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1964 Sanglas Rovena motorcycle engine (built by Hispano Villiers) 1997 Suzuki GS500 motorcycle engine. A straight-twin engine, also known as an inline-twin, vertical-twin, inline-2, or parallel-twin, is a two-cylinder piston engine whose cylinders are arranged in a line along a common crankshaft.
The Murena's chassis was a new design. [3] In appearance it was very close to a full unitary body. The chassis differed from the Bagheera's in two significant ways; the rear cradle was reconfigured to accommodate a new rear suspension system, and the entire chassis was galvanised to prevent the Murena from falling victim to the rust problems that plagued the Bagheera. [5]
The third and primary coating was hard iron, 0.0007 in (18 μm) thick. The final layer was a flash of tin. The zinc and copper were necessary to adhere the iron while the tin prevented corrosion before assembly of the piston into the engine. Piston plating was done on a 46 operation automatic line.
Available as a four-door sedan, it is available in two trim levels known as 320T and 330T and five models. The 320T is available with a 1-litre turbocharged three cylinder engine while the 330T gets a 1.3 litre turbocharged three cylinder engine as standard. 1 litre models gain access to a 6 speed manual and 6 speed dual clutch gearbox while 1. ...
The CA engine is a series of 1.6 to 2.0 L (1,598 to 1,974 cc) Inline-4 piston engines from Nissan. It is designed for a wide variety of smaller Nissan vehicles to replace the Z engine and some smaller, four-cylinder L series engines. The "CA" stands for Clean Air, due to the installation of Nissan emission reducing technology, called NAPS-X.
An axial engine (sometimes known as a barrel engine or Z-crank engine) is a type of reciprocating engine with pistons arranged around an output shaft with their axes parallel to the shaft. Barrel refers to the cylindrical shape of the cylinder group (result of the pistons being spaced evenly around the central crankshaft and aligned parallel to ...
A variation of the opposed-piston design is the free-piston engine, which was first patented in 1934. Free piston engines have no crankshaft, and the pistons are returned after each firing stroke by compression and expansion of air in a separate cylinder. Early applications were for use as an air compressor or as a gas generator for a gas turbine.
Nissan's design philosophy at the time led to boost being limited to 6.8 psi (0.47 bar), despite the lowered compression of the turbo engine (7.4:1 with dished, cast aluminum pistons). Additional changes over the naturally aspirated engine included a higher volume oil pump, an oil cooler on automatic models, and Nissan's Electronic Concentrated ...