Structural and Material Design of Open-Cell Powder Metallurgical Foams

High porosity permeable materials have been manufactured on the basis of the highly uniform structure of foamed polyurethane since the 1950 s. This paper shows the development of open cell foams based on all kinds of steels, titanium alloys, and also open‐cell molybdenum foams made by a powder metal...

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Bibliographic Details
Published in:Advanced engineering materials 2011-11, Vol.13 (11), p.1024-1030
Main Authors: Quadbeck, Peter, Kümmel, Kerstin, Hauser, Ralf, Standke, Gisela, Adler, Jörg, Stephani, Günter, Kieback, Bernd
Format: Article
Language:English
Subjects:
Economics
Foamed metals
Metal foams
Metallurgy
Polyurethane foam
Replication
Structural steels
Titanium base alloys
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Summary:High porosity permeable materials have been manufactured on the basis of the highly uniform structure of foamed polyurethane since the 1950 s. This paper shows the development of open cell foams based on all kinds of steels, titanium alloys, and also open‐cell molybdenum foams made by a powder metallurgical replication technique. Such materials show a wide range of physical and mechanical properties, which may be adapted to various requirements. The automotive industry, for example, needs high‐temperature resistant materials with high permeability and good strength for catalytic conversion. For orthopaedic implants, the network‐like metal foams made of titanium, tantalum, or steel exhibit a bone‐like structure. The powder metallurgical replication route represents an economic method to process open‐cell metal foams with a unique combination of properties for a wide range of applications. Open‐cell metal foams have been manufactured by a powder metallurgical replication technique. Thus, highly porous components from several steels, titanium alloys, and also molybdenum have been produced. This paper shows how the mechanical and physical properties of such replicated polyurethane based metal foams may be adapted to various applications.
ISSN:1438-1656
1527-2648
1527-2648
DOI:10.1002/adem.201100023