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Online since: August 2015
Authors: Ionel Botef, Agripa Hamweendo
Consequently, this paper aims to make a contribution towards addressing this problem.
Varkey, Antibacterial properties of some metals and alloys in combating coliforms in contaminated water, Scientific Research and Essays, 5(24) (2010) 3834-3839
Zhang, Influence of Alloy Composition and Dealloying Solution on the Formation and Microstructure of Monolithic Nanoporous Silver through Chemical Dealloying of Al – Ag Alloys, Journal of Physical Chemistry, C113(2009) 13139–13150
Jin, Atomic-Level Alloying and De-alloying in Doped Gold Nanoparticles, Chemistry European Journal, 19 (2013) 4238 – 4243
Liao, Ball milled Ni–Ti powder deposited by cold spraying, Journal of Alloys and Compounds, 483 (2009) 334–336
Varkey, Antibacterial properties of some metals and alloys in combating coliforms in contaminated water, Scientific Research and Essays, 5(24) (2010) 3834-3839
Zhang, Influence of Alloy Composition and Dealloying Solution on the Formation and Microstructure of Monolithic Nanoporous Silver through Chemical Dealloying of Al – Ag Alloys, Journal of Physical Chemistry, C113(2009) 13139–13150
Jin, Atomic-Level Alloying and De-alloying in Doped Gold Nanoparticles, Chemistry European Journal, 19 (2013) 4238 – 4243
Liao, Ball milled Ni–Ti powder deposited by cold spraying, Journal of Alloys and Compounds, 483 (2009) 334–336
Online since: November 2016
Authors: R.S. Coelho, P.A.M.G.P. Bamberg, B. Marx, J.D.V. Barbosa, Uwe Reisgen
However, there are opportunities for analyzing the mechanical performance of such method in SLJ with materials of different properties, such as ductile structural aluminum alloys and high strength steels.
In the same way, aluminum alloys (Al alloy) are also facing an ascendant usage at these industries, because of the lightweight associated to good mechanical and corrosion resistance properties [2].
The most used welding method for sheet metals is the resistance spot welding, which is not suitable to join Al alloys to steel because of the fusion and solidification of parts.
The low solubility of Fe in Al can leads the formation of brittle intermetallic compounds, such as FeAl3 (θ-phase), Fe2Al5 (η-phase) and FeAl2 (ξ-phase) [3].
Morton, Three-Dimensional Deformations in a Single-Lap Joint, The Journal of Strain Analysis for Engineering Design 29.2 (1994) 137-145
In the same way, aluminum alloys (Al alloy) are also facing an ascendant usage at these industries, because of the lightweight associated to good mechanical and corrosion resistance properties [2].
The most used welding method for sheet metals is the resistance spot welding, which is not suitable to join Al alloys to steel because of the fusion and solidification of parts.
The low solubility of Fe in Al can leads the formation of brittle intermetallic compounds, such as FeAl3 (θ-phase), Fe2Al5 (η-phase) and FeAl2 (ξ-phase) [3].
Morton, Three-Dimensional Deformations in a Single-Lap Joint, The Journal of Strain Analysis for Engineering Design 29.2 (1994) 137-145
Online since: June 2022
Authors: Zuheir Talib Khulief, Hussein Fawzy Mahdy
Lexcellent, Shape-memory alloys handbook: John Wiley & Sons, 2013
Dasgupta, A look into Cu-based shape memory alloys: Present scenario and future prospects, Journal of Materials Research, 2014, vol. 29, p. 1681
Russell, et al., Martensitic microstructures and mechanical properties of as-quenched metastable β-type Ti–Mo alloys, Journal of Materials Science, 2016, vol. 51, pp. 6886-6896
Cai, Effect of Y addition on the martensitic transformation and shape memory effect of Ti–Ta high-temperature shape memory alloy, Journal of Alloys and Compounds, 2012, vol. 539, pp. 144-147
Lidin, Reaction behavior and evolution of phases during the sintering of Ta–Al powder mixtures, Journal of Alloys and Compounds, 2016, vol. 654, pp. 103-111
Dasgupta, A look into Cu-based shape memory alloys: Present scenario and future prospects, Journal of Materials Research, 2014, vol. 29, p. 1681
Russell, et al., Martensitic microstructures and mechanical properties of as-quenched metastable β-type Ti–Mo alloys, Journal of Materials Science, 2016, vol. 51, pp. 6886-6896
Cai, Effect of Y addition on the martensitic transformation and shape memory effect of Ti–Ta high-temperature shape memory alloy, Journal of Alloys and Compounds, 2012, vol. 539, pp. 144-147
Lidin, Reaction behavior and evolution of phases during the sintering of Ta–Al powder mixtures, Journal of Alloys and Compounds, 2016, vol. 654, pp. 103-111
Online since: November 2025
Authors: Iuliana Duma, Ilare Bordeasu, Lavinia Madalina Micu, Voicu Ioan Safta, Daniel Ostoia, Robert Parmanche, Cornelia Laura Salcianu, Cristian Ghera, Alexandru Nicolae Luca
The research is in step with the new directions of study and aims to extend the aluminum alloy 2017 A to the manufacture of parts that work in the cavitation regime, such as: pistons and valves of thermal engines, respectively various pump rotors or motor boat propellers.
