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- 0...0.6 bar 1
- 0...0.6 bar__0...40 bar 5
- 0...0.6 bar__0...40 bar__PN 16/40 or Class 150/300 1
- 0...1.000 bar 1
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- 0...400 bar 2
- 0...600 bar 9
- 0...700 bar 3
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- 10 bar__6 bar__8 bar 6
- 20 bar 1
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- 25 mbar 1
- 40...400 mbar 1
- 100 bar 1
- 250 bar 1
- 300 bar 1
- 350...400 bar 2
- -0.2...21 bar 1
- -0.2...400 bar 1
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- -0.95...60 bar 1
- -1...1 bar__0...2.000 bar 1
- -1...1 bar__0...2500 bar 1
- -1...2 bar__0...1000 bar 1
- -1...3 bar__0...700 bar 1
- -1...3 bar__0...1000 bar 1
- -1...10 bar__0...1000 bar 1
- -1...18 bar 1
- -1...60 bar 1
- -1...210 bar 2
- -1...250 bar 1
- -1...400 bar 1
- -1...1000 bar 1
- Corresponding to flange specification 1
- From 400 mbar depending on diameter of diaphragm 1
- PN 10 10
- PN 10 €“ 100; Class 150 - 600 1
- PN 16 8
- PN 25 5
- PN 50 2
0...16 bar, 0...250 bar, 350...400 bar - 0...10.000 bar
5 items
990.10 Threaded Connection Diaphragm Seal
1522
The WIKA 990.10 diaphragm seal with threaded connection in threaded design is suitable for versatile application areas. A replacement of the lower body is possible without modifications on the diaphragm seal system. With this diaphragm seal, high pressure ranges up to 250 bar can be covered. Compared to the WIKA 990.40 diaphragm seal, higher pressure ranges can be covered (smaller diameter of the diaphragm). Mounting of the diaphragm seal to the measuring instrument may be made via a direct connection, for high temperatures via a cooling element or via a flexible capillary. For the material selection, WIKA offers a variety of solutions, in which the upper body of the diaphragm seal and the wetted parts can be made of identical or different materials. The wetted parts can, as an alternative, be coated.
- USD
CPG 1500 Digital Pressure Gauge
2776
The WIKA CPG1500 precision digital pressure gauge takes the concept of an analogue gauge and raises it to a level only matched by digital calibrators. The accuracy of digital measurement technology and the simplicity of an analogue gauge are combined to create the digital pressure gauge CPG1500, which in terms of performance, ease-of-use, and instrument features, is unmatched in the pressure measurement market. The WIKA CPG1500 offers an accuracy of 0.1 % FS (optional 0.05 % FS or 0.025 % FS) and is temperature-compensated in the range of -10 ¦ +50 °C (14 … 122 °F). Readings can be displayed in one of 26 pressure and 5 level units or also in customer-specific units, so that intricate conversion is avoided. The measuring rate can be user-defined to match the type of measurement required. Standard applications usually use three measured values per second. If required, this rate can also be set to 50 measured values per second. Via an energy-saving function, the CPG1500 switches automatically into œsleep mode, in this mode, the battery life can be increased up to 2,500 hours. Through the new and innovative menu navigation, simple operation is ensured. The clear display, with integral bar graph display and large text area, assists with the effective analysis of the widest variety of measuring points. With the MIN/MAX function, the highest and lowest pressures can be accessed immediately and saved automatically.
- USD
100.0x / 100.1x Bimetall-Thermomanometer
3298
The WIKA 100.1, 100.2, 100.10 and 100.12 thermomanometer with a bimetal system is fitted directly at the measuring point via a stem. The valve allows the measuring instrument to be unscrewed without having to empty the heating system first. Due to the combination of a pressure gauge and a bimetal thermometer the instrument can be used flexibly in a wide variety of applications. The WIKA thermomanometer with bimetal system is fitted directly at the measuring point via a stem. The valve allows the measuring instrument to be unscrewed without having to empty the heating system first. Due to the combination of a pressure gauge and a bimetal thermometer the instrument can be used flexibly in a wide variety of applications
- USD
VZVA Positive Displacement Flow Sensor
7830
SIKA's gearwheel type VZVA positive displacement flow sensor records volume flows of liquids with both high and changing viscosities. The high-precision sensors work according to the displacement principle. The high resolution combined with reliable measurement accuracy makes the sensors especially useful for applications involving the measurement of small and minimal volumes. A very precisely adjusted gear pair within the casing forms the measuring element. The inflowing medium causes the gear pair to rotate. Contactless sensors scan the rotary motion. Since each tooth generates a pulse, this results in a very high resolution. Consequently, even the smallest volumes can be measured or dosed precisely. The measurement unit contains two pick-offs that are circumferentially offset by ¼ of a tooth pitch to generate a two-channel flow-proportional frequency signal. Suitable processing of the signal provides a higher resolution and the option to identify the flow direction. The maximum pressure drop should not exceed 16 bar. This limits the measurement range of high viscosity media (see pressure drop diagrams). The measurement accuracy increases with an increase in viscosity of the media.
- USD
VZGG Positive Displacement Flow Sensor
7835
SIKA™s gearwheel type VZGG positive displacement flow sensor records volume flows of liquids with both high and changing viscosities. The high-precision sensors work according to the displacement principle. The high resolution combined with reliable measurement accuracy makes the sensors especially useful for applications involving the measurement of small and minimal volumes. A very precisely adjusted gear pair within the casing forms the measuring element. The inflowing medium causes the gear pair to rotate. Contactless sensors scan the rotary motion. Since each tooth generates a pulse, this results in a very high resolution. Consequently, even the smallest volumes can be measured or dosed precisely. The measurement unit contains two pick-offs that are circumferentially offset by ¼ of a tooth pitch to generate a two-channel flow-proportional frequency signal. Suitable processing of the signal provides a higher resolution and the option to identify the flow direction. The maximum pressure drop should not exceed 16 bar. This limits the measurement range of high viscosity media (see pressure drop diagrams). The measurement accuracy increases with an increase in viscosity of the media.
- USD
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