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The upper face of a piston assembly is called?

The upper face of a piston assembly is called the crown or piston crown. It is the top surface of the piston that comes into contact with the combustion gases during the engine's operation.


What is the purpose of the piston crown?

The piston crown serves as the top part of a piston in an internal combustion engine, playing a crucial role in the combustion process. It helps to contain and compress the fuel-air mixture within the combustion chamber, ensuring efficient combustion and maximizing power output. The shape and design of the piston crown can also influence combustion efficiency, emissions, and engine performance by promoting better mixing and flame propagation. Additionally, it withstands high temperatures and pressures, contributing to the overall durability of the piston.


What is the function of the deflector crown on the two stroke engine?

As there is a positive mechanical device, in the shape of a deflector on the piston, to promote the fresh air and fuel charge flow from the scavenge ports towards the cylinder head and away from the exhaust ports; such an engine tends to have good scavenging characteristics and such engines have, in general, excellent low speed performance behaviour. The scavenging process of the deflector piston engine is known as cross-scavenging and these engines are often described as cross-scavenged engines as well as deflector piston engines. A conventional deflector piston engine is shown in FIG. 1 with the piston at top-dead-centre position with its deflector of height H1 above the timing edges of the piston, T E1 for the exhaust port or ports and T S1 for the scavenge port or ports SC1. The piston rings P1 are located as close to these timing edges as is practical to ensure a good cylinder gas seal particularly when the piston rings P1 have uncovered the exhaust port and before the timing edge T E1 does so releasing the burned air/fuel mixture or exhaust gas into the exhaust duct via the port or ports E1. Consequently the convenion design has the timing edges T E1 and TS 1 located at the same vertical physical position on the piston by design and as close to the piston rings P1 as practical considerations permit. It is known that good scavenging is related, among other considerations, to deflector height H1 and in general, the taller deflector the better is the scavenging process. This produces undesirable side effects for the design of the combustion chamber. Whatever the height of deflector, because the timing edges T E1 and T S1 are at the same vertical position on the piston and separated by the deflector then, almost by definition, the combustion chamber becomes a divided chamber and cannot be described as a compact combustion chamber. In practice this produces a slow combustion process which results in inferior performance characteristics for the engine. Compounding this problem is the intrusion of the deflector into the combustion space with the consequence that it is difficult to effectively cool or transfer the heat away from the deflector to the body of the piston. Thus the deflector tends to run hot, to promote detonation in the best case and pre-ignition in worse circumstances. This again tends to limit the use of high compression ratios for the conventional engine which limits the theoretical, and experimental, efficiency of the power unit by comparison with engines where such effects do not occur. Often the deflector is so hot during the combustion process that more fuel than is normal must be introduced so as to cool the deflector and reduce the possibility of detonation or pre-ignition; this further reduces the power output and engine efficiency. Another important aim of the designers of combustion chambers is the generation of squish between the piston and the cylinder head to promote gas turbulence. This leads to faster flame propagation speeds in the combustion chamber, more rapid rates of pressure rise and shorter combustion times hence both theoretically, and experimentally, producing higher output and increased engine efficiency. To obtain this effect the designer must ensure that a considerable area of the piston surface mates closely with the cylinder head at the top-dead centre position and produces a high speed jet of turbulent fresh charge, designated S1 in FIG. 1, directed towards the flame and combustion created by the ignition I 1 at the spark-plug X 1 . In the case of the conventional deflector piston-engine this is quite difficult to achieve in practice because of the often complex shape of deflector required for good scavenging characteristics and because of the manufacturing consideration of often having cast but not machined piston crowns and cylinder heads. While this close mating can be obtained, albeit with difficulty, in single cylinder experimental engines by hand finishing; it is very difficult to achieve in the mass production of multi-cylinder power units. Consequently, in the case of the conventional deflector piston, the combustion process is characterised by poor squish, slow combustion rates, hot piston crowns, incipient detonation or pre-ignition and a necessity for fuel cooling all of which results in inferior power and thermal efficiency characteristics by comparison with two-stroke cycle engines with compact combustion chambers and good squish characteristics. This has led to a decrease in popularity of the deflector piston engine design.


What is the piston crown?

The central part of the top of a piston, often raised in some engines.


What is the crown of a piston?

The piston crown refers to the top of the piston. A piston can generally be divided into two sections (though the piston is a single piece). The lower part of the piston is called the skirt. The upper part, including the top of the piston that faces the valves and must handle the combustion of the fuel-air mixture, is called the crown. The piston crown must have the mechanical strength to withstand the forces of combistion, and must be made of materials that will withstand the heat of combistion. All this must come in a package that has limited thermal expansion so that the tolerances within the engine are tighter and performance is maximized.


How piston crown burn is measured?

Piston crown burn is typically measured by visually inspecting the piston crown for signs of scorching or discoloration due to heat exposure. The extent and severity of the burn can be assessed by measuring the size and depth of the affected area. Additionally, analyzing the material composition and structure of the piston crown through microscopic examination can provide further insights into the cause and severity of the burn.


Is the piston skirt the portion that is cut out on one side or is that the piston crown?

Piston crown is the top, skirt is the side below the ring lands (ring grooves). The as you say, the skirt often has cut aways to clear the counterwieghts on the crankshaft.


What is the upper face of a piston assembly know as?

The upper face of a piston assembly is known as the piston crown. This surface plays a critical role in the combustion process, as it is where fuel and air mix and ignite in internal combustion engines. The design of the piston crown can influence engine efficiency, performance, and emissions.


What allows the piston more efficient cooling?

A larger piston skirt to cylinder wall contact raises piston cooling. With turbo motors, they have piston oilers, they spray oil on the underside of the pistons, cooling the piston /crown.


Where can you get crown shaped lollipops?

You can get crown shape lollipops at Kroger in the candy section.


Why does your 1997 Ford Crown Vic blow?

cracked oil ring on piston


What is the hottest part of an internal combustion engine?

Hottest part is the piston crown....