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Bibliografie tematiche / Aluminium alloys

Letteratura scientifica selezionata sul tema "Aluminium alloys"

Autore: Grafiati

Pubblicato: 4 giugno 2021

Ultima modifica: 7 luglio 2024

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Articoli di riviste sul tema "Aluminium alloys"

1

Huynh, Khanh Cong, e Luc Hoai Vo. "Modification of aluminium and aluminium alloys by AL-B master alloy". Science and Technology Development Journal 17, n. 2 (30 giugno 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 effects on conductivity. In addition, Al-B master alloys is also used as a grain refiner of aluminium and aluminium alloys. Aluminium borides particles in Al-B master alloys act as substrates for heterogeneous nucleation of aluminium and its alloys. Al-B master alloys are prepared from low cost materials, such as boric acid H3BO3 and cryolite Na3AlF6, by simple melting method, easily realize in electrical wire and cable factories.

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2

Fan, Yang Yang, e Makhlouf M. Makhlouf. "Castable Aluminium Alloys for High Temperature Applications". Materials Science Forum 765 (luglio 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 castable aluminium alloys can be developed on the same basis so that they are useful at temperatures approaching 300 °C. In this publication, we present the thought process behind developing a new castable aluminum alloy that is designed specifically for such high temperature applications and we present the alloy’s measured castability characteristics and its elevated temperature tensile properties.

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3

Zou, Cheng Lu, Gui Hong Geng e Wei Ye Chen. "Development and Application of Aluminium-Lithium Alloy". Applied Mechanics and Materials 599-601 (agosto 2014): 12–17. http://dx.doi.org/10.4028/www.scientific.net/amm.599-601.12.

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The history of aluminium-lithium alloys development has been reviewed in this paper. According to the strength, weld ability and corrosion resistance, thermal stability and plasticity, aluminium-lithium alloy has been categorized and the defects of aluminium-lithium alloys in early stage have been analyzed. As compared the third generation of aluminium-lithium alloy with normal aluminum alloy and composite materials, it indicates aluminium-lithium alloy has better performance, lower cost and reduced weight. After analyzing the advantages and disadvantages of the rapid solidification, ingot casting metallurgy and electromagnetic simulated microgravity methods in synthesis of aluminium-lithium alloy, it has been found microgravity method has prominent effect on reducing the alloy segregation and lithium losses. Finally, the future development of aluminium-lithium alloys has been discussed.

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4

Kucharčík, L., M. Brůna e A. Sládek. "Influence of Chemical Composition on Porosity in Aluminium Alloys". Archives of Foundry Engineering 14, n. 2 (1 giugno 2014): 5–8. http://dx.doi.org/10.2478/afe-2014-0026.

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Abstract Porosity is one of the major defects in aluminum castings, which results is a decrease of a mechanical properties. Porosity in aluminum alloys is caused by solidification shrinkage and gas segregation. The final amount of porosity in aluminium castings is mostly influenced by several factors, as amount of hydrogen in molten aluminium alloy, cooling rate, melt temperature, mold material, or solidification interval. This article deals with effect of chemical composition on porosity in Al-Si aluminum alloys. For experiment was used Pure aluminum and four alloys: AlSi6Cu4, AlSi7Mg0, 3, AlSi9Cu1, AlSi10MgCu1.

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5

Zhou, Jia, Jun Ping Zhang e Ming Tu Ma. "Study on the Formability of Aluminium Alloy Sheets at Room and Elevated Temperatures". Materials Science Forum 877 (novembre 2016): 393–99. http://dx.doi.org/10.4028/www.scientific.net/msf.877.393.

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This paper presents the main achievements of a research project aimed at investigating the applicability of the hot stamping technology to non heat treatable aluminium alloys of the 5052 H32 and heat treatable aluminium alloys of the 6016 T4P after six months natural aging. The formability and mechanical properties of 5052 H32 and 6016 T4P aluminum alloy sheets after six months natural aging under different temperature conditions were studied, the processing characteristics and potential of the two aluminium alloy at room and elevated temperature were investigated. The results indicated that the 6016 aluminum alloy sheet exhibit better mechanical properties at room temperature. 5052 H32 aluminum alloy sheet shows better formability at elevated temperature, and it has higher potential to increase formability by raising the temperature.

