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Baldor / Dodge Para-Flex neoprene elements are accessories used in Dodge Para-Flex coupling to dampen vibrations. In addition, they also compensate for angular, parallel and axial misalignments between the connected shafts.
Style | Model | Size | Speed | Price | |
---|---|---|---|---|---|
A | 011266 | PH/PF 87 | 6000 rpm | £634.69 | RFQ
|
A | 011267 | PH/PF 96 | 5230 rpm | £944.85 | RFQ
|
A | 011268 | PH/PF 116 | 4050 rpm | £1,128.35 | RFQ
|
A | 011269 | PH/PF 131 | 3750 rpm | £1,055.86 | RFQ
|
A | 011270 | PH/PF 172 | - | £1,640.83 | RFQ
|
A | 011271 | PH/PF 192 | - | £2,575.32 | RFQ
|
A | 011272 | PH/PF 213 | 2130 rpm | £3,467.39 | RFQ
|
B | 011296 | PX50 | - | £199.12 | RFQ
|
C | 011286 | PX60 | - | £206.93 | RFQ
|
B | 011297 | PX60 | - | £257.69 | RFQ
|
B | 011298 | PX70 | - | £320.15 | RFQ
|
C | 011287 | PX70 | - | £253.78 | RFQ
|
C | 011288 | PX80 | - | £339.68 | RFQ
|
B | 011299 | PX80 | - | £425.57 | RFQ
|
C | 011289 | PX90 | - | £272.01 | RFQ
|
B | 011300 | PX90 | - | £460.71 | RFQ
|
B | 011301 | PX100 | - | £495.85 | RFQ
|
C | 011290 | PX100 | - | £295.39 | RFQ
|
B | 011302 | PX110 | - | £663.73 | RFQ
|
B | 011303 | PX120 | - | £819.91 | RFQ
|
C | 011292 | PX120 | - | £636.40 | RFQ
|
C | 011112 | PX120 | - | £503.66 | RFQ
|
B | 011304 | PX140 | - | £1,026.84 | RFQ
|
B | 011305 | PX160 | - | £1,518.78 | RFQ
|
B | 011306 | PX200 | - | £2,287.93 | RFQ
|
B | 011312 | PX240 | - | £5,259.12 | RFQ
|
B | 011313 | PX280 | - | £8,860.85 | RFQ
|
B | 011315 | PX320 | - | £12,331.12 | RFQ
|
They can handle both extremely hot (210 degrees F) and cold (-45 degrees F) climates.
Neoprene is inherently resistant to many chemicals and environmental conditions, providing a level of corrosion resistance. When used in flexible couplings, neoprene elements contribute to the overall corrosion resistance of the coupling system.
Neoprene has excellent damping properties, absorbing and dissipating vibrations. When used in flexible couplings, neoprene elements minimise the transmission of vibrations between connected shafts. Hence, they reduce the risk of equipment damage and improve overall operational smoothness.