Recent advances in PIM technology I-Reference-Cited by-同舟云学术

Recent advances in PIM technology I

Published:2008 Issue:1 Volume:40 Page:79-88
ISSN:0350-820X
Container-title:Science of Sintering
language:en
Short-container-title:SCI SINTER

Author:

Zlatkov B.S.¹,Griesmayer E.¹,Loibl H.¹,Aleksic O.S.²,Danninger H.³,Gierl C.³,Lukic L.S.⁴

Affiliation:

1. FOTEC Forschungs-und Technologietransfer GmbH, Winner Neustadt, Austria

2. Institute for Multidisciplinary Research-IMSI, Belgrade

3. Institute of Chemical Technologies and Analytics, Wien, Austria

4. IRITEL AD Belgrade, Belgrade

Abstract

In this article the state of art of the PIM (Powder Injection Moulding) technology is given in brief. The main process flow diagram consisting of four steps: feedstock preparation, injection moulding (green samples forming), the debinding (binder removing) procedure and the sintering process was described. After that the materials for binders and additives for the surface active agents were mentioned in brief. The metal injection moulding (MIM) process was analysed in more detail: MIM- stainless steels, MIM-copper and MIM-aluminium as the most metals common in MIM metal parts production. After that our results of MIM stainless steel 316 L and MIM copper are given. The main powder characteristics, the shrinkage and density of the sintered samples were compared for isostatically pressed PM (powder metallurgy) samples and MIM formed samples. The SEM fractographs of MIM and PM samples are given for MIM green parts, debinded (brown) parts and sintered parts, and PM green parts and sintered parts. The results obtained were compared with literature data before they were applied in metal parts production.

Publisher

National Library of Serbia

Subject

Materials Chemistry,Metals and Alloys,Condensed Matter Physics,Ceramics and Composites

Reference14 articles.

1. Microstructural evolution of injection molded gas- and water-atomized 316L stainless steel powder during sintering

2. Mechanical properties of metal injection moulded 316L stainless steel using both prealloy and master alloy techniques

3. Analysis of the rheological behavior and stability of 316L stainless steel–TiC powder injection molding feedstock

4. Thermal debinding processing of 316L stainless steel powder injection molding compacts

5. Improvements in sintered density and dimensional stability of powder injection-molded 316L compacts by adjusting the alloying compositions

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