Parallel to a slew of launches back then, Yamaha Motor India was aiming to demonstrate its technological prowess with the launch of DiASil Cylinder in the Indian market. Yamaha “DiASil Cylinder” is used on the new 150cc YZF-R15 which was unveiled at Auto Expo 2008 for the first time.
Developed in 2002 by Yamaha Motor Co., Ltd, Yamaha “DiASil Cylinder” is an all-aluminum die-cast cylinder with 60% better cooling performance and 30% cheaper production cost than a conventional cylinder (*1). Yamaha “DiASil Cylinder” (*2), is the world’s first all-aluminum die-cast cylinder and it achieves cooling performance equivalent to that of a nickel-plated cylinder, which is currently recognized as the best in the industry, but at a significantly lower production cost than a nickel-plated cylinder.
DiASil”, an abbreviation for “Die-casting Aluminum-Silicon”, is a technology which brings together an ideal combination of material, manufacturing technology and environmental friendliness. The material used is a 20% silicon content aluminum alloy, the manufacturing technology is the Yamaha CF Aluminum Die-cast Technology (*3), which enables the production of an all-aluminum die-cast cylinder. It is Yamaha’s exclusive CF Aluminum Die-cast Technology that enables the mass production of a die-cast cylinder made completely of 20% silicon content aluminum alloy, something that could not be done with conventional die casting methods.
This next-generation technology promises to contribute to improved function and product quality for the majority of Asian market motorcycles and automobiles that presently use conventional pistons with cast steel liners.
Compared to conventional cylinder: Refers to cylinders that have a cylindrical cast steel liner (or “sleeve”) inserted along the inner wall of the cylinder to reduce friction resulting from the piston’s movement. Used on many motorcycle engines.
“DiASil”: A name created as an abbreviation of Die-casting Aluminum-Silicon.
Yamaha CF Aluminum Die-cast Technology = Yamaha Controlled Filling Die Casting. This is a die-casting technology that utilizes precise control of the casting conditions (degree of vacuum in the die, die temperature, injection speed of the molten aluminum) to reduce the amount of gas bubbles in the finished cast piece to just 20% of conventional methods in order to produce higher quality cast parts. Introduced in Feb. 2002.