Study on Quenching and Artificial Ageing on Al-Si Alloy

Dragos Achiţei; Andrei Victor Sandhu; Mohd Mustafa Al Bakri Abdullah; Petrică Vizureanu; Hussin Kamarudin

doi:10.4028/www.scientific.net/MSF.803.209

Paper Titles

Comparison of Using NaOH and KOH Activated Fly Ash-Based Geopolymer on the Mechanical Properties
p.179

Effect of Sodium Silicate Types on the High Calcium Geopolymer Concrete
p.185

The Effect of NaOH Concentration and Curing Condition to the Strength and Shrinkage Performance of Recycled Geopolymer Concrete
p.194

Physical and Mechanical Properties of Fired Clay Brick Incorporating with Mosaic Sludge Waste
p.203

Study on Quenching and Artificial Ageing on Al-Si Alloy
p.209

The Experimental Determination of the Friction Stress between the Semi-Product and the Active Plate at the Multiaxial Forging of Copper
p.216

Effect of Metakaolin on the Strength and Pore Size Distribution of Concrete
p.222

The Effect of Silicon Nitride Addition on Microstructure and Microhardness of SN100C Solder Alloy Using Powder Metallurgy
p.228

Leachability of Fired Clay Brick Incorporating with Sludge Waste from Mosaic Industry
p.233

HomeMaterials Science ForumMaterials Science Forum Vol. 803Study on Quenching and Artificial Ageing on Al-Si...

Study on Quenching and Artificial Ageing on Al-Si Alloy

Abstract:

Aluminum alloys have special advantages on the structural changes induced by thermal treatments. Thus, for proper machining a solution quenching is applied, when the hardness and the tensile strength of the alloy decreases. In order to restore the properties natural or artificial ageing is necessary.

You might also be interested in these eBooks

Geopolymer and Green Technology Materials

View Preview

Info:

Periodical:

Materials Science Forum (Volume 803)

Pages:

209-215

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.803.209

Citation:

Cite this paper

Online since:

August 2014

Authors:

Dragos Achiţei*, Andrei Victor Sandhu, Mohd Mustafa Al Bakri Abdullah, Petrică Vizureanu, Hussin Kamarudin

Keywords:

Al-Si Alloy, Artificial Ageing, Microhardness, Quenching

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] **, American Society for Metals - Metals Handbook, vol. 8, Metallography, Structures and Phase Diagrams, 8th edition, Metals Park, Ohio 44073.

Google Scholar

[2] D.R. Askeland D.R., The Science & Engineering of Metals, 3rd edition, (1994).

Google Scholar

[3] R. Carabet, C. Nejneru, M.C. Perju, I. Hopulele: Metalurgia International, Special Issue 3 (2009), p.141.

Google Scholar

[4] D. Frunzăverde, Thermal Treatments (original title in Romanian: Tratamente termice), Editura InterGraf Reşiţa, (2002), p.170.

Google Scholar

[5] G. Requena, H.P. Degischer: Materials Science and Engineering A, Vol. 420, Issue 1-2 (2006), p.265.

Google Scholar

[6] R.G. Carabet, P. Vizureanu, M.C. Perju, D.C. Achitei, Sustainable development and disperse precipitation technologies, on nanometric level, using alternant cycles, The 6th International Conference on the Management of Technological Changes, Alexandroupolis, Greece, vol. 2 (2009).

Google Scholar

[7] A. Deschamps, D. Dumont, Y. Brechet, C. Sigli, D. Dubost, Process modeling of age-hardening aluminum alloys: from microstructure evolution to mechanical and fracture properties, Proceedings of the James T. Staley honorary Symposium on Aluminum Alloys, (2001).

Google Scholar

[8] N. Radutoiu, J. Alexis, L. Lacroix, J.A. Petit, M. Abrudeanu, V. Rizea, S. Vulpe: Revista de Chimie (Bucharest), vol. 63, issue (2012), p.1042.

Google Scholar

[9] S. Tripković, Z. Acimovic-Pavlović, A. Terzić, L. Pavlović, M. Pavlović: International Journal of Cast Metals Research, vol. 26, issue 4 (2013), p.209.

DOI: 10.1179/1743133613y.0000000054

Google Scholar

[10] P. Nica, P. Vizureanu, M. Agop, S. Gurlui, C. Focsa, N. Forna, P.D. Ioannou, Z. Borsos: Japanese Journal of Applied Physics, 48 (2009), pp.066001-1.

DOI: 10.1143/jjap.48.066001

Google Scholar

[11] A. Deschamps, D. Dumont, Y. Brechet, C. Sigli, B. Dubost, Process modeling of age-hardening aluminum alloys: from microstructure evolution to mechanical and fracture properties, Proceedings of the James T. Staley honorary Symposium on Aluminum Alloys, 2001, pp.298-305.

Google Scholar

[12] C. Bohosievic: The International Journal of Modern Manufacturing Technologies, vol. 1, no. 1, 2009, p.17.

Google Scholar

[13] S. Michna, N. Naprstkova, I. Lukac: Metallofizika I Noveishie Tekhnologii, 33 (2011), p.1559.

Google Scholar