Buel D Napier

52269752, Jul 13, 1993

Mar 20, 1991

7/672680

James E. Denton - Columbus IN
Buel D. Napier - Columbus IN

Cummins Engine Company, Inc. - Columbus IN

C23C 1402

148220

A method of forming a wear-resistant coating for internal combustion engine component parts which allows the part to remain dimensionally stable under severe engine operating conditions is provided. The coating is formed by a two step method. First, the engine part is coated with chromium to form a chromium base layer. Second, the chromium coated part is subjected to a reactive gas plasma in a reaction chamber at an elevated temperature and under an applied electrical potential. The gas of the plasma reacts with the chromium to form the wear-resistant layer. Preferably, the reactive gas is nitrogen which reacts with the chromium to form a chromium nitride surface layer on the chromium base layer. The coating formed in accordance with the present invention is especially suited for fuel injectors because the process may be conducted in essentially two steps so that any resizing of the fuel injector plunger can be done after formation of the chromium base layer, but before the wear-resistant surface layer is formed.

49023586, Feb 20, 1990

Nov 16, 1988

7/273754

Buel D. Napier - Columbus IN
George W. Wolter - Whitehall MI
Renita G. King - Brownstown IN

Cummins Engine Company, Inc. - Columbus IN

C21D 500

148127

A method for forming extremely strong ceramic-to-metal joints is provided which is particularly applicable to the formation of components for internal combustion engines. The present method simultaneously brazes a ceramic to a metal and creates a normallized microstructure and desired mechanical in the metal in a single heating step. The ceramic is metallized, a suitable alloy is applied, and the ceramic-alloy-metal composite is first heated to about 160. degree. F. to 1750. degree. F. for about one hour and then gas quenched in nitrogen or argon, or a gas with similar heat transfer capabilities.