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6

Han, Yu, Bao An Chen, Zhi Xiang Zhu, Dong Yu Liu e Yan Qiu Xia. "Effects of Zr on Microstructure and Conductivity of Er Containing Heat-Resistant Aluminum Alloy Used for Wires". Materials Science Forum 852 (aprile 2016): 205–10. http://dx.doi.org/10.4028/www.scientific.net/msf.852.205.

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It has particular heat-resistant property and conductivity of high-conductivity heat-resistant Aluminium alloys, which would be wildly applied in transmission and transformation flied. Al-Er-Zr alloys containing different content of Zr were prepared. The effect of Zr on microstructure of heat-resistance Aluminum alloy were studied by using of STEM, and thermodynamic behavior of Zr in Aluminium alloy was analyzed based on the theory of alloy phase formation. The results showed that the effect of Zr content on the grain size of heat-resistant aluminum alloy was remarkable, and the conductivity of heat-resistance Aluminum alloy was influenced.

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7

Mounika, G. "Closed Loop Reactive Power Compensation on a Single-Phase Transmission Line". International Journal for Research in Applied Science and Engineering Technology 9, n. VI (20 giugno 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 copper, silicon, magnesium, manganese and nickel can improve the mechanical and tribological properties of zinc aluminum alloys. This alloy has still found limited applications encompassing high stress conditions due to its lower creep resistance, compared to traditional aluminum alloys and other structural materials. This has resulted in major loss of market potential for those alloy otherwise it is excellent material. The aim of this paper is to measure the coefficient of friction and wear under different operating conditions for material with silicon content. Then wear equation will be found out for all the materials experimented under various conditions. In this paper there is discussion of the effect of Silicon on tribological properties of aluminium based Zinc alloy by experiment as well as Ansys software based and compares the same.

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8

Labur, T. M. "Welded structures from aluminium alloys". Paton Welding Journal 2020, n. 3 (28 marzo 2020): 25–33. http://dx.doi.org/10.37434/tpwj2020.03.04.

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9

Mamala, A., e W. Sciężor. "Evaluation of the Effect of Selected Alloying Elements on the Mechanical and Electrical Aluminium Properties". Archives of Metallurgy and Materials 59, n. 1 (1 marzo 2014): 413–17. http://dx.doi.org/10.2478/amm-2014-0069.

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Abstract Modern industry expects aluminum products with new, unusual, and well-defined functional properties. Last years we are able to notice constant development of aluminium alloys. In food industry, power engineering, electrical engineering and building engineering, flat rolled products of 1XXX series aluminium alloys are used.8XXX series alloys registered in Aluminium Association during last 20 years may be used as an alternative. These alloys have very good thermal and electrical conductivity and perfect technological formability. Moreover, these materials are able to obtain by aluminium scrap recycling. Fundamental alloy additives of 8XXX series are Fe, Si, Mn, Mg, Cu and Zn. Aluminium alloying with these additives makes it possible to obtain materials with different mechanical ale electrical properties. In this paper, the analysis of alloy elements content (in 8XXX series) effect on chosen properties of material in as cast and after thermal treatment tempers has been presented.

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Bouzekova-Penkova, Anna, e Adelina Miteva. "Some Aerospace Applications of 7075 (B95) Aluminium Alloy". Aerospace Research in Bulgaria 34 (2022): 165–79. http://dx.doi.org/10.3897/arb.v34.e15.

