N100 Plan

The N100 Plan was the corporate code name for the top secret concept, engineering, and development of an entirely new motorcycle engine by Kawasaki Motorcycle Corporation, a division of Kawasaki Heavy Industries in 1966.

Goal

The goal of Kawasaki engineering in the N100 Plan was to create a large bore, fast motorcycle engine for entry into the American market, the largest market for motorcycles. Honda had already introduced its successful Honda CB450 in 1965 and Kawasaki desired to enter that large bore niche.

Kawasaki directive

The N100 Plan called for an air-cooled standard motorcycle with an engine capacity of 500 cubic centimeters. The power output was set at no less than 60ps (equivalent to a per liter horsepower of 120ps). The performance minimum was to make a 13-second standing start 1/4 mile run (0–400 meters).[1]

Development

Three cylinder development

The Kawasaki engineers approached the N100 Plan in two ways. (1) Use an existing, tried and true Kawasaki A7 350 "Avenger", a 350 cc two-stroke, parallel twin-cylinder, rotary-disc engine, bored out to 500 cc or (2) develop an entirely new engineering layout, building a parallel 3-cylinder two-stroke or create a new and groundbreaking "L-triple" design air-cooled two-stroke engine.[2]

The development team decided to utilize both twin-cylinder and triple-cylinder engines together as test engines. The largest concern was development of the 3-cylinder design and whether it would be a parallel in-line or new "L-triple". The concern over the 3-cylinder design was cooling cylinders #2 or middle cylinder in either application. Osaka University's laboratory belonging to the Faculty of Engineering performed a number of tests on cooling of the engine as a whole, optimum length of cooling fins, and optimum cylinder pitch. It was determined that a parallel in-line configuration would not impair cooling.

Two-cylinder development

While testing the 3-cylinder, Kawasaki also went forward with the development and testing of its current two-stroke twin-cylinder rotary disc valve engine. The preliminary test results pointed to a very promising outcome. One possible advancement in the twin over the triple was keeping the rotary disc valve fuel/air intake which produced more horsepower than the conventional piston port or reed valve means which has been the case in other Kawasakis.

The Kawasaki technical team at the end decided on a more exotic looking, stunning, and innovative design of the three-cylinder piston inlet port engine.[3]

Road testing

The initial part of the 2nd test of the N100, as recorded by Darrell Krause, was between Los Angeles and Las Vegas in late 1966 with the test rider Tony Nicosia. A new engine was installed at Las Vegas and the bike was run to Yuma, Arizona under normal road conditions with a return trip to Los Angeles. Krause reported improvements at low speed, better electrical performance, and improved oil consumption @ 350 to 400 miles per quart. Problems were listed as bad piston and clutch noise.[4]

Darrell Krause

Testing in the U.S. was administered by Darrel Krause, one a few of American engineers with Kawasaki. Krause graduated from South Dakota School of Mines & Technology majoring in Mechanical Engineering. He had moved up through the ranks of Kawasaki from a Kawasaki/Suzuki dealer to become one of the first corporate employees of American Kawasaki. Krause's positions were Service Manager, Racing Manager, New Products Manager, General Manager of the Kawasaki Engine Division, and General Manager of Kawasaki Accessories Division located in Santa Monica, California.[5] One of the his first duties in 1966 was to commission a U.S. marketing plan for Kawasaki.[6]

In 1967, Krause took a few of the 250 cc Kawasaki A1 Samurai models to Bonneville Salt Flats the next year and set 2 American Motorcycle Association world speed records himself for that year.[7]

End results

In 1969, Kawasaki debuted the Kawasaki H1 Mach III with interest and it was eventually labeled in various ways as the "world's quickest accelerating production bike". The success of the Mach III directly lead to the development of the Kawasaki Mach II S2 350 in 1971, the Kawasaki S1 Mach I and Kawasaki H2 Mach IV 750 in 1972.

Footnotes

References

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