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Journal articles on the topic 'AA 2099 aluminium alloy'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Ma, Y., X. Zhou, G. E. Thompson, T. Hashimoto, P. Thomson, and M. Fowles. "Distribution of intermetallics in an AA 2099-T8 aluminium alloy extrusion." Materials Chemistry and Physics 126, no. 1-2 (2011): 46–53. http://dx.doi.org/10.1016/j.matchemphys.2010.12.014.

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2

Ma, Yan Long, Hai Peng Wu, Zheng Xi Wang, Yi Liao, and Wei Jiu Huang. "Computational Simulation of Localised Corrosion in Anodised AA 2099-T8 Aluminium-Lithium Alloy." Materials Science Forum 877 (November 2016): 537–42. http://dx.doi.org/10.4028/www.scientific.net/msf.877.537.

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The initiation of localised corrosion in anodised AA2099-T8 alloy is simulated by using Cellular Automata (CA) method. For CA simulation, the system consisting of corrosive electrolyte, porous anodic alumina film and alloy matrix is described as a 500×300 two-dimensional square lattice. Eight types of cells are defined to construct the cellular space, with the Von Neumann neighbourhood (four cells neighbourhood) being selected. The cellular space is constructed such that a void generated by oxidation of the high-copper-containing Al-Fe-Mn-Cu-Li particle exists in the porous anodic alumina film
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3

Ma, Y., X. Zhou, Y. Liao, et al. "Localised corrosion in AA 2099-T83 aluminium-lithium alloy: The role of grain orientation." Corrosion Science 107 (June 2016): 41–48. http://dx.doi.org/10.1016/j.corsci.2016.02.018.

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4

Guo, Fei, Haipeng Dong, Weijiu Huang, et al. "Nanocrystalline structure fabricated by cryogenic temperature rolling of AA 2099 aluminum alloy." Journal of Alloys and Compounds 864 (May 2021): 158293. http://dx.doi.org/10.1016/j.jallcom.2020.158293.

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5

Ma, Y., X. Zhou, G. E. Thompson, et al. "Anodic Film Formation on AA 2099-T8 Aluminum Alloy in Tartaric–Sulfuric Acid." Journal of The Electrochemical Society 158, no. 2 (2011): C17. http://dx.doi.org/10.1149/1.3523262.

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6

Odeshi, A. G., A. A. Tiamiyu, D. Das, N. Katwal, I. N. A. Oguocha, and A. K. Khan. "High strain-rate deformation of T8-tempered, cryo-rolled and ultrafine grained AA 2099 aluminum alloy." Materials Science and Engineering: A 754 (April 2019): 602–12. http://dx.doi.org/10.1016/j.msea.2019.03.109.

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7

Viscusi, Antonio, Antonello Astarita, and Umberto Prisco. "Mechanical Properties Optimization of Friction Stir Welded Lap Joints in Aluminium Alloy." Advances in Materials Science and Engineering 2019 (February 17, 2019): 1–9. http://dx.doi.org/10.1155/2019/3832873.

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This work focuses on the influence of the rotational and travel speed on the strength of AA 2024 T3 friction stir welded lap joints. Tensile tests were carried out on minispecimens extracted from different welding zones. A central composite design was applied to identify the relative importance of the variable factors’ effects and their interaction on yield/ultimate strength and elongation for both the heat affected-zone (HAZ) and nugget zone. Surface methods and gradient algorithms were used to optimize the yield strength of the joints. Shear and microhardness tests were executed to achieve a
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8

Kloppenborg, Thomas, Thilo Hammers, Marco Schikorra, Eberhard Kerscher, A. Erman Tekkaya, and Detlef Löhe. "Prototype Manufacturing of Extruded Aluminum Aircraft Stringer Profiles with Continuous Reinforcement." Advanced Materials Research 43 (April 2008): 167–74. http://dx.doi.org/10.4028/www.scientific.net/amr.43.167.