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Nowadays, aluminium alloys are of growing interest to scientists and are widely used in aerospace and allied industries due to their inherent lightness, high strength to weight ratio, excellent thermal and electrical conductance, good reflectivity and low working cost. Among the conventional structural materials used in aerospace applications aluminium alloys are frontrunners. This is due to the ability of modern aluminium alloys to achieve unique combination of properties, through alloying and heat treatment, tailored to particular applications. Aluminum alloy 7075 (B95) is a high-strength alloy that works in extreme conditions and is used in modern construction of aircraft, spacecraft and satellites. In this mini-review, we will briefly focus on some of the existing and growing applications of some 7xxx aluminum alloys, in particular 7075 (B95), in the aerospace industry. Possible options for continuing work in this area are considered, and some Bulgarian developments are presented.

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Tesi sul tema "Aluminium alloys"

1

Nafisi, Shahrooz. "Effects of grain refining and modification on the microstructural evolution of semi-solid 356 alloy = Effets de l'affinage des grains et de la modification sur l'évolution microstructurale de l'alliage 356 semi-solide /". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2006. http://theses.uqac.ca.

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Saoudi, Abdelhamid. "Prédiction de la rupture par fatigue dans les pièces automobiles en alliages aluminium /". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2008. http://theses.uqac.ca.

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Thèse (D.Eng.) -- Université du Québec à Chicoutimi, 2008.
La p. de t. porte en outre: Doctorat en ingénierie, thèse pour l'obtention du titre de Philosophiae Doctor en ingénierie. CaQQUQ Comprend des réf. bibliogr. (f. 174-178). Publié aussi en version électronique. CaQQUQ

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3

Mohamed, Adel. "Effet des additifs sur la microstructure et les propriétés mécaniques des alliages d'aluminium-silicium /". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2008. http://theses.uqac.ca.

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Thèse (D.Eng..) -- Université du Québec à Chicoutimi, 2008.
La p. de t. porte en outre: Thèse présenté[e] à l'Université du Québec à Chicoutimi comme exigence partielle du doctorat en ingénierie. CaQQUQ Comprend des réf. bibliogr. (f. [292]-314). Publié aussi en version électronique. CaQQUQ

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4

El, Sebaie Ossama. "L'effet de l'addition du "mischmetal", du taux de refroidissement et du traitement thermique sur la microstructure et la dureté des alliages Al-Si de type 319, 356, et 413 = Effect of mischmetal, cooling rate and heat treatment on the microstructure and hardness of 319, 3456, and 413 Al-Si alloys /". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2006. http://theses.uqac.ca.

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5

Matthews, Stephen John. "Cavitation erosion of aluminium alloys, aluminium alloy/ceramic composites and ceramics". Thesis, Coventry University, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.317927.

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6

Golbahar, Behnam. "Effect of grain refiner-modifier interaction on the performance of A356.2 alloy". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2008. http://theses.uqac.ca.

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Thèse (M.Eng.) -- Université du Québec à Chicoutimi, 2008.
La p. de t. porte en outre: Mémoire présenté à l'Université du Québec à Chicoutimi comme exigence partielle de la maîtrise en ingénierie. CaQQUQ Comprend des réf. bibliogr. (f. 149-155). Publié aussi en version électronique. CaQQUQ

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7

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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8

Blanchette, Hugues. "Développement d'un système de contrôle de qualité pour les lopins d'aluminium semi-solide[s] obtenus avec le procédé SEED /". Thèse, Chicoutimi : Université du Québec à Chicoutimi, 2006. http://theses.uqac.ca.

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Wilson, G. R. "Surface studies of aluminium and aluminium alloys". Thesis, University of Newcastle Upon Tyne, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.377646.

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10

Bhattacharya, Victoria. "Study Of Friction And Wear Behaviour Of Nano-Embedded Aluminium Alloys". Thesis, Indian Institute of Science, 2000. https://etd.iisc.ac.in/handle/2005/190.