The craters resulting from the impact of microjets and shock waves with the solid surface indicate the expulsion of intermetallic compounds CuMgAl2 and CuAl2, which weaken the bonding forces at the grain boundary [7, 26, 27].
Matthews, Cavitation erosion of aluminium alloys, Journal of Materials Science vol.29 (1994) 1101-1108
Ferreira, Smart Self-healing Coatings for Corrosion Protection of Aluminium Alloys, Handbook of Smart Coatings for Materials Protection (2014) 224-274, [18] Ø.
Ekstrom, Strengthening mechanisms in solid solution aluminum alloys, Metall, Mater, Trans, A 37, no.6, (2006) 1999
The craters resulting from the impact of microjets and shock waves with the solid surface indicate the expulsion of intermetallic compounds CuMgAl2 and CuAl2, which weaken the bonding forces at the grain boundary [7, 26, 27].
Matthews, Cavitation erosion of aluminium alloys, Journal of Materials Science vol.29 (1994) 1101-1108
Ferreira, Smart Self-healing Coatings for Corrosion Protection of Aluminium Alloys, Handbook of Smart Coatings for Materials Protection (2014) 224-274, [18] Ø.
Ekstrom, Strengthening mechanisms in solid solution aluminum alloys, Metall, Mater, Trans, A 37, no.6, (2006) 1999
Online since: July 2020
Authors: Ilia I. Beloglazov, Aleksei V. Boikov, Pavel A. Petrov
Currently, the reinforcement of intermetallic compounds is carried out by dispersed particles.
However, alloys with a fine-grained structure have a reduced creep resistance.
It is known that the production of magnesium and aluminum alloys is carried out by dissolving in the melt double and ternary master alloys, which are produced by fusing the components, using metallothermic reduction of alloying components from their compounds (for example, oxides or fluorides) or electrolysis.
In recent years, there has been a tendency to produce more complex master alloys, for example, ternary or quadruple.
It was found that ternary master alloys can be effectively used in the production of alloys based on light metals.
However, alloys with a fine-grained structure have a reduced creep resistance.
It is known that the production of magnesium and aluminum alloys is carried out by dissolving in the melt double and ternary master alloys, which are produced by fusing the components, using metallothermic reduction of alloying components from their compounds (for example, oxides or fluorides) or electrolysis.
In recent years, there has been a tendency to produce more complex master alloys, for example, ternary or quadruple.
It was found that ternary master alloys can be effectively used in the production of alloys based on light metals.
Online since: June 2014
Authors: Ting Zhou, Ning Wang, Hui Guo, Yong Xu, Xue Feng Wang, Li Juan You
Wet Leaching.Wet leaching is refers to the use of different heavy liquid react with metals or their compounds, thus shift the heavy metals into the solution or new precipitation.
Acid extraction had better extraction efficiency,and extracted more arsenic compounds than water[9].
Alloy Material.
Adding an amount of arsenic in some alloys can effectively improve the physical and chemical properties, such as domestic anti-corrosion Pb-Sb-As alloy for battery cathode grid, lead-based alloy is mainly used as the acid batteries with a trace of lead (about 0.01-0.05%), can increase the lead terminal and the intensity of the grid, improve the battery life about 20 to 50 percent[27-31], arsenic lead alloy is also used in the arms industry.
Added about 0.5% arsenic in copper alloys can improve the alloy’s corrosion resistance and tensile strength, arsenic copper also can used in industrial equipment piping, automotive radiators and naval brass.
Acid extraction had better extraction efficiency,and extracted more arsenic compounds than water[9].
Alloy Material.
Adding an amount of arsenic in some alloys can effectively improve the physical and chemical properties, such as domestic anti-corrosion Pb-Sb-As alloy for battery cathode grid, lead-based alloy is mainly used as the acid batteries with a trace of lead (about 0.01-0.05%), can increase the lead terminal and the intensity of the grid, improve the battery life about 20 to 50 percent[27-31], arsenic lead alloy is also used in the arms industry.
Added about 0.5% arsenic in copper alloys can improve the alloy’s corrosion resistance and tensile strength, arsenic copper also can used in industrial equipment piping, automotive radiators and naval brass.
Online since: March 2017
Authors: Ivo Dlouhy, Petra Hanusova
Reactions in Ternary System Al-B2O3-C during Mechanical Alloying
Petra Hanusova1, a * and Ivo Dlouhy1, b
1Institute of Materials Science and Engineering, NETME Centre, Brno University of Technology (BUT), Faculty of Mechanical Engineering, Technická 2896/2, 616 69 Brno, Czech Republic
a*hanusova@fme.vutbr.cz, bdlouhy@fme.vutbr.cz
Keywords: mechano-chemical reactions, alloying, aluminium matrix composite.