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For an increase in safety against crack initiation and growth in metallic structures of airplanes different concepts were developed in the past. In the focus of this work are profiles made of continuously reinforced extruded aluminum. The production and the used die set of these profiles is presented as well as problems occurring in terms of geometrical inaccuracies of the embedded high strength wires. In addition, this paper attends to the problem of lateral seam weld formation. The interface between the AA-2099 as well as AA-6056 aluminum alloy and the high strength wires Nivaflex and Nanofl
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9

Khanna, Navneet, Mahesh Bharati, Prachi Sharma, and Vishvesh J. Badheka. "Design-of-experiments application in the friction stir welding of aluminium alloy AA 8011-h14 for structural application." Multidiscipline Modeling in Materials and Structures 16, no. 3 (2019): 606–22. http://dx.doi.org/10.1108/mmms-07-2019-0130.

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Purpose The demand for aluminium alloys has been increasing in almost all the fields. In this study, the friction stir welding (FSW) of similar aluminium alloy AA 8011-h14 has been presented using three levels of tool rotational speed (n), tool tilt angle (ϴ) and tool feed (f). The purpose of this paper is to study the effect of welding parameters on various properties and time-temperature plots. Design/methodology/approach FSW was carried out using the L-9 orthogonal array of welding parameters generated using the Taguchi approach. Visual inspection and radiography testing were conducted to d
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10

Asokan, Manivannan, Sasikumar Rathinasabapathy, Shaik Dawood Abdul Khadar, and Mohammed Sadique Khan. "Novel Combined Feeding Approach to Produce Quality Al6061 Composites for Heat Sinks." High Temperature Materials and Processes 38, no. 2019 (2019): 647–50. http://dx.doi.org/10.1515/htmp-2019-0009.

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AbstractThis elementary work aims to address agglomeration and non-uniform dispersion of reinforcement particles in stir casting using Al6061 alloy (AA 6061) as a matrix and Aluminium oxide (Al2O3) as reinforcement particles. A novel combined feeding method of Encapsulate feeding technique & Two Step Stir Casting was developed & attempted to produce good quality composites by varying weight fractions of Aluminium Oxide (0 to 5 wt.%). The wetting agent Mg (2 wt.%) added in all castings to ensure better binding between ceramics and matrix. The SEM photomicrograph ensures homogenous dispe
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11

Rading, G. O. "An evaluation of residual stress distribution in welded compact tension specimens using neutron diffraction." Journal of Strain Analysis for Engineering Design 40, no. 2 (2005): 211–16. http://dx.doi.org/10.1243/030932405x7782.

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The neutron diffraction technique was used to determine the residual stress field in welded compact tension specimens of the aluminium-lithium alloy AA 2095. The deep penetrating characteristic of neutrons was exploited to evaluate the through-thickness variation in residual stress. Moreover, insight into the redistribution of these stresses was gained by extending a fatigue crack through the residual stress field and re-examining the stress distribution. The specimen without a crack was found to have a high compressive stress (of the order of - 135MPa) ahead of the notch. This rose to a maxim
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12

Odeshi, A. G., A. A. Tiamiyu, A. K. Khan, N. Katwal, D. Das, and I. N. A. Oguocha. "Development of ultra-fine grained structure in AA 2099 and AA 2624 aluminum alloys." Materialia 6 (June 2019): 100313. http://dx.doi.org/10.1016/j.mtla.2019.100313.

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13

Odeshi, A. G., A. O. Adesola, and A. Y. Badmos. "Failure of AA 6061 and 2099 aluminum alloys under dynamic shock loading." Engineering Failure Analysis 35 (December 2013): 302–14. http://dx.doi.org/10.1016/j.engfailanal.2013.02.015.

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14

Bárta, Jozef, Beáta Simeková, Milan Marônek, and Mária Dománková. "Electron Beam Welding of 2099-T83 Aluminium-lithium Alloy Thick Plates." MATEC Web of Conferences 269 (2019): 02010. http://dx.doi.org/10.1051/matecconf/201926902010.

