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The Laverda 750 is a 744 cc (45.4 cu in) air cooled SOHC 4 stroke parallel twin motorcycle produced by the Italian manufacturer Laverda from 1968 to 1976. Developed from the company's 650 , the engine's design drew heavily from the Honda CB77 .
Brute Force 300; Brute Force 650; Brute Force 750; KFX 50 (re-badged Suzuki LT-A50 until 2006, now an independent design) KFX 80 (re-badged Suzuki LT80) KFX 90; KFX 400 (re-badged Suzuki LT-Z400) KFX 450R; KFX 700 V-Force; KLT 110; KLT 160; KLT 185; KLT 200 Duckster 200; KLT 250; Lakota 300; Lakota Sport 300; Mojave 110; Mojave 250; Prairie 250 ...
Rob Muzzy is an American owner of Muzzy's Performance Products, a specialty engineering company that designs, manufactures and sells high performance parts for motorcycles. [1] He is also a successful motorcycle racing team owner, winning national and international championships in motorcycle road racing and drag racing .
The exhaust system and turbo (except silencers) were strengthened with different tube material, and some dimensions and frame geometry differed (28° rake instead of 26°). The rest came from conventionally aspirated 750 and the 1100 (front fork, brakes and some injection parts) and the entire cylinder head assembly from the KZ 650.
The Laverda 750SFC (Super Freni Competizione) is a hand-built 744 cc (45.4 cu in) air cooled SOHC 4 stroke parallel twin production racing motorcycle produced by the Italian manufacturer Laverda from 1971 to 1976.
Very few of these bikes seem to have been made and even fewer survived. The cast wheels were in an unpainted finish and the decals were in a distinctive stripe design on the tank and side panels. This bike had a 3-1 exhaust system, and Mikuni “Mark I” carburetors. The air box assembly was different from later years.
Ejector refers to the pumping action of the very hot, high speed, engine exhaust entraining (ejecting) a surrounding airflow which, together with the internal geometry of the secondary, or diverging, nozzle controls the expansion of the engine exhaust. At subsonic speeds, the airflow constricts the exhaust to a convergent shape.
One, that the exhaust gases intermingle with the fresh air needed for combustion, leading to some recirculation of burnt gas. Secondly, this co-mingling also raises the temperature of the intake gas. Both of these are much less of a problem in a diesel than a petrol engine, hence the Comprex's rarity in petrol-engined applications.