO, Toshio. "Diffusion bonding of aluminum and its alloys." Journal of Japan Institute of Light Metals 39, no. 1 (1989): 58–66. http://dx.doi.org/10.2464/jilm.39.58.

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Ganiev, I. N., F. A. Aliev, H. O. Odinazoda, A. M. Safarov, and J. H. Jayloev. "Heat capacity and thermodynamic functions of aluminum conductive alloy E-AlMgSi (Aldrey) doped with gallium." Izvestiya Vysshikh Uchebnykh Zavedenii. Materialy Elektronnoi Tekhniki = Materials of Electronics Engineering 22, no. 3 (2020): 219–27. http://dx.doi.org/10.17073/1609-3577-2019-3-219-227.

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Aluminum — a metal whose scope of application is constantly expanding. At present, aluminum and its alloys in a number of areas successfully displace traditionally used metals and alloys. The widespread use of aluminum and its alloys is due to its properties, among which, first of all, low density, satisfactory corrosion resistance and electrical conductivity, ability to apply protective and decorative coatings should be mentioned. All this, combined with the large reserves of aluminum in the earth’s crust, makes the production and consumption of aluminum very promising. One of the promising a

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Bagautdinova, L. N., R. Sh Basyrov, I. I. Galimzyanov, et al. "New technology for welding aluminum and its alloys." Materials Today: Proceedings 19 (2019): 2566–67. http://dx.doi.org/10.1016/j.matpr.2019.08.239.

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Mandley, Varinder, and Mamta Janagal. "Methodology to Reduce Casting Defects of Alluminium alloy using Post Heat Treatment." CGC International Journal of Contemporary Technology and Research 2, no. 1 (2019): 77–80. http://dx.doi.org/10.46860/cgcijctr.2019.12.20.77.

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In early years with the expansion of industries and growth of technology, the usage of aluminum and its alloys is also expanding. Therefore It is additionally utilized in aviation and vehicle industries because of their low thickness, good hardness property, great mechanical properties, better consumption opposition and low coefficient of extension when compared with other metals and alloy. The initial step of assembling in the aluminum combinations begins with the throwing strategy in light of the fact that the underlying throwing structure importantly affects the achievement of thermo-mechan

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Dissertations / Theses on the topic "Aluminum and its alloys"

Yang, Deyu. "Rôle d'addition de magnésium sur l'occurence de la fonte naissante dans les alliages expérimentaux et commerciaux Al-Si-Cu et son influence sur la microstructure et les propriétés de traction de l'alliage = Role of magnesium addition on the occurence of incipient melting in experimental and commercial Al-Si-Cu alloys and its influence on the alloy microstructure and tensile properties /." Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2006. http://theses.uqac.ca.

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Sen, Fatih Gurcag. "Non-equilibrium Molecular Dynamics Of Electromigration In Aluminum And Its Alloys." Master's thesis, METU, 2006. http://etd.lib.metu.edu.tr/upload/12607654/index.pdf.

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With constant miniaturization of integrated circuits, the current densities experienced in interconnects in electronic circuits has been multiplied. Aluminum, which is widely used as an interconnect material, has fast diffusion kinetics under low temperatures. Unfortunately, the combination of high current density and fast diffusion at low temperatures causes the circuit to fail by electromigration (EM), which is the mass transport of atoms due to the momentum transfer between conducting electrons and diffusing atoms. In the present study, the effect of alloying elements in aluminum on the dif

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Klinter, Andreas. "Wetting behaviour of aluminum alloys on ceramic substrates and its effect on the stability of aluminum foams." Thesis, McGill University, 2010. http://digitool.Library.McGill.CA:8881/R/?func=dbin-jump-full&object_id=92344.

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Lamb, Justin. "Decomposition and its effects on mechanical properties in Al-Zn-Mg-Cu alloys." Diss., Georgia Institute of Technology, 2016. http://hdl.handle.net/1853/54931.