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The paper deals with the welding of AW 2099-T83 aluminium lithium alloy being used for construction of lower wing stringers. The thickness of AW 2099-T83 aluminium lithium alloy was 25.4 mm. Electron beam welding with the accelerating voltage of 55 kV was used for production of welded joints. Welded joints were inspected by computer tomography, macroscopic and microscopic analysis, tensile strength test and microhardness measurement. Welded joints exhibited good weld joint formation, typical to electron beam welding. Weld metal was structure was dendritic formed by α solid solution. Decrease o
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15

Urminský, Ján, Milan Marônek, Jozef Bárta, Martin Sahul, František Jurina, and Matej Pašák. "Electron Beam Welding of Aluminium Alloy AW2099." Materials Science Forum 994 (May 2020): 28–35. http://dx.doi.org/10.4028/www.scientific.net/msf.994.28.

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The paper deals with the analysis of mechanical properties of welded joints made of AW 2099 aluminium-lithium alloy by electron beam welding. The thickness of the experimental material was 3±0.2 mm. PZ EZ 30 STU electron beam welding machine was used for production of welds. Maximum accelerating voltage used within this study was 55 kV. Metallographic analysis, hardness measurement test and static tensile were carried out. The structure of the weld joint of aluminium-lithium alloy was investigated. Produced welded joints were characterized by the presence of following zones: heat affected zone
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16

Evangelista, E., A. Forcellese, F. Gabrielli, and P. Mengucci. "Hot formability of AA 6061 PM aluminium alloy." Journal of Materials Processing Technology 24 (December 1990): 323–32. http://dx.doi.org/10.1016/0924-0136(90)90193-x.

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17

Kraner, J., P. Fajfar, H. Palkowski, M. Godec, and I. Paulin. "Asymmetric cold rolling of an AA 5xxx aluminium alloy." Materiali in tehnologije 54, no. 4 (2020): 575–82. http://dx.doi.org/10.17222/mit.2020.097.

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18

Feijoo, Cabeza, Merino, Pena, and Rey. "Age Hardening of Extruded AA 6005A Aluminium Alloy Powders." Materials 12, no. 14 (2019): 2316. http://dx.doi.org/10.3390/ma12142316.

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Pre-alloyed micron-sized 6005A Al alloy (AA 6005A) powders, with a Mg/Si atomic ratio of 0.75, obtained by high pressure inert gas atomization were consolidated by uniaxial cold pressing at 200 MPa into cylindrical Al containers and hot extruded at 450, 480 and 500 °C with an extrusion rate of 7:1, followed by artificial T6 precipitation hardening. Ageing conditions were varied between 170 °C and 190 °C and times of 6, 7 and 8 hours. The microstructure of the extruded profiles was analysed using X-Ray diffractometry (XRD), light optical microscopy (LOM), scanning electron microscopy (SEM), and
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19

Schällibaum, J., T. Burbach, C. Münch, W. Weiler, and A. Wahlen. "Transient liquid phase bonding of AA 6082 aluminium alloy." Materialwissenschaft und Werkstofftechnik 46, no. 7 (2015): 704–12. http://dx.doi.org/10.1002/mawe.201500402.

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20

Srinivasa Rao, P., K. G. Sivadasan, and P. K. Balasubramanian. "Structure-property correlation on AA 2219 aluminium alloy weldments." Bulletin of Materials Science 19, no. 3 (1996): 549–57. http://dx.doi.org/10.1007/bf02744827.

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21

Bois-Brochu, Alexandre, Franck Armel Tchitembo Goma, Carl Blais, Daniel Larouche, Raynald Gauvin, and Julien Boselli. "Al-Li Alloy 2099-T83 Extrusions: Static Mechanical Properties, Microstructure and Texture." Advanced Materials Research 409 (November 2011): 29–34. http://dx.doi.org/10.4028/www.scientific.net/amr.409.29.