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In general, the bearing alloys have two types of microstructure i.e., either a soft matrix with discrete hard particles or a continuous matrix of the harder metal with small amount of the softer metal finely dispersed in it. The aluminium and copper based bearing alloys which are widely studied fall in the second category. However, the bearing materials which have been studied have micron sized dispersoids. In recent times, it is possible to produce nanoscale dispersoids in a hard matrix by the novel processing route of rapid solidification. This offers an opportunity to study the small length scale effect on tribological processes. In this thesis, we deal with aluminium alloys where nanoscaled dispersions of lead, bismuth and indium are produced by rapid solidification processing. Chapter 1 of the thesis is an introduction, followed by Chapter 2, which reviews the literature on nanomaterials. Special attention is given to the monotectic system, followed by a brief description on friction and wear of materials which is necessary for our present investigation. The details of experimental and characterisation techniques are given in Chapter 3. In Chapter 4, we present a brief study of white metal bearings (babbit). Tin-based babbit of composition, Sn-6wt% Cu-llwt% Sb was studied. The study of babbit was mainly carried out with the idea that it could serve as a benchmark for subsequent studies in aluminium alloys, in terms of tribological properties. In particular, we have carried out a detailed electron microscopic investigation on the phases present in the bearing alloy. The friction and wear behaviour of this material confirms the proper calibration of our setup for wear studies. This is followed by a detailed study on the synthesis, microstructure and tribological behaviour of nanodispersed aluminium alloys, Al-6wt% Pb and Al-10wt% Pb in Chapter 5. For comparison, we have also studied melt-spun aluminium without dispersoids. Detailed electron microscopic characterisation indicates that lead has a cube on cube orientation relationship with the aluminium matrix, and the particles exhibit a lognormal distribution with the mode of the particle size distribution being 15 nm. The pin on disc results suggest a distinct lowering of coefficient of friction corresponding to pure aluminium (μ= 0.40) and as cast aluminium-lead alloys (μ= 0.41). Detailed SEM studies indicate a tribolayer consisting primarily of Al, Pb and Fe. The later comes from the counterface material. Our results clearly indicate that at an early stage, little or no oxidation takes place at the sliding interface. TEM observations indicate significant deformation of lead particles in the sub-surface region. The observations suggest spreading of the lead, which acts as a lubricating layer. Wear behaviour is primarily adhesive and follows Archard's wear law. However, the rate of wear is less than that reported by other investigators on micronsized lead dispersions in aluminium. In Chapter 6, we present the results for alloys dispersed with nanosized indium and bismuth. We show that indium particles on melt-spinning exhibit both cubic and tetragonal crystal structure. The indium particles are coarser (with a mode of 25 nm) than the lead and bismuth particles (which have mode of 15nm). The bismuth containing alloys have a lower wear rate and coefficient of friction compared to lead and indium alloys. However, both indium and bismuth particles do not follow Archard's wear law and the wear vs load graph shows a non-linear behaviour. The results are discussed in terms of known mechanisms of the coefficient of friction and wear. Chapter 7 gives the salient conclusions while in Chapter 8 we discuss some of the unanswered questions and the potential for future work in this field.

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Più fonti

Libri sul tema "Aluminium alloys"

1

Hufnagel, W. Key to aluminium alloys =: Aluminium-Schlüssel. 4^a ed. Düsseldorf: Aluminium-Verlag, 1991.

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2

Datta, John. Aluminium-schlüssel =: Key to aluminium alloys. 5^a ed. Düsseldorf: Aluminium-Verlag Marketing & Kommunikation, 1997.

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1924-, Hufnagel W., e Datta John, a cura di. Aluminium-Schlüssel =: Key to aluminium alloys. 6^a ed. Deusseldorf: Aluminium-Verlag, 2002.

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4

International Aluminum-Lithium Conference (3rd 1985 University of Oxford). Aluminium-lithium alloys III: Proceedings of the Third International Aluminium-Lithium Conference. London: The Institute, 1986.

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5

Sheppard, Terry. Extrusion of Aluminium Alloys. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3001-2.

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6

King, Frank. Aluminium and its alloys. Chichester [West Sussex]: Ellis Horwood, 1987.