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The effects of variations in composition on the decomposition process in Al-Zn-Mg-Cu alloys (i.e. – 7xxx-series aluminum alloy) were studied emphasizing their effect on mechanical properties. Several experimental quaternary alloys were studied to compare their behavior with commercial 7xxx-series alloys. The investigation included studies on the effects of natural aging, artificial aging, quench sensitivity, precipitate free zone formation, and homogenization. Additionally, “true aging” curves (i.e. – hardness/strength vs. conductivity) were presented in order to visualize and quantify the

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Talbot, D. E. J. "Hydrogen in aluminium and its alloys." Thesis, Brunel University, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.235894.

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Deshpande, Nishkamraj U. "Characterization of fracture path and its relationship with microstructure and fracture toughness of aluminum alloy 7050." Diss., Georgia Institute of Technology, 1996. http://hdl.handle.net/1853/20210.

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Oguocha, Ikechukwuka N. A. "Characterization of aluminum alloy 2618 and its composites containing alumina particles." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape8/PQDD_0021/NQ37903.pdf.

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Abdul-Mahdi, F. S. "Tribological characteristics of coatings on aluminium and its alloys." Thesis, Brunel University, 1987. http://bura.brunel.ac.uk/handle/2438/5016.

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Hard anodising on aluminium and its alloys has been widely practised for many years in order to improve the resistance of the otherwise poor wear characteristics of aluminium. In recent years there has been an increasing interest in other treatments and coatings, on both aluminium and other base metals. The aim of this investigation is to explain the tribological performance and wear mechanism(s) of an uncoated aluminium alloy, four anodic coated alloys, and also an electroless nickel alloy. All of the coatings are produced on three different aluminium alloys. The thickness of the anodic films

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Duncan, Steven James. "Passivation and repassivation of aluminium and its alloys." Thesis, University of Cambridge, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.237673.

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Lavernia, Enrique J. "Development of the liquid dynamic compaction technique and its application to two high strength aluminum alloys." Thesis, Massachusetts Institute of Technology, 1986. http://hdl.handle.net/1721.1/15179.

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Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 1986. MICROFICHE COPY AVAILABLE IN ARCHIVES AND SCIENCE Vita. Bibliography: leaves 312-335. by Enrique J. Lavernia. Ph.D.

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Books on the topic "Aluminum and its alloys"

King, Frank. Aluminium and its alloys. Ellis Horwood, 1987.

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The welding of aluminium and its alloys. CRC Press, 2002.

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Mathers, Gene. The welding of aluminium and its alloys. CRC Press/Woodhead Publishing, 2002.

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Schütze, Michael. Corrosion resistance of aluminium and aluminium alloys: Corrosive agents and their interaction with aluminium and ist [i.e. its] alloys. [Wiley-VCH for] DECHEMA, 2010.

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Wernick, S. The surface treatment and finishing of aluminum and its alloys. 5th ed. ASM International, 1987.

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(Firm), Knovel, ed. The welding of aluminium and its alloys. CRC Press, 2002.

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Wernick, S. The surface treatment and finishing of aluminium and its alloys. 5th ed. ASM International, 1987.

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Wernick, S. The surface treatment and finishing of aluminium and its alloys. 5th ed. Finishing, 1987.

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Wernick, S. The surface treatment and finishing of aluminium and its alloys. 5th ed. ASM International, 1987.

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Wernick, S. The surface treatment and finishing of aluminium and its alloys. 5th ed. Finishing, 1987.

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Book chapters on the topic "Aluminum and its alloys"

Rumsey, Ann, and Muhammad Jahan. "Micromachining of Aluminum Alloys." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000175.