One possible route for producing the fine and homogenous distribution of hard particles in matrix aiming to form composite microstructure is the mechano-chemical processing in which high-energy ball milling promotes the reaction in a mixture of reactive powders.
b AlB2 Al a Al AlB2 Fig. 2 Cross – sectional SEM (SE mode) images of the powder after milling for a) 22 and b) 62 hrs Figure 3 shows the XRD patterns of the sample having initial composition in ratio Al : B2O3 : C = 7:2:1 by mole for different delays of mechanical alloying, i.e. for 2, 6, 22 and 62 hrs.
Torabi, Effect of the magnesium content on the mechanochemical behavior in ternary system Mg–B2O3–C, International Journal of Refractory Metals and Hard Materials 43 (2014) 132-140
Enayati, A study on mechanochemical behavior of B2O3–Al system to produce alumina-based nanocomposite, Journal of Alloys and Compounds 482 (2009) 110-113
One possible route for producing the fine and homogenous distribution of hard particles in matrix aiming to form composite microstructure is the mechano-chemical processing in which high-energy ball milling promotes the reaction in a mixture of reactive powders.
b AlB2 Al a Al AlB2 Fig. 2 Cross – sectional SEM (SE mode) images of the powder after milling for a) 22 and b) 62 hrs Figure 3 shows the XRD patterns of the sample having initial composition in ratio Al : B2O3 : C = 7:2:1 by mole for different delays of mechanical alloying, i.e. for 2, 6, 22 and 62 hrs.
Torabi, Effect of the magnesium content on the mechanochemical behavior in ternary system Mg–B2O3–C, International Journal of Refractory Metals and Hard Materials 43 (2014) 132-140
Enayati, A study on mechanochemical behavior of B2O3–Al system to produce alumina-based nanocomposite, Journal of Alloys and Compounds 482 (2009) 110-113
Online since: June 2014
Authors: Zi Qiao Zheng, Xian Fu Luo, Min Jia
The aim of present study is to investigate the tendency of formation of the ternary W phase and the effects of Sc element in the Sc-added Al-Cu-Li complex alloy system based on the 1469 alloy.
Results Tensile properties of alloys aged at 160oC.
Both of the alloys show remarkable age hardening.
Kaibyshev, Journal of Alloys and Compounds, 509 (2011) 9497-9507
Conf. on Aluminum Alloys, 1994, pp. 161-168
Results Tensile properties of alloys aged at 160oC.
Both of the alloys show remarkable age hardening.
Kaibyshev, Journal of Alloys and Compounds, 509 (2011) 9497-9507
Conf. on Aluminum Alloys, 1994, pp. 161-168
Online since: November 2025
Authors: Ilare Bordeasu, Iuliana Duma, Alin Nicuşor Sîrbu, Nicolae Alexandru Luca, Cristian Ghera, Cornelia Laura Salcianu, Sebastian Titus Duma, Robert Parmanche, Corneliu Eusebiu Podoleanu
Matthews, Cavitation erosion of aluminium alloys, Journal of Materials Science vol.29, pp. 1101-1108 (1994)
Preece: Cavitation erosion of age-hardenable aluminum alloys, vol.9 299–307 (1978)
Mondolfo: Aluminum Alloys: Structure and Properties, Ed.
Davis: Aluminum and Aluminum Alloys, ASM international (1993)
Ryabov: Structure, properties and application of alloys of the Al-Mg-Si-(Cu) system, Met.
Preece: Cavitation erosion of age-hardenable aluminum alloys, vol.9 299–307 (1978)
Mondolfo: Aluminum Alloys: Structure and Properties, Ed.
Davis: Aluminum and Aluminum Alloys, ASM international (1993)
Ryabov: Structure, properties and application of alloys of the Al-Mg-Si-(Cu) system, Met.
Online since: June 2025
Authors: William Baya Mwaro, Mahlatse Ramaesele Mphahlele, Mark Walker
Manuel, Measurement of Diffusion Coefficients and Assessment of Atomic Mobilities in HCP Mg-Ag-Sn Alloys, Journal of Phase Equilibria and Diffusion. (2024) 1-13
Neelakantan, Transitions among martensitic phases during continuous deformation in metastable β Ti-10V-2Fe-3Al alloy, Journal of Alloys and Compounds. 964 (2023) 171320
Tancret, Martensite formation in titanium alloys: Crystallographic and compositional effects, Journal of Alloys and Compounds. 872 (2021) 159636
Vijayalakshmi, Crystal structure and bonding characteristics of transformation products of bcc β in Ti-Mo alloys, Journal of Alloys and Compounds. 705 (2017) 769-781
Elliott, Diffusion in titanium and titanium alloys.
Neelakantan, Transitions among martensitic phases during continuous deformation in metastable β Ti-10V-2Fe-3Al alloy, Journal of Alloys and Compounds. 964 (2023) 171320
Tancret, Martensite formation in titanium alloys: Crystallographic and compositional effects, Journal of Alloys and Compounds. 872 (2021) 159636
Vijayalakshmi, Crystal structure and bonding characteristics of transformation products of bcc β in Ti-Mo alloys, Journal of Alloys and Compounds. 705 (2017) 769-781
Elliott, Diffusion in titanium and titanium alloys.