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7

Herkommer, M. Pretreatment of aluminium alloys. Manchester: UMIST, 1993.

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8

Sheppard, T. Extrusion of aluminium alloys. Dordrecht: Kluwer Academic Publishers, 1999.

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9

Sheppard, Terry. Extrusion of Aluminium Alloys. Boston, MA: Springer US, 1999.

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10

M, Peters, Winkler P. -J e International Aluminium-Lithium Conference (6th : 1991 : Garmisch-Partenkirchen, Germany), a cura di. Aluminium-Lithium. Germany: DGM Informationsgesellschaft, 1992.

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Capitoli di libri sul tema "Aluminium alloys"

1

Eswara Prasad, N., Amol A. Gokhale e R. J. H. Wanhill. "Aluminium–Lithium Alloys". In Aerospace Materials and Material Technologies, 53–72. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-2134-3_3.

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2

Watts, G. R. "Alloys with Aluminium". In Rh Rhodium, 61–63. Berlin, Heidelberg: Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-662-06411-5_14.

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3

Sheppard, Terry. "Processing of 6XXX alloys". In Extrusion of Aluminium Alloys, 253–322. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3001-2_6.

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4

Ciach, R., e M. Podosek. "Solidification of Aluminium Alloys". In Advanced Light Alloys and Composites, 201–6. Dordrecht: Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-015-9068-6_27.

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5

Bolton, William, e R. A. Higgins. "Aluminium and its alloys". In Materials for Engineers and Technicians, 227–40. Seventh edition. | Abingdon, Oxon ; New York, NY : Routledge, 2021.: Routledge, 2020. http://dx.doi.org/10.1201/9781003082446-17.

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Sheppard, Terry. "Introduction". In Extrusion of Aluminium Alloys, 1–23. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3001-2_1.

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Sheppard, Terry. "Continuum principles". In Extrusion of Aluminium Alloys, 24–68. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3001-2_2.

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Sheppard, Terry. "Metallurgical features affecting the extrusion of aluminium alloys". In Extrusion of Aluminium Alloys, 69–126. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3001-2_3.

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Sheppard, Terry. "Extrusion processing". In Extrusion of Aluminium Alloys, 127–204. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3001-2_4.

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Sheppard, Terry. "Homogenization and extrusion conditions for specific alloys". In Extrusion of Aluminium Alloys, 205–52. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4757-3001-2_5.

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Atti di convegni sul tema "Aluminium alloys"

1

Kweitsu, Eric Kojo, Dilip Kumar Sarkar e X. Grant Chen. "A Short Review on Superplasticity of Aluminum Alloys". In International Aluminium Conference. Basel Switzerland: MDPI, 2023. http://dx.doi.org/10.3390/engproc2023043043.

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2

Matsukage, Takeshi, Shoma Sakurai, Taishi Traui e Muneyoshi Iyota. "Mechanical Properties of Resistance-Spot-Welded Joints of Aluminum Castings and Wrought Alloys". In International Aluminium Conference. Basel Switzerland: MDPI, 2023. http://dx.doi.org/10.3390/engproc2023043052.

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3

Kumar, Muralidharan, Rafael Mata Garcia, Srikanta Prasad e Mathieu Brochu. "Evaluation of Small-Scale Thin Wall AlSi7Mg Alloys LPBF Coupons under Extreme Low Cycle Fatigue Regime". In International Aluminium Conference. Basel Switzerland: MDPI, 2023. http://dx.doi.org/10.3390/engproc2023043041.

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4

Dabezies, B., e C. Alarçon. "Laser cutting of aluminium alloys". In The European Conference on Lasers and Electro-Optics. Washington, D.C.: Optica Publishing Group, 1994. http://dx.doi.org/10.1364/cleo_europe.1994.ctha7.

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In the case of rail transportation, one of the great challenges for the future is to improve the mass capacity without increasing the weight of the vehicles. One of the solutions is to introduce, at the place of steel, aluminium alloys. In this case, the first step is to show the capability of the high productive cutting setup, such as lasers, to machine aluminium plates.

