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Progression of the successful engine program exemplified by the Mack ENDT675 Maxidyne Six, having an essentially constant horsepower characteristic in the operating speed range, has led to the development and production of the new Mack ENDT865, Maxidyne V-8 having similarly ordered performance at higher output. Significant advances in design to maintain reliability at high loadings including a new injection pump, a simplified oil system, and a single turbocharger arrangement are discussed, as well as a new integral engine brake. The Mack Dynatard Engine Brake is specifically covered in the second part of this paper.

Current technology, especially in our dynamic industry, demands more reliable and up-to-date information in order to operate efficiently. Data of many kinds, from many sources, must be collected, analyzed, and rapidly transmitted into information which can be used to optimize performance and improve our product. To meet these needs in production diesel engine testing, a process control system has been developed around the basic objective of establishing an accurate and regimented test program, which will provide more reliable information for analysis and action, increased test capacity, accurate history data, and a higher quality product. This paper describes the basic design of such a system, the advantages to be gained, and the overall operation.

To establish a criteria for engine oil requirements for Mack diesel engines, a program was conducted to establish a specification based on the use of a production multicylinder engine. Laboratory engine tests were supplemented by field tests to assure correlation. Subsequently modifications were made to the engine test procedures to accommodate modifications in engines being marketed. Oil monitoring and oil analysis programs were also implemented to further assist in assuring adequate engine lubrication.

Two ceramic monolith wall flow diesel particulate traps, incorporating a new split flow design with a base metal catalytic coating were tested on line haul highway trucks to investigate their performance characteristics. The trucks were equipped with a 300 HP turbocharged and after-cooled engine. After-cooler by-pass was used to effect the regeneration of the trap and an elapsed-time scheme was employed to control the regeneration process. Tests were terminated after one trap completed 147,500 miles of operation on the truck for in-depth examination of the trap to determine the cause of substantial increase in back pressure. Tests with the second trap of identical design was also terminated due to filtering efficiency loss, the cause of which was traced to a flaw in the canning arrangement. This arrangement permitted exhaust flow to by-pass the element and led to melt down of the trap, due to reduced flow during regeneration.