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Utilization of aluminium-lithium alloys in aerospace applications requires an understanding of how processing and product geometry impact their microstructure, crystallographic texture and mechanical properties. In this paper, the effect of various microstructural features as well as deformation textures on the static mechanical properties of Al-Li extruded components has been investigated. These relationships are discussed with regard to two 2099-T83 extruded sections, i.e. a cylindrical extrusion and an integrally stiffened panel (ISP). The ISP typically shows an unrecrystallized microstruct
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22

Elatharasan, Govindaraj, and Velukkudi Santhanam Senthil Kumar. "Corrosion Analysis of Friction Stir-welded AA 7075 Aluminium Alloy." Strojniški vestnik – Journal of Mechanical Engineering 60, no. 1 (2014): 29–34. http://dx.doi.org/10.5545/sv-jme.2012.711.

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23

Kongthep, J., and P. Juijerm. "Kinetics of precipitation hardening phase in aluminium alloy AA 6110." Materials Science and Technology 30, no. 14 (2014): 1815–19. http://dx.doi.org/10.1179/1743284713y.0000000488.

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24

Phaneendra, Y., I. N. Niranjan Kumar, and V. V. Ravi Kumar. "Thermo-Mechanical Treated High Strength AA-7xxx Aluminium Alloy by Cold and Cryo-Rolling Study their Mechanical Properties Corrosion and Microstructure Correlation." Materials Science Forum 969 (August 2019): 62–67. http://dx.doi.org/10.4028/www.scientific.net/msf.969.62.

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Thermo-mechanical treatment, in particular, cryo-rolling is a unique technique to produce super high strength AA-7xxx aluminium alloys with ultra-fine grained structure. In order to conduct the rolling at room temperature and cryo-temperature (liquid N2 (-190°C)), the AA-7xxx alloy ingot was rolled from 6mm to 1mm with 85% reduction in thickness. Optical microscopy, XRD, electron microscopy, hardness and tensile testing were conducted on the rolled alloy for understanding the phase changes and evaluating the mechanical properties. The alloy rolled at liquid nitrogen (LN2) exhibits very high st
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25

Chang, Hong, and Wei Zhou. "Flexural Behaviour of Unbonded Posttensioned Concrete Beam Strengthened with Aluminium Alloy Plates." Mathematical Problems in Engineering 2020 (April 6, 2020): 1–13. http://dx.doi.org/10.1155/2020/6535609.

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Owing to their high corrosion resistance, aluminium alloy (AA) plates bonded with magnesium phosphate cement (MPC) are considered as a viable candidate for reinforcing inshore infrastructures that are subject to severe environmental conditions and vapor atmospheres. Therefore, the aim of this study is the evaluation of the flexural behaviour of simple beams that are strengthened using this technique. Six unbonded posttensioned concrete (UPC) beams with different reinforcement ratios are damaged by static loads and then repaired and strengthened using AA plates. The failures under two-point loa
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26

Jha, A. K., K. Sreekumar, and S. Arumugham. "Failure of AA 2024 Aluminium Alloy Rivets / Schäden an Nieten aus einer AA 2024 Aluminiumlegierung." Practical Metallography 33, no. 5 (1996): 264–72. http://dx.doi.org/10.1515/pm-1996-330508.

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27

Kareem, Ansar, Jaber Abu Qudeiri, Asarudheen Abdudeen, Thanveer Ahammed, and Aiman Ziout. "A Review on AA 6061 Metal Matrix Composites Produced by Stir Casting." Materials 14, no. 1 (2021): 175. http://dx.doi.org/10.3390/ma14010175.

