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Abstract

Many industrial applications, e.g. processing of polymers, suffer from high costs caused by corrosion and wear. Particularly the combination of both increases the requirements for the materials used. Corrosion resistant cold work steels were developed to withstand the combined attack. Resistance is achieved by a sufficient content of chromium in the metal matrix and by carbides dispersed in a martensitic matrix. A further gain in wear resistance is possible by adding hard phases to the steel to produce a particulate reinforced metal matrix composite (MMC). The common consolidation process for such MMCs is hot isostatic pressing, but they can also be processed by solid state or liquid phase sintering. This work focuses on detailed investigations of the properties in dependence on the processing route. The results show that the resulting corrosion and wear resistance depend not only on the processing method, but also on the incorporated hard phases in combination with the manufacturing method. In addition, the unreinforced metal matrices were compared to the MMC.

Keywords

Supersolidus liquid phase sintering Hot isostatic pressing Metal matrix composite Corrosion and wear resistance

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References

Berns

, Theisen

: ‘Ferrous materials: steels and cast iron’, 1st edn; 2008, Berlin, Springer.

Zum Gahr

K-H

: ‘Microstructure and wear of materials’, Vol. 10; 1987, Amsterdam, Elsevier.

Berns

, (ed.): ‘Hartlegierungen und -verbunde: Gefüge, Eigenschaften, Bearbeitung, Anwendung’; 1998, Berlin, Springer Verlag and Springer.

Berns

: Wear, 2003, 254, (1–2), 47–54.

Theisen

: Materialwiss. Werkstofft., 2005, 36, 360–364.

Weber

, Theisen

: Powder Metall., 2006, 47, (4), 355–362.

Weber

, Theisen

: Materialwiss. Werkstofft., 2007, 38, (6), 442–452.

Weber

: ‘Gezielte Ausnutzung des Stofftransportes zur Herstellung neuartiger PM-Hartverbundwerkstoffe auf Eisenbasis’, PhD thesis, Ruhr-Universität Bochum, Bochum, Germany, 2005.

Weber

, Li JR , Theisen

: Mater. Sci. Technol., 2010, 26, 1494–1502.

10.

German

: Metall. Mater. Trans. A, 1997, 28A, (7), 1553–1567.

11.

German

: ‘Liquid phase sintering’; 1985, New York, Plenum Press.

12.

Hill

, Huth

, Weber

, Theisen

: Mater. Corros., 2010, 436–443.

13.

Hill

, Weber

, Siebert

, Theisen

: ‘Liquid phase sintering of high-alloyed plastic mould steels: calculations and experimental findings on atmospheric influences’, Proc. Euro PM2009 Conf., Copenhagen, Denmark, October 2009, European Powder Metallurgy Association, paper no. 68, session 10, 1–6.

14.

Hill

, Weber

, Siebert

, Huth

, Theisen

: Metall. Mater. Trans. A, 2010, 41, (3), 686–695.

15.

Friedrich

, Berg

, Broszeit

, Berger

: Materialwiss. Werkstofft., 1997, 28, 59–76.

16.

Weber

, Theisen

: Adv. Eng. Mater., 2007, 9, (3), 165–170.

17.

in ‘ASM handbook’, 10th edn, Vol. 3, ‘Alloy phase digrams’; 1992, Materials Park, OH, ASM International, 114–115

18.

Bolton

, Gant

: Powder Metall. Met. Ceram., 1997, 40, (2), 143–151.

19.

Bolton

, Gant

: Powder Metall. Met. Ceram., 1996, 39, (1), 27–35.

20.

Pagounis

, Talvitie

, Lindroos

: Compos. Sci. Technol., 1996, 56, 1329–1337.

21.

Karlsohn

, Theisen

: Sonderbände der Praktischen Metallografie, 2004, 36, 97–102.

22.

Cowling

, Hintermann

: J. Electrochem. Soc., 1970, 117, (11), 1447–1449.

23.

Bollina

: ‘ In situ evaluation of supersolidus liquid phase sintering phenomena of stainless steel 316L: densification and distortion’, PhD thesis, Penn State, Pennsylvania, PA, USA, 2005.

24.

Lindqvist

: ‘Pressing and sintering of MMC wearparts’, Proc. World Cong. on ‘Powder metallurgy’, Paris, France, June 1994, European Powder Metallurgy Association, Vol. 1, 467–470.

Investigation of corrosion and wear properties of Fe based metal matrix composites consolidated by sintering and hot isostatic pressing

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