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Rathod, M. J., e T. R. Karale. "Friction Stir Welding of Aluminium-Alloys". In International Conference on Automotive Materials & Manufacturing 2014. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2014. http://dx.doi.org/10.4271/2014-28-0015.

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6

Brůna, Marek. "Hot tearing evaluation for aluminium alloys". In THE APPLICATION OF EXPERIMENTAL AND NUMERICAL METHODS IN FLUID MECHANICS AND ENERGY 2016: XX. Anniversary of International Scientific Conference. AIP Publishing LLC, 2016. http://dx.doi.org/10.1063/1.4953697.

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Tosto, Sebastiano, Maichi Cantello, Diego Cruciani, Graziano Perotti, Michele Onorato e Pietro Savorelli. "Current Research Into Laser Welding Aluminium Alloys". In 7th Intl Symp on Gas Flow and Chemical Lasers, a cura di Dieter Schuoecker. SPIE, 1989. http://dx.doi.org/10.1117/12.950580.

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Kent, Malcolm J. "Diamond machining of high-purity aluminium alloys". In London - DL tentative, a cura di Alan H. Lettington. SPIE, 1990. http://dx.doi.org/10.1117/12.22341.

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Cree, A. M., e G. W. Weidmann. "Fatigue Crack Growth in Anodised Aluminium Alloys". In Advanced Marine Materials & Coatings. RINA, 2006. http://dx.doi.org/10.3940/rina.amm.2006.6.

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LESHOK, A. A., P. S. KATSUBA e A. A. LARCHENKO. "NANOPOROUS ANODIC OXIDES ON ALUMINIUM – TUNGSTEN ALLOYS". In Proceedings of the International Conference on Nanomeeting 2007. WORLD SCIENTIFIC, 2007. http://dx.doi.org/10.1142/9789812770950_0079.

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Rapporti di organizzazioni sul tema "Aluminium alloys"

1

Dove, M. F., N. Logan, J. F. Richings e J. P. Mauger. Corrosion of Aluminium Alloys by IRFNA. Fort Belvoir, VA: Defense Technical Information Center, marzo 1988. http://dx.doi.org/10.21236/ada194319.

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2

Dove, M. F., N. Logan, J. F. Richings e J. P. Mauger. Corrosion of Aluminium Alloys by IRFNA. Fort Belvoir, VA: Defense Technical Information Center, luglio 1988. http://dx.doi.org/10.21236/ada199633.

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3

Dove, Michael F., Norman Logan e Jeremy P. Mauger. Corrosion of Aluminium Alloys by IRFNA. Fort Belvoir, VA: Defense Technical Information Center, settembre 1991. http://dx.doi.org/10.21236/ada240807.

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4

Bendersky, Leo, Dan Shechtman e E. Horowitz. Investigation of the Icosahedral Z-Phase in Aluminium Transition Metal Alloys and Rapidly Solidified Al-Alloys. Fort Belvoir, VA: Defense Technical Information Center, settembre 1986. http://dx.doi.org/10.21236/ada178451.

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5

Petrova, Anna, Georgi Stefanov e Adelina Miteva. Some Properties of the Nanozone in Nano-microcrystalline Ribbons of Aluminium Alloys. "Prof. Marin Drinov" Publishing House of Bulgarian Academy of Sciences, ottobre 2020. http://dx.doi.org/10.7546/crabs.2020.10.13.

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6

Barrow, Jason A. Investigations of the Electronic Properties and Surface Structures of Aluminium-Rich Quasicrystalline Alloys. Office of Scientific and Technical Information (OSTI), gennaio 2003. http://dx.doi.org/10.2172/816443.

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7

Emigh, R. A. The aluminium-scandium-lithium-magnesium system as a potential source of superplastically formable alloys. Office of Scientific and Technical Information (OSTI), luglio 1990. http://dx.doi.org/10.2172/6152752.

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8

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

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9

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

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10

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

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