This work aims at determining the constitutive model of four commercial water atomised low alloyed steel powders during cold compaction. Single-action experiments were performed, obtaining cylindrical specimens with different H/D ratios. The distribution of axial and radial stresses was investigated, and the relationships describing both the radial stress transmission coefficient and the flow stress as functions of the relative density were determined. The radial stress transmission coefficient also confirmed the hypothesised value of Poisson’s coefficient. The friction coefficient between the powder column and the die wall was determined, also highlighting the influence of the H/D ratio. Measuring the axial and radial strains due to spring-back, the axial and radial elastic moduli were determined, as functions of the relative density. The results obtained for the four materials were compared, also highlighting both differences and similarities.
From experimental data, the mechanics relationships describing the behaviour of four different low alloyed steel powders during uniaxial cold compaction / Cristofolini, Ilaria; Molinari, Alberto; Pederzini, Gianluca; Rambelli, Alex. - In: POWDER METALLURGY. - ISSN 0032-5899. - 2018, 61:1(2018), pp. 10-20. [10.1080/00325899.2017.1361507]
From experimental data, the mechanics relationships describing the behaviour of four different low alloyed steel powders during uniaxial cold compaction
Cristofolini, Ilaria;Molinari, Alberto;
2018-01-01
Abstract
This work aims at determining the constitutive model of four commercial water atomised low alloyed steel powders during cold compaction. Single-action experiments were performed, obtaining cylindrical specimens with different H/D ratios. The distribution of axial and radial stresses was investigated, and the relationships describing both the radial stress transmission coefficient and the flow stress as functions of the relative density were determined. The radial stress transmission coefficient also confirmed the hypothesised value of Poisson’s coefficient. The friction coefficient between the powder column and the die wall was determined, also highlighting the influence of the H/D ratio. Measuring the axial and radial strains due to spring-back, the axial and radial elastic moduli were determined, as functions of the relative density. The results obtained for the four materials were compared, also highlighting both differences and similarities.File | Dimensione | Formato | |
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