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This article provides a comprehensive overview of the machining of aluminum alloys, composites, and ceramics at micro scale. All major aspects of the micromachining of aluminum alloys including process descriptions, key research findings, applications, major challenges, and guidelines for future research have been covered in this article. Based on the literature, conventional micromachining processes, such as turning, milling, grinding, and drilling, have been found to be suitable for machining most of the cast and wrought aluminum alloys. On the other hand, nonconventional micromachining processes were approached for the micromachining of aluminum metal matrix composites and alumina ceramics. Some challenges and aspects in the area of micromachining of aluminum alloys that need future considerations are burr formation, tool wear, surface finish, microstructures and properties changes, and process development for advanced and hybrid micromachining.

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Kim, Nack J. "Designing with Aluminum Alloys." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000404.

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This article provides an overview of designing with aluminum alloys. Specific topics included in this review include: alloy designations, heat treatment of aluminum alloys, strengthening mechanisms, properties of aluminum alloys, Al-Li alloys, powder metallurgy of aluminum alloys, cast aluminum alloys, and temper designations. In addition, many reference tables are provided.

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Balomenos, Efthymios, and Dimitrios Gerogiorgis. "Carbothermic Reduction Methods for Alumina." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000248.

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The Hall–Héroult process for the electrolytic reduction of alumina was developed at the end of the 19th century and is still currently the only industrial process for the production of primary aluminum. Today, this process is ranked among the most energy- and CO2intensive industrial processes. Direct carbothermic reduction of alumina has been proposed as an alternative process, which can substantially improve the sustainability of primary aluminum production, leading to energy savings of up to 21% and reduction in greenhouse gas emission of up to 52%, while plant capital costs can be reduced up to 50%. However, processes developed so far suffer from low aluminum yields, primarily due to aluminum carbide and oxycarbide formation and aluminum vaporization phenomena. This article presents a thermodynamic study of the Al–C–O system and a review on the alumina carbothermic processes developed so far.

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Craig, Norman C. "Early History of Aluminum Metallurgy." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000246.

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Prior to the mid-1880s aluminum was known as a metallic substance but was too costly to be used for other than jewelry-type applications. In 1886, Charles Hall in the United States and Paul Héroult in France discovered an economical electrolysis process for reducing aluminum from its abundant ore, alumina (Al2O3). This method, known today as the Hall–Héroult process, was a direct application of the then-new development of dynamos and principally of waterpower to generate huge amounts of electricity. Within a few years, aluminum was being produced at a low enough price that this metal played a growing role in everyday life. As a lustrous and lightweight metal, aluminum transformed human expectations for the appearance and uses of metals. This paper traces the stories of Hall and Héroult in their historic paths from concept to industrialization for refining aluminum metal. The essentials of the Hall–Héroult process remain fundamental in the aluminum industry today.

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"Aluminum and Its Alloys." In Manufacturing Engineering and Materials Processing. CRC Press, 2011. http://dx.doi.org/10.1201/b11227-2.

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Martínez-Cázares, Gabriela M., and Diego Lozano. "Hall–Heroult Process." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000171.

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The principle of electrolysis in the production of primary aluminum has been used for more than 100 years. The Hall–Heroult process is based on the electrochemical reaction of alumina dissolved in cryolite, and the use of large amounts of current to promote the reactions. Aluminum of 99%–99.5% purity can be obtained from this process. The principle, reactions, and the electrolytic cell are briefly addressed in this article.

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Wanhill, R. J. H., and G. H. Bray. "Aerostructural Design and Its Application to Aluminum–Lithium Alloys." In Aluminum-lithium Alloys. Elsevier, 2014. http://dx.doi.org/10.1016/b978-0-12-401698-9.00002-1.

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Meysam, Haghshenas. "Welding Parameters for Aluminum Alloys." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000205.

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With increasing application of aluminum and aluminum alloys, as the most commonly used nonferrous metallic alloys in industrial scales, joining and in particular welding of these alloys remains an important area for mechanical and welding engineers as well as manufacturers to gain broad and comprehensive knowledge of welding parameters of aluminum. This article presents a discussion about weldability and properties of different aluminum alloys before and after welding. To this end, welding of cast and wrought, and heat treatable and non-heat treatable aluminum alloys are assessed in detail in this article. Also, the challenges encountered with aluminum welding, different aluminum welding processes including conventional and solid-state welding techniques are discussed.

