modelling and microstructural characterization of sintered metallic porous materials

Clicks: 189
ID: 194571
2016
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Abstract
This paper presents selected characteristics of the metallic porous materials produced by the sintering of metal powders. The authors focus on materials produced from the iron powder (Fe) of ASC 100.29 and Distaloy SE. ASC 100.29 is formed by atomization and has a characteristic morphology. It consists of spherical particles of different sizes forming agglomerates. Distaloy SE is also based on the sponge-iron. The porous material is prepared using the patented method of sintering the mixture of iron powder ASC 100.29, Fe(III) oxide, Distaloy SE and Fe(III) oxide in the reducing atmosphere of dissociated ammonia. As a result, the materials with open pores of micrometer sizes are obtained. The pores are formed between iron particles bonded by diffusion bridges. The modelling of porous materials containing diffusion bridges that allows for three-dimensional (3D) imaging is presented.
Reference Key
depczynski2016materialsmodelling Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors ;Wojciech Depczynski;Robert Kazala;Krzysztof Ludwinek;Katarzyna Jedynak
Journal Nature Materials
Year 2016
DOI
10.3390/ma9070567
URL
http://www.mdpi.com/1996-1944/9/7/567
Keywords
metal foam sintering electronics civil engineering (general)microscopydescriptive and experimental mechanics nuclear engineeringengineering (general)

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