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In recent years, many alloys as well as composites of aluminium were developed for enhanced material performance. AA 6061 is an aluminium alloy that has extensive applications due to its superior material characteristics. It is a popular choice of matrix for aluminium matrix composite (AMC) fabrication. This study provides a review on AA 6061 aluminium alloy matrix composites produced through the stir-casting process. It focusses on conventional stir-casting fabrication, process parameters, various reinforcements used, and the mechanical properties of the AA 6061 composites. Several research s
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28

GUNES, I., M. ERDOGAN, and B. ÇENGELCI. "Mechanical and electrical properties of artificially aged aluminium alloy AA 2024." Metallic Materials 54, no. 05 (2016): 379–87. http://dx.doi.org/10.4149/km_2016_5_379.

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29

Saimoto, S., and R. G. Kamat. "Microstructure and texture evolution in hot rolled AA 3004 aluminium alloy." Materials Science and Technology 8, no. 10 (1992): 869–74. http://dx.doi.org/10.1179/mst.1992.8.10.869.

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30

Vuherer, T., J. Kramberger, D. Milčić, M. Milčić, and S. Glodež. "Fatigue behaviour of friction stir welded AA-2024 aluminium alloy sheets." IOP Conference Series: Materials Science and Engineering 659 (October 31, 2019): 012032. http://dx.doi.org/10.1088/1757-899x/659/1/012032.

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31

Forero Sotomonte, S., C. Blanco Pinzon, and S. García Vergara. "Growth of PEO ceramic coatings on AA 2024-T3 aluminium alloy." Journal of Physics: Conference Series 687 (February 2016): 012037. http://dx.doi.org/10.1088/1742-6596/687/1/012037.

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32

Zhang, J. F., F.-Z. Xuan, Y. X. Xiang, and F. Q. Yang. "Non-linear ultrasonic response of plastically deformed aluminium alloy AA 7009." Materials Science and Technology 29, no. 11 (2013): 1304–9. http://dx.doi.org/10.1179/1743284713y.0000000221.

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33

Poole, W. J., M. Militzer, and M. A. Wells. "Modelling recovery and recrystallisation during annealing of AA 5754 aluminium alloy." Materials Science and Technology 19, no. 10 (2003): 1361–68. http://dx.doi.org/10.1179/026708303225005980.

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34

Peng, Z., and T. Sheppard. "Study of surface cracking during extrusion of aluminium alloy AA 2014." Materials Science and Technology 20, no. 9 (2004): 1179–91. http://dx.doi.org/10.1179/026708304225022016.

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35

Venkateshwarlu, G. "Evaluation of Mechanical Properties of Aluminium Alloy AA 6061(HE-20)." International Journal of Current Engineering and Technology 2, no. 2 (2010): 295–97. http://dx.doi.org/10.14741/ijcet/spl.2.2014.53.

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36

Pawłowska, B., and R. E. Śliwa. "Backward Extrusion of Aluminum Alloy Sections Used in Aircraft Structural Components / Wyciskanie Przeciwbieżne Kształtowników Ze Stopów Aluminium Stosowanych Na Elementy Konstrukcji Lotniczych." Archives of Metallurgy and Materials 60, no. 4 (2015): 2805–12. http://dx.doi.org/10.1515/amm-2015-0452.

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The paper presents an analysis of selected aluminum alloys as structural materials used in production of aircraft parts as well as specification of technological parameters of Al alloys extrusion on a backward press with their effect on mechanical properties, microstructure and quality of the final product. Upsetting tests with backward extrusion complex cross-sectional profile tests were conducted on aluminum alloys 7075, 2024, 2099. Based on the results, specifications of forging in the form of unit stress - effective strain relations were determined using logarithmic deformation index, allo
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37

Ilieva, M., and R. Radev. "Effect of severe plastic deformation by ECAP on corrosion behaviour of aluminium alloy AA 7075." Archives of Materials Science and Engineering 81, no. 2 (2016): 55–61. http://dx.doi.org/10.5604/01.3001.0009.7099.