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Kato, K., and H. Tokisue. "Friction Welding of Al2O3P/6061 Aluminum Alloy Composite to 5052 Aluminum Alloy." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000416.

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6061 aluminium alloy matrix composite containing 20.5 vol% particulate alumina and 5052 aluminium alloy were welded using a brake type friction welding machine. The microstructures and mechanical properties of the friction welded joints were investigated. The mechanically mixed regions and the alumina particles which had moved to the other part of the composite alloy were observed clearly on the weld interface. The hardness at the weld interface showed higher values than those of the base metals. The variation of hardness on the composite material side was not very significant, but a softened area could be seen in the heat affected zone of the 5052 aluminium alloy side and recovery to the same level of hardness as that of the 5052 aluminium alloy base metal could be found at about 20 mm from the weld interface. Regardless of the welding conditions, the joint efficiency in terms of tensile strength was 95–101% of that of the composite material base metal and the maximum elongation was 71% of that of the composite material base metal. Friction welded joints with good joint efficiency fractured near the weld interface of the heat affected zone of the composite base metal. The impact values of the welded joints with a notch in the weld interface were about 70% of those of the composite material base metal.

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Sverdlin, Alexey. "Introduction to Aluminum." In Encyclopedia of Aluminum and Its Alloys. CRC Press, 2019. http://dx.doi.org/10.1201/9781351045636-140000421.

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Aluminum is the most heavily consumed non-ferrous metal in the world with an annual consumption of approximately 24 million tons of which it is estimate that 75% of this total amount is primary aluminum (aluminum extracted from ore). This article provides an overview of aluminum ores and their composition, reduction of aluminum, production of commercial quality aluminum, extraction, refinement and the production of ultrapure aluminum.

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Conference papers on the topic "Aluminum and its alloys"

Zhang, Xudong, Wuzhu Chen, Yuanqing Shuang, and Kangjian Wang. "Coaxial hybrid CO 2 -MIG welding system and its application in welding of aluminum alloys." In Photonics Asia 2004, edited by ShuShen Deng, Akira Matsunawa, Y. Lawrence Yao, and Minlin Zhong. SPIE, 2005. http://dx.doi.org/10.1117/12.571179.

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Degtyar, L. A., K. V. Ovchinnikova, I. Y. Zhukova, and A. A. Kuts. "ANODIC PROCESSES DURING ELECTRODEPOSITION OF NICKEL, ITS ALLOYS AND COMPOSITE COATINGS." In INNOVATIVE TECHNOLOGIES IN SCIENCE AND EDUCATION. DSTU-Print, 2020. http://dx.doi.org/10.23947/itno.2020.185-188.

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The results of investigations of the anodic processes of electrodeposition of nickel, nickel-boron alloy, composite coatings nickel-ultrafine diamond and nickel-cobalt-aluminum oxide are presented. It was shown that the oxidation of the boron-containing additive occurs at potentials much more positive than the oxidation potential of nickel, which means that oxidation of the boron compound is impossible under real conditions of electrodeposition. During the electrodeposition of CEC, the anode process proceeds without any complications and the dissolution of the anodes occurs in the same way as

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Ali, Hessein, Zachary Stein, Quentin Fouliard, et al. "Computational Model of Mechano-Electrochemical Effect of Aluminum Alloys Corrosion." In ASME Turbo Expo 2021: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/gt2021-59681.

