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Piston, pistons

Carburetors, pistons, piston rings, and valves Fluid power cylinders and actuators Fluid power pumps and motors Scales and balances, except laboratory Industrial and commercial machinery and equipment, n.e.c ... [Pg.57]

Diesel fuel may contain ash-forming materials in the form of abrasive solids or soluble metallic soaps. These solids cause wear of injection equipment, pistons, piston rings, and liners as well as increasing engine deposits. Ash content is expressed as a percentage of the weight of the original test sample of the fuel when burned to completion m an open container. [Pg.341]

Cylinder Liner Piston Rings Piston Piston Pin... [Pg.556]

Energy lost to mechanical friction has been decreased significantly through a large number of small, incremental improvements. In the typical modern engine, about half of the friction occurs between the cylinder wall and the piston/piston ring assembly. The sidew all contact surfaces of the piston... [Pg.565]

No. In/Out Mat l of Const Cylinders Cylinder Liners Pistons Piston Rings Piston Rods Cooling Water ... [Pg.789]

Number of Units Piston Piston Turbine Turbine Piston Turbine Turbine Turbine... [Pg.59]

CASE LINER PISTON PISTON ROD. PISTON RING... [Pg.707]

Piston seal life Spring-loaded seal, self-aligning piston, piston seal... [Pg.82]

It is important to realize that when the force Fy is applied, die drive piston (piston 1) moves hy a distance L, vdiile the driven piston (piston 2) moves fay a diorter distance, L. However, die volume of the fluid displaced is constant, as shown in Figure 10.12. Knowing that in an enclosed system, die volume of the fluid displaced remains cnnstant, we can then determine the distance Z2 by which piston 2 moves, provided the displacement of piston 1, Xj, is known. [Pg.254]

Automotive - pistons, piston crowns, cylinder liners and magnesium wheels. [Pg.232]

T0DSEN,U. Investigation of the tribological system piston-piston ring-cylinder liner, (in German), VDI-Forschungsheft, No.628, 1985... [Pg.618]

RXZONE.MVE PISTON - Piston Driven Nitromethane Reaction Zones RXZONE.MVE INIT - Nitromethane Shock Initiation RXZONE.MVE RXPIST - Stable and Unstable Nitromethane Detonations RXZONE.MVE 9404 - Stable PBX-9404 Detonation... [Pg.525]

Three different piston-piston seal combinations are shown above. The left and right sets are for an analytical HPLC system the middle is from a column-packing pump. Note that the larger diameter of the center pump will allow for faster flow rates (displaces more volume per piston stroke). [Pg.149]


See other pages where Piston, pistons is mentioned: [Pg.381]    [Pg.413]    [Pg.848]    [Pg.317]    [Pg.393]    [Pg.156]    [Pg.393]    [Pg.1220]    [Pg.33]    [Pg.523]    [Pg.504]    [Pg.410]    [Pg.40]    [Pg.162]    [Pg.29]    [Pg.740]    [Pg.744]   
See also in sourсe #XX -- [ Pg.101 , Pg.108 , Pg.148 , Pg.196 ]




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Adiabatic piston

Batch and Piston Flow Reactors

Blowers rotary piston

Circular piston

Component balances piston flow

Compressor rotary piston

Compressors cylinder piston displacement

Compressors liquid piston

Compressors liquid-piston type

Compressors piston displacement

Compressors reciprocating piston type

Compressors rolling piston

Compressors, hydraulic piston

Consecutive reactions piston flow

Deposit piston

Diaphragm Piston Pumps

Differential Piston System

Differential piston

Diffusion piston like

Disk piston

Double-acting piston extruder

Dry piston pumps

Dual piston reciprocating pumps

Dual-piston in-series

Engines piston-ported

Engines pistons

Fire piston

Flame piston

Four piston model

Four-stroke piston engine

Gas in a cylinder-and-piston device

Gases piston

Gases piston-cylinder arrangement

High pressure piston

Hydraulic piston

Ideal reactors piston flow

Industrial piston-type

Isothermal Piston Flow Reactors

Labyrinth design pistons

Linear-piston pumps

Liquid Piston Reactor

Liquid piston vacuum pump

Liquid ring pumps Rotary piston pump

Mechanical piston

Mechanical pumps piston pump

Mercury piston

Movable piston

Multiple reactions piston flow

Nonisothermal Piston Flow

Nonisothermal reactors piston flow

On piston ring

Optical piston

PULSED PISTON FLOWS

Packings for Sliding Components (Pistons etc

Phase equilibrium piston

Piston

Piston

Piston Compressor for

Piston Compressor for 30 MPa at the Maximum

Piston Displacement

Piston Forces

Piston Pipe Pistol

Piston Strategy

Piston actuator

Piston and Molding Presses

Piston and cylinder apparatus

Piston blow

Piston burettes

Piston cap

Piston compressors

Piston cores

Piston cylinder

Piston device

Piston displacement, phase transitions

Piston drop ejector

Piston effect

Piston engine, solid-lubricated

Piston extruder

Piston flow

Piston flow model

Piston flow model with mass transfer

Piston flow model with mass transfer coefficient

Piston flow reactor

Piston flow reactor liquid-phase

Piston flow type reactor

Piston injection unit

Piston manometer

Piston motion

Piston on ring test

Piston power

Piston pump

Piston pump dispensing

Piston pump pumps

Piston pump, advantages

Piston pumps delivery from

Piston pumps solenoid

Piston pumps theoretical delivery

Piston pumps volumetric efficiency

Piston ring leakage

Piston ring wear

Piston rings

Piston rod failure

Piston seal, replacing

Piston sealing

Piston seals

Piston skirts

Piston speed

Piston sweep

Piston theory

Piston type pressure switches

Piston valve

Piston velocity

Piston, expansion work done

Piston-anvil method

Piston-based systems

Piston-cylinder apparatus

Piston-cylinder assembly example

Piston-cylinder cell

Piston-cylinder example

Piston-cylinder example pressure-volume

Piston-cylinder example reversible

Piston-cylinder example types

Piston-cylinder press

Piston-cylinder vessels

Piston-flow region

Piston-gap homogenizer

Piston-rod

Piston-type extrusion presses

Piston-type presses

Pistoning

Pistoning

Pneumatic piston actuator

Positive-displacement pumps piston

Pressure piston manometer

Pressure-driven piston cylinder capillary

Pulse piston modeling

Pulse piston operation

Pulsed piston transport

Pump piston seals

Pumps axial piston

Pumps reciprocating piston compressor

Pumps reciprocating-piston

Pumps, piston-type

Radon piston velocity

Rayleigh piston

Reactor piston

Reciprocating Piston Vacuum Pump

Reciprocating compressors double acting piston

Reciprocating high-pressure piston pump heads

Reciprocating piston compressor

Reciprocating pump piston/plunger

Reciprocating single-piston

Rotary piston pumps

Rotary piston pumps components

Screw/piston

Section 6.37 Liquid Piston Reactor

Sectional View of a Double-Piston Press

Sectional View of a Single-Piston Press

Short-stroke piston pump

Single-acting piston

Single-acting piston extruder

Solid Piston Pumps

Solvent delivery systems reciprocating-piston pumps

Specific for Near-Critical Fluids the Piston Effect

The Pressure Balance (Piston Gauge)

The reciprocating piston compressor

The short-stroke piston pump

Transfer piston

Trapped piston ring

Tritium as a Tracer of Recharge and Piston Flow Observations in Wells

Typical Piston Primed Single Flechette Cartridge

Unsteady Piston Flow

Vacuum pumps rotary piston

Vacuum reciprocating piston

Vacuum rotary piston

Winds piston velocity

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