3360104 - 1028H PISTONS AND CONNECTING RODS
CONSTRUCTION SPECIFICATIONS
Connecting rods
The connecting rods are made from spheriod cast iron. The gudgeon pins are the fixed type and are matched with the connecting rod.COMPOSITION
The connecting rod comprises a casing or shank, with a rectilinear axis, which rigidly connects the small end, hinged to the gudgeon pin with a copper alloy bush in between and the big end, hinged on the crank pin with bearings in between.The big end is divided into two sections for fitting reasons: the fixed part is in one piece with the casing and the moving part is connected to the former by studs.Since the connecting rod is subjected to compression and combined compressive and bending stress forces it tends to become distorted; as a result the connecting rod body should be made in such a way as to combine lightness with maximum resistance and is therefore contructed with a double T section.The connecting rod is the main element connecting the piston with the crankshaft.PISTONS
The pistons are made from silicon aluminium alloy and are divided into three size categories with an arrow stamped on the crown to indicate engine rotation direction to ensure correct installation.COMPOSITION
The piston comprises two parts:
- Head (1) or area of the piston rings, with a diameter slightly smaller than that of the cylinder to allow the thermal dilation of the metal.
- Skirt (2) or guide for the small end that supports the side thrust. The skirt contains two studs for housing the gudgeon pin.
These pistons contain a steel ring incorporated through fusion between the skirt and the head which has the task of preventing the expansion of the skirt in the direction transverse to the gudgeon pin axis.
OPERATION
It is the component that receives the engine impulse directly from the pressure of the combustion gas, via the connecting rod, transmitting the drive force to the crankshaft.It should meet the following requirements:
- high mechanical resistance that allows it to support the explosion pressures (~35 kg/cm2) and the dynamic stresses;
- good resistance to heat and to wear;
- good thermal conductivity, to transmit the heat from the hot area to the cold area underneath;
- lightness and quiet operation when hot and when cold.