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Thrust, thrusting

Bearings (journal, precision faced thrust) Thrust balancing disc... [Pg.475]

Thrust Fault" it displaced over long distance (km range)... [Pg.82]

To obtain the necessary pressure on the lid, and for general protection when the bomb is being heated, the bomb is placed in a hea y metal case G, in which the collar E of the bomb rests in a circular recess at the top of G, and the base of A just appears through the bottom of G. The lid H of the case screws down over G, and has an orifice through which the pillar F of the bomb projects when H is screwed firmly down onto G. The bottom portion of G and the sides of H are made of hexagonal cross-section so that both can be firmly held with suitable tools whilst H is being screwed down and is thus thrusting the lid C of the bomb firmly down onto the base A. [Pg.506]

The last variation we should discuss is about the use of solvent. Ever-bitching about the rarity and price of chemicals, the bees have thrust their anger at the DMF used in this method. TDK sent Strike an article that gives some credence to this [16]. In it the alcohols methanol, ethanol, 1-propanol, ethanediol and others were used in place of DMF with beautifully high yields. Below is the sample experimental from the article Oust picture using safrole or allylbenzene in place of the 1-hexene) ... [Pg.73]

An unsteady ain-flow unbalance that alternates between inlets can set up an alternating thrust pattern which can be very damagiag to beariags designed for low thrust load. Mechanical vibration and elastic deformation problems and diagnostic techniques for stmctural iaadequacies ia fan design are discussed ia Reference 16. [Pg.110]

Table 4. Teflon PFA Fluorocarbon Resin Thrust-Bearing Wear-Test Results ... Table 4. Teflon PFA Fluorocarbon Resin Thrust-Bearing Wear-Test Results ...
The shape of the converging section is a smooth trumpet shape similar to the simple converging nozzle. However, special shapes of the diverging section are required to produce the maximum supersonic-exit velocity. Shocks result if the divergence is too rapid and excessive boundary layer friction occurs if the divergence is too shallow. See Liepmann and Roshko (Elements of Gas Dynamic.s, Wiley, New York, 1957, p. 284). If the nozzle is to be used as a thrust device, the diverg-... [Pg.651]

Hydraulic The design of typical hvdraiilic actuators is similar to double-acting piston pneumatic types. One kev advantage is the high pressure (yvpicallv35 to 70 bar [500 to 1000 psi]), vvFich leads to high thrust in a smaller paclcage. The incompressible nature of the... [Pg.781]

Overhaul pump reposition individual impellers as needed. Reposition whole rotor by changing thrust collar locator spacer. [Pg.916]

Back-to-back impellers allow for a balanced rotor thrust and minimize overloading the thrust bearings. [Pg.926]

Balance piston with no external leakage will greatly reduce wear on the thrust bearings. [Pg.926]

When significant continuous loads have to be taken on a thrust washer, it is necessary to machine into the bearing surface a profile to generate a fluid film. This profile can be either a tapered wedge or occasionally a small step. [Pg.944]

The thrust-carrying capacity can be greatly improved by maintaining pad flatness and removing heat from the loaded zone. By the use of nigh thermal conductivity backing materials with proper thickness... [Pg.944]

Nonequalizing tilting pad thrust bearing with radial pivot... [Pg.944]

Thrust-Bearing Power Loss The power consumed by various thrust bearing types is an important consideration in any system. Power losses must be accurately predicted so that turbine efficiency can be computed and the oil supply system properly designed. [Pg.945]

Figure 10-123 shows a typical power consumption in thrust bearings as a function of unit speed. Tne total power loss is usually about 0.8-10 percent of the total rate power of the unit. New vector lube bearings reduce the horsepower loss by as much as 30 percent. In large vertical pumps, thrust bearings take not only the load caused by... [Pg.945]

FIG. 10 123 Difference in total-power-loss data test minus catalog frictional losses versus shaft speed for 6 X 6 pad doiihle-element thrust hearings. [Pg.945]

Pressure thrust, which is the product of the effective thrust area times the maximum pressure to which the joint will be subjected during normal operation. (For shp joints the effective thrust area shall be computed by using the outside diameter of the pipe. For corrugated, omega, or disk-type joints, the effective thrust area shall be that area recommended by the joint manufacturer. If this information is unobtainable, the effective area shall be computed by using the maximum inside diameter of the expansion-joint bellows.)... [Pg.1002]

Some vessels may be exposed to a runaway chemical reaction or even an explosion. This requires relief valves, rupture disks, or, in extreme cases, a barricade (the vessel is expendable). A vessel with a large rupture disk needs anchors designed For the jet thrust when the disk blows. [Pg.1029]

See other pages where Thrust, thrusting is mentioned: [Pg.355]    [Pg.291]    [Pg.422]    [Pg.357]    [Pg.78]    [Pg.86]    [Pg.63]    [Pg.127]    [Pg.142]    [Pg.61]    [Pg.63]    [Pg.268]    [Pg.323]    [Pg.432]    [Pg.65]    [Pg.287]    [Pg.235]    [Pg.2]    [Pg.171]    [Pg.781]    [Pg.783]    [Pg.880]    [Pg.880]    [Pg.912]    [Pg.918]    [Pg.926]    [Pg.944]    [Pg.944]    [Pg.944]    [Pg.944]    [Pg.944]    [Pg.944]    [Pg.945]    [Pg.965]    [Pg.975]    [Pg.987]    [Pg.995]    [Pg.1137]   
See also in sourсe #XX -- [ Pg.51 , Pg.53 , Pg.54 , Pg.166 ]



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Abdominal thrust

Articulatory, thrusting techniques

Articulatory, thrusting techniques upper extremities

Automatic thrust control

Axial load/thrust

Axial thrust bearings

Back thrust

Bearing Thrust Design

Bearing Thrust principles

Bearings thrust loads

Bearings thrust type

Bearings thrust-bearing power loss

Booster-stage thrust

Centrifugal compressors axial thrust

Dual-thrust motor

Expansion turbines thrust

Extruder thrust bearing

Fault thrust

High-velocity low-amplitude thrusting techniques

Hydraulic Thrust Forces

Integral thrust collar

Jet thrust igniters

Jet thrust unit

Jet thrust unit (Jato)

Main Central Thrust

Maximum thrust

Maximum thrust coefficient

Maximum thrust loads

Momentum Change and Thrust

Momentum thrust

Multitube Thrust Chamber Dynamics

Pressure thrust

Pressure vessels elliptical head with thrust cone

Pressure vessels thrust rings/cones

Ribs thrusting technique

Rockets thrust

Rotor Thrust Problems

Rotor thrust

Screw thrust

Screw thrust bearing

Single-Grain Dual-Thrust Motor

Sustainer-stage thrust

The Short Thrust

Thrust

Thrust

Thrust and Burning Time

Thrust and Combustion Pressure

Thrust and Drag

Thrust and Specific Impulse

Thrust axial

Thrust balance

Thrust bearing assembly

Thrust bearings

Thrust blocks

Thrust coefficient

Thrust collar

Thrust control

Thrust damage

Thrust forces

Thrust limit

Thrust loads

Thrust meters

Thrust radial

Thrust skid

Thrust system

Thrust washer test

Thrust washer test (ASTM

Thrust washer, wear test methods

Thrust washers

Thrust, rocket engine

Thrust, rocket propellants

Thrust-bearings failure

Thrust-bearings power losses

Thrust-bearings systems

Thrust-bearings temperature monitoring

Thrusting

Thrusting techniques

Thrusting techniques dysfunction

Thrusting techniques thoracic spine

Total Thrust

Turbines, steam thrust bearings

Unbalanced axial thrust

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