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Purpose: The present study compares the corrosion behaviour of overaged AA 7075 before and after equal channel angular pressing ECAP in two media, containing chlorides, in order to answer the question how grain refinement of aluminium alloys influences their corrosion properties.Design/methodology/approach: The effect of equal channel angular pressing ECAP on corrosion behaviour of aluminium alloy AA 7075 was studied in two water solutions, containing chloride ions: 1) 0.01 M Na2SO4 with addition of 0.01%Cl-, and 2) 3g/l H2O2 and 57g/l NaCl. The changes in electrochemical characteristics, prov
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38

Šugra, Filip, Milan Marônek, Jozef Bárta, Michaela Lopatková, and Miloš Mičian. "Influence of Surface Roughness on Selected Geometric Characteristics of Laser Beam Welded Joints of AW 2099 Alloy." Research Papers Faculty of Materials Science and Technology Slovak University of Technology 28, no. 47 (2020): 56–64. http://dx.doi.org/10.2478/rput-2020-0019.

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Abstract Al-Li alloys are used in various industries owing to their good mechanical and physical properties. However, one of the limiting factors of welding the aluminium alloys by laser beam is the high reflectivity of the beam and thus the reduced efficiency of the laser. Reduction of reflectivity can be achieved by increasing the surface roughness, which may have a beneficial effect on the absorption of the laser, resulting into affecting the weld bead dimensions. The paper deals with the analysis of the influence of surface roughness of welded materials on geometry of welded joints. Specim
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39

Zhang, Yunlong, Yanbin Chen, Wang Tao, Zhenglong Lei, Zhaohui Yang, and Tiantian Nan. "Influence of Post-Weld Heat Treatments on Microstructure and Mechanical Properties of Laser Beam Welded 2060-T3/2099-T3Al-Li T-Joints." Metals 9, no. 12 (2019): 1318. http://dx.doi.org/10.3390/met9121318.

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The durable structure and robustness of T-joints in the panel materials for civil aircraft are a crucial matter of importance. In this work, the impact of the post-weld heat treatments (PWHTs) on the microstructure and mechanical properties of laser beam welded T-joints of 2060-T3/2099-T3 Al-Li alloy was analyzed. Heat-treatment of the laser beam welded T-joints was carried out in two different ways, namely, solution treatment and artificial aging (STAA) at varied duration and only artificial aging (AA) at varied duration. The microstructure and mechanical properties of the heat-treated joints
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40

Jha, A. K., P. R. Narayanan, K. Sree Kumar, and S. Arumugham. "Failure of AA 2014 Aluminium Alloy Bracket/ Schadensuntersuchung an einer Halterung aus der Aluminiumlegierung AA 2014." Practical Metallography 29, no. 10 (1992): 534–42. http://dx.doi.org/10.1515/pm-1992-291004.

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41

Oliveira, Mariana Carvalho, and Rodrigo Estevam Coelho. "Development of Aluminium Foam through the Sintering Dissolution Process from the Alloy AA 3104." Materials Science Forum 899 (July 2017): 517–22. http://dx.doi.org/10.4028/www.scientific.net/msf.899.517.

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The increasing demand for lightweight materials capable to absorb impact energy has driven the growth of scientific research in the metallic foams field. This paper aims to investigate the possibility to obtain Al foams from recycled aluminium alloy through the sintering dissolution process (SDP) with sodium chloride (NaCl) as space holder. Aluminium scraps from AA 3104 alloy were powdered by high energy ball milling. Alloy powder was mixed with variable weight fraction of NaCl. The mixtures were die-pressed at room temperature and then sintered at 680°C. In the following step sintered parts w
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42

Wibowo, Ari, Nugroho Pratomo Aryanto, Cahyo Budi Nugroho, and Muhammad Ismail. "PENGARUH FREKUENSI PULSE PENGELASAN GTAW PADA ALUMINIUM ALLOY 6061." JURNAL INTEGRASI 11, no. 1 (2019): 59–62. http://dx.doi.org/10.30871/ji.v11i2.1002.