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Abstract Stress corrosion is a critical issue that leads to high costs in lost equipment and maintenance, affecting the operation and safety of aircraft platforms. Most aerospace structural components use the aluminum alloys 7xxx series, which contain Al, Cu, Zn, and Mg, due to the combined advantage of its high-strength and lightweight. However, such alloys, specifically AA7075-T4 and AA7075-T651, are susceptible to stress corrosion cracking (SCC) when exposed to both mechanical stresses and corrosive environments. SCC gives rise to a major technological challenge affecting aerospace systems

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Castro, R. G., D. J. Thoma, R. U. Vaidya, and R. D. Field. "Characterizaton of Plasma Sprayed Aluminum-Beryllium for Aerospace and Space Application." In ITSC 2000, edited by Christopher C. Berndt. ASM International, 2000. http://dx.doi.org/10.31399/asm.cp.itsc2000p0583.

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Abstract There is a continued need within the aerospace and space communities to increase the structural efficiency of launch vehicles in order to increase the payload and/or lower fuel usage. Many of these structures have critical stiffness demands because of deflection, buckling, or acoustic/vibration damping. Aluminum-beryllium (Al-Be) is a candidate material for many such structural components because it has a very high stiffness to weight ratio (second only to pure beryllium) and has superior formability and weldability as compared to beryllium. The strength to weight ratio of commercial

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Wielage, B., M. Zschunke, A. Henker, and S. Steinhäuser. "Manufacture and Characterization of Particle Reinforced Aluminum Coatings." In ITSC 1996, edited by C. C. Berndt. ASM International, 1996. http://dx.doi.org/10.31399/asm.cp.itsc1996p0333.

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Abstract For reasons of the decrease in weight in the industry light cage design materials like aluminum alloys are frequently used. Because the wear resistance of aluminum alloys and/or aluminum generally is not sufficient, an increased wear resistance can be reached by means of particle reinforced aluminum coatings. The installation of ceramic reinforcing components (for example oxide particles) in the ductile metal matrix brings an essential improvement of the wear resistance particularly with regard to abrasion and short time fatigue wear. The results presented in the paper refer to resear

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Anderson, Bruce, Tony Anderson, Galen White, and Patrick Berube. "New Development in Aluminum Welding Wire - Alloy 4943." In SNAME Maritime Convention. SNAME, 2012. http://dx.doi.org/10.5957/smc-2012-p16.

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Aluminum alloy 4943 filler metal is the first aluminum filler alloy to be developed for wrought commercial applications since the 1960’s and has recently received AWS A5.10 approval. It is designed to provide a high strength alternative to 4043 while maintaining the ease of welding and other advantages of 4043. Alloy 4043 filler metal is a popular aluminum/silicon filler alloy for general purpose welding applications but can show significant variability in strength based on welding conditions and the level of base metal dilution. Alloy 4943 filler metal is formulated to be welded with the same

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Leylavergne, M., H. Valetoux, J. F. Coudert, P. Fauchais, and V. Leroux. "Comparison of the Behaviour of Copper, Cast Iron and Aluminum Alloy Substrates Heated by a Plasma Transferred Arc." In ITSC 1998, edited by Christian Coddet. ASM International, 1998. http://dx.doi.org/10.31399/asm.cp.itsc1998p0489.

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Abstract PTA (Plasma Transferred Arc) reclamation of aluminum alloys by hard materials with a much higher melting temperature is very difficult. This is due to the high thermal diffusivity of these al1oys. Below a critical heat flux φc nothing happens and over φc the substrate melts very rapidly contrarily to what is observed with steel substrates. That explains probably why PTA is mainly used for steel reclamation. Thus the knowledge of heat flux transferred to the anode is a critical point to develop PTA reclamation on aluminum alloys and this is the aim of this paper. An experimental set-up

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Aziz, Sadiq Jaffer, Ahmed Adnan Shandookh, and Rafeef Jumaa Salman. "Microwaves furnace heat effect on aluminum alloy 7075-T73." In 2018 International Conference on Advance of Sustainable Engineering and its Application (ICASEA). IEEE, 2018. http://dx.doi.org/10.1109/icasea.2018.8370988.

