Patents from the High Temperature Materials research group

Publications

M.C. Galetz, X. Montero, W. Stamm
Method for producing a corrosion protection layer for thermal insulation layers made of hollow aluminum oxide balls and glass layer as outer layer and component
WO2016162295 (13.10.2016)

J. Witte, M.C. Galetz, A. Naji
Forming Mandrel with diffusion layer for glass forming
EP3121154 (13.7.2016)

M.C. Galetz, X. Montero, M. Schütze
Method for coating a substrate containing cobalt, nickel and/or iron with a corrosion-resistant layer
WO2013178216 A1 (29.5.2013)

J. Bauer, M. Galetz, M. Schütze
Method for Producing a Corrosion-inhibiting Diffusion Layer in the Peripheral Zone, Near the Surface of a Substrate that Consists of a Metal or a Metal Alloy, and Layer System Therefor
WO2012089200 (5.7.2012)

A. Donchev, M. Schütze, A. Kolitsch, R. Yankov
Process for treating the surface of titanium-aluminum alloys to improve the oxidation resistance of these alloys at specific temperature, by plasma immersion ion implantation using fluorine from e.g. fluorine-containing precursor gas
DE102008028990 (11.2.2010)

C. Geers, M. Schütze
Component consisting of an unalloyed or low-alloy steel, method for protecting said components against coke deposition or metal dusting
WO2010009718 (28.1.2010)

M. Schütze, A. Donchev, H.-E. Zschau
Method for treating surfaces of titanium-aluminum alloys with fluoride or fluoride compounds
DE112007001262 (26.2.2009)

V. Kolarik, M. Anchustegui Mezquita, M. del Mar Juez-Lorenzo, H. Fietzek, P. Kodjamanova, M. Schütze, T. Weber
Layer system and method for the production thereof
DE112008000455 (3.12.2009)

M. Schütze, H.-E. Zschau
Method for increasing the oxidation stability of Ni-base alloys by means of treatment with halogens
WO2008080633 (21.8.2008)

V. Kolarik, M. Anchustegui Mezquita, M. del Mar Juez-Lorenzo, H. Fietzek, P. Kodjamonova, T. Weber, M. Schütze
Layer system and method for the production thereof
WO002008110161 (14.3.2008)

M. Schütze, A. Donchev, H.-E. Zschau
Method for treating surfaces of titanium-aluminum alloys with fluoride or fluoride compounds
WO002007134596 (29.11.2007)

M. Schütze, A. Donchev, R. Yankov, E. Richter
Process to protect an alloy of titanium and aluminum from oxidation by implantation of fluorine and silicon
DE102006043436 (15.9.2006)

M. Schütze, W. Stamm
MCrAlX-alloy, protective coating made thereof and method for its production
EP1693473 (18.2.2005)

M. Schütze, A. Donchev
Erhöhung der Oxidationsbeständigkeit von TiAl-Legierungen durch die Behandlung mit Fluor
DE102006024886 (24.5.2006)

A. Böhm, T. Büttner, G. Walther, T. Weißgärber, D. Naumann, M. Schütze
Blade for through-flow turbine has thermal insulation layer of open-pore metal foam on surface of core element
DE102005002671 (14.1.2005)
PCT/EP 2006/000279 (13.1.2006)

M. Schütze, W. Fürbeth, H.-Q. Nguyen
Production of protective coatings on metallic surfaces, especially anti-corrosion coatings, involves hydrolysis and polycondensation of coating compositions based on hydrolyzable silane compounds
DE10332170 (7.11.2003)

M. Schütze, W. Fürbeth, F. Dettenwanger, H.-Q. Nguyen
Corrosion-resistant inorganic coating producing process involves electrostatically depositing non-metallic inorganic nanometric particles on surface of material
DE10102551 (1.8.2002)

M. Schütze, T. Weber
Aluminum-titanium diffusion layers, used for improving corrosion resistance of metallic materials used in refinery for gasifying coal, petroleum coke or other residual materials, are produced by co-diffusion
DE10116762 (4.4.2001)

M. Schütze, W. Fürbeth, C. Lang, F. Dettenwanger
Production of corrosion resistant coatings for metals comprises applying metallic or non-metallic inorganic nano-particulate powder in an organic matrix onto the metal surface, removing the organic matrix, and sintering
DE19939686 (22.2.2001)

M. Schütze, F. Dettenwanger, S. Lohfeld
High-temperature, oxidation-suppressing thermal insulation composite, used successfully on metallic, inter-metallic and ceramic substrates, is made by pyrolyzing simple coating of zirconia in polysiloxane
DE19935403 (8.2.2001)

M. Schütze, W. Fürbeth, F. Dettenwanger, H.-Q. Nguyen
Preparation of inorganic coatings on metal surfaces for corrosion protection under aggressive conditions having higher flexibility, resistance to crack formation, and higher hardness at lower treatment temperatures
DE10104169 (30.1.2001)

M. Schütze, G. Schumacher
Use of a liquid solution of hydrogen fluoride to treat the surface of aluminum and titanium alloys to improve the oxidation resistance of the alloys
DE10017187 (7.4.2000)

M. Schütze, M. Schulte
Use of an aluminium und titanium alloy and a coating material for such a use
EP716154B1 (19.1.2000)

M. Schütze, F. Dettenwanger, R. Bender
Production of a diffusion barrier comprises producing a ceramic particle dispersion below the surface of a metallic material
DE19960353 (14.12.1999)

M. Schütze, M. Hald
Increasing corrosion resistance of titanium-aluminium alloy
DE19627605 (10.7.1997)

M. Schütze, M. Hald
Process for increasing the corrosion-resistance of TiAl based alloys
EP770702 (2.5.1997)

M. Schütze, M. Hald
Titanium-aluminium alloy parts with improved high temperature corrosion resistance
DE19539305 (24.4.1997)

M. Schütze, M. Hald
Titanium-aluminium alloy powder with improved high temperature corrosion resistance
DE19539303 (24.4.1997)

A. Rahmel, M. Schütze, C. Bruns, M. Schorr
Preparation of silicon-rich surfaces on alloys
DE19604470 (17.4.1997)

M. Schütze, M. Schulte
Korrosionsbeständiger Werkstoff für Hochtemperaturanwendungen in sulfidierenden Prozeßgasen
DE4443147 (27.6.1996)

M. Schütze, K. Bundschuh
Appts. to measure corrosion resistance
DE4444944 (27.6.1996)

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