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Metallurgical Science and Technology, Vol. 21, No. 2, (2003) 3-9, ISSN 0393-6074 Yoon, S. Ch. & Kim, H. S. (2008). Finite element analysis of the effect of the inner corner angle in equal channel angular pressing. Materials Science and Engineering A, Vol. 490, No. 1-2, (2008) 438-444, ISSN 0921-5093 Zhernakov, V. , Budilov, I. , Raab, G. , Alexandrov, I. V. & Valiev, R. Z. (2001). A numerical modelling and investigations of flow stress and grain refinement during equal-channel angular pressing.

Horita Z. & Langdon, T. G. (2002). Grain refinement of pure nickel using equalchannel angular pressing. Materials Science and Engineering A, Vol. 325, No. ; Palček, P. & Chalupová, M. (2005). Failure of Al-alloy AK 4-1c under creep-fatigue interaction conditions. Kovove Materialy, Vol. 43, No. ; Janeček, M. & Král, R. (2009). Microstructure changes in a 2618 alluminium alloy during ageing and creep. Journal of Alloys and Compounds, Vol. J. B. (2003). Analysis of the billet deformation during equal channel angular pressing; Materials Science and Engineering A, Vol.

Particle size distribution of investigated aluminium alloys are presented in Table 2 and Table 3. Size fraction [μm] Fraction [%] St. 5 <45 5 5 Table 2. Particle size distribution of investigated Al-Mg-Si-Cu-Fe aluminium alloy Size fraction [μm] Fraction [%] St. 1 Table 3. Particle size distribution of investigated Al-Zn-Mg-Cu aluminium alloy An Evaluation of Severe Plastic Deformation on the Porosity Characteristics of Powder Metallurgy Aluminium Alloys Al-Mg-Si-Cu-Fe and Al-Zn-Mg-Cu 33 Variations in particle size distribution and consequently the uniformity of powder mixes significantly influence the specimens’ density and the mechanical properties including strength, wear and fatigue.

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