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Miscow, Guilherme Farias, Joa˜o Carlos Ribeiro Pla´cido, Paulo Emi´lio Valada˜o de Miranda, and Theodoro Antoun Netto. "Aluminum Drill Pipe Fatigue Analysis." In ASME 2004 23rd International Conference on Offshore Mechanics and Arctic Engineering. ASMEDC, 2004. http://dx.doi.org/10.1115/omae2004-51409.

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While drilling extended reach wells, the weight per foot of the drill string is a critical design parameter that can limit the depth to be reached. One practical solution is the use of drill pipes made of alternative materials to the conventional steel drill pipes. The most direct options are titanium and aluminum. Titanium is in general impaired due to its high cost, although the titanium alloy Ti-6Al4V has already been used in the airplane industry. More recently, Russia has been manufacturing drill pipes using aluminum alloys of the system Al-Cu-Mg, similar to alloys 2024, also used in airp

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James, Sagil, and Ambarneil Roy. "Study of Aging Heat Treatment Parameters for 7050 and 7075 Aluminum Alloys." In ASME 2020 15th International Manufacturing Science and Engineering Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/msec2020-8348.

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Abstract Among the different commercially used Aluminum (Al) alloys, the 7000 series offers some of the highest mechanical properties making them the material of choice for several critical engineering applications. These Al alloys often required to undergo a heat treatment (HT) process to enhance their mechanical and metallurgical properties to the desired levels. Currently, there is a growing need to find the optimal operational parameters for the HT process of Al 7000 series alloys. The operators have to resort to a start/stop approach, while intermittently evaluating and testing the mechan

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Reports on the topic "Aluminum and its alloys"

Dr. Subodh K. Das and Shridas Ningileri. Reduction of Oxidative Melt Loss of Aluminum and Its Alloys. Office of Scientific and Technical Information (OSTI), 2006. http://dx.doi.org/10.2172/877410.

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Weiss, David C., and Gerald A. Gegal. Energy-Saving Melting and Revert Reduction Technology (E-SMARRT): Development of Elevated Temperature Aluminum Metal Matrix Composite (MMC) Alloy and Its Processing Technology. Office of Scientific and Technical Information (OSTI), 2014. http://dx.doi.org/10.2172/1131418.

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Purtscher, P. T., M. Austin, S. Kim, and D. Rule. Aluminum-lithium alloys :. National Institute of Standards and Technology, 1992. http://dx.doi.org/10.6028/nist.ir.3986.

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Sikka, V. K., G. M. Goodwin, and D. J. Alexander. Low-aluminum content iron-aluminum alloys. Office of Scientific and Technical Information (OSTI), 1995. http://dx.doi.org/10.2172/115407.

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Nieh, T. G. Superplasticity in aluminum alloys. Office of Scientific and Technical Information (OSTI), 1997. http://dx.doi.org/10.2172/574532.

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Peacock, H., and R. Frontroth. Properties of aluminum-uranium alloys. Office of Scientific and Technical Information (OSTI), 1989. http://dx.doi.org/10.2172/5462232.

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Davenport, J. W., N. Chetty, R. B. Marr, et al. First principles pseudopotential calculations on aluminum and aluminum alloys. Office of Scientific and Technical Information (OSTI), 1993. http://dx.doi.org/10.2172/10112660.

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Sunwoo, A. J. Diffusion bonding of superplastic aluminum alloys. Office of Scientific and Technical Information (OSTI), 1993. http://dx.doi.org/10.2172/10144113.

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Lee, E. U., R. Taylor, C. Lei, B. Pregger, and E. Lipnickas. Stress Corrosion Cracking of Aluminum Alloys. Defense Technical Information Center, 2012. http://dx.doi.org/10.21236/ada568598.

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Reed, R. P., P. T. Purtscher, N. J. Simon, et al. Aluminum alloys for ALS cryogenic tanks :. National Institute of Standards and Technology, 1993. http://dx.doi.org/10.6028/nist.ir.3979.

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