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Paper ini menggambarkan pengaruh pulse frequency terhadap sifat microhardness, porosity dan makrostructure pada pengelasan GTAW. Penelitian ini menggunakan aluminium 6061 sebagai base metal dan tanpa menggunakan filler metal. Pulse frequency divariasikan dari 0 Hz sampai 10 Hz. Hasil makrostruktur menunjukkan bahwa kedalaman penetrasi maksimum terjadi pada pulse frequency 6 Hz, sedangkan lebar penetrasi lasan maksimum terjadi saat tidak menggunakan pulse frequency. Pengujian kekerasan mikro menunjukkan bahwa terjadinya kekerasan maksimum pada pulse frequency 6 Hz sedangkan kekerasan paling ren
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43

ZRNIK, J., L. KRAUS, S. SCHERIAU, R. PIPPAN, and M. CIESAR. "Characterization of deformation behaviour of aluminium alloy AA 6082 processed by HPT." Metallic Materials 50, no. 05 (2013): 319–25. http://dx.doi.org/10.4149/km_2012_5_319.

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44

Murugesan, A. P., Sivaswamy Giribaskar, and Gouthama. "Metallographic Studies on Deformation Microstructures of ECAE Processed AA 2014 Aluminium Alloy." Materials Science Forum 702-703 (December 2011): 109–12. http://dx.doi.org/10.4028/www.scientific.net/msf.702-703.109.

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Different initial texture of ring rolled AA 2014 alloy was processed to one pass in Equal Channel Angular Extrusion (ECAE) at room temperature. The material flow/deformation characteristics as well as the degree of grain refinement, as a function of different initial grain morphological orientation are studied. Macroscopic and microscopic investigation by Optical Microscope (OM) confirms the significant variation in the shearing characteristics of grains in the billets in each orientations. OM observations also suggested that the severity of deformation was more in middle portions of the extru
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45

Desale, Girish R., Bhupendra K. Gandhi, and S. C. Jain. "Particle size effects on the slurry erosion of aluminium alloy (AA 6063)." Wear 266, no. 11-12 (2009): 1066–71. http://dx.doi.org/10.1016/j.wear.2009.01.002.

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46

Ferreira, R. A. Sanguinetti, F. G. Ribeiro Freitas, and E. P. Rocha Lima. "Study of decomposition in AA 8023 aluminium alloy: kinetics and morphological aspects." Scripta Materialia 43, no. 10 (2000): 929–34. http://dx.doi.org/10.1016/s1359-6462(00)00515-7.

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47

Li, J., Q. Zeng, X. Y. Wen, and T. Zhai. "Microstructure, texture and mechanical properties of continuous cast AA 5083 aluminium alloy." Materials Science and Technology 23, no. 2 (2007): 225–28. http://dx.doi.org/10.1179/174328407x154239.

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48

Engler, Olaf, and Kristian Knarbakk. "Temper rolling to control texture and earing in aluminium alloy AA 5050A." MATEC Web of Conferences 326 (2020): 05002. http://dx.doi.org/10.1051/matecconf/202032605002.

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Abstract:
The development of crystallographic texture during the thermo-mechanical processing of aluminium sheet is known to result in the formation of pronounced plastic anisotropy, including the well-known earing phenomenon. In the present study we track the evolution of texture, microstructure and earing profiles in sheets of Al alloy AA 5050A during down-stream processing according to a process route resulting in temper H16 after cold rolling and temper H44 after lacquering. This process, which includes interannealing followed by a mild final pass of temper rolling, was designed for producing medium
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49

Thompson, S., S. L. Cockcroft, and M. A. Wells. "Effect of cooling rate on solidification characteristics of aluminium alloy AA 5182." Materials Science and Technology 20, no. 4 (2004): 497–504. http://dx.doi.org/10.1179/026708304225012053.

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50

Engler, Olaf, and Kristian Knarbakk. "Temper rolling to control texture and earing in aluminium alloy AA 5050A." Journal of Materials Processing Technology 288 (February 2021): 116910. http://dx.doi.org/10.1016/j.jmatprotec.2020.116910.

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