Search results for: 'pump pull leak'

The Titanium Sublimation Pump is a true UHV pump. It is used to supplement the pumping action of other UHV pumps, (normally Ion Pumps) as it can be more effective at pumping certain gases. The main advantages of this type of pump is, it is a simple, low cost solution, that gives you high pumping speeds.

Linear Drive Manual Push Pull 25mm Movement DN38CF

Linear Drive Manual Push Pull 50 mm Movement DN19CF

Linear Drive Manual Push Pull 100 mm Movement DN19CF

Linear Drive Manual Push Pull 150 mm Movement DN19CF

Linear Drive Manual Push Pull 50 mm Movement DN38CF

Linear Drive Manual Push Pull 100 mm Movement DN38CF

Linear Drive Manual Push Pull 150 mm Movement DN38CF

Linear Drive Pneumatic Push Pull 25 mm Movement DN19CF

Linear Drive Pneumatic Push Pull 50 mm Movement DN19CF

Linear Drive Pneumatic Push Pull 100 mm Movement DN19CF

Linear Drive Pneumatic Push Pull 25 mm Movement DN38CF

Linear Drive Pneumatic Push Pull 50 mm Movement DN38CF

Linear Drive Pneumatic Push Pull 100 mm Movement DN38CF

Linear Drive Manual Push Pull 25 mm Movement DN19CF

All metal Leak Valves with Mallory® sealing pad which offers a superior seal compared to a sapphire seat which can crack causing system vacuum failure. These are recommended for repeatable precise control the flow of gas and these are the preferred choice for system builders who need a reliable cost effective ultra-fine gas inlet control.

All metal miniature leak valve with nickel sealing disc. These are used for course control flow of gas into a vacuum system from an external source and operates to 1x10-9 mbar pressure range.

Spares for all metal valves

Spares for all metal valves

Spares for all metal valves

All metal Leak Valves with Mallory® sealing pad which offers a superior seal compared to a sapphire seat which can crack causing system vacuum failure. These are recommended for repeatable precise control the flow of gas and these are the preferred choice for system builders who need a reliable cost effective ultra-fine gas inlet control. For service and calibration please see product videos or visit https://vacgen.com/operating-instructions

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes to be inserted without effect on the chamber pressure. To maintain the rotary seal, one vacuum port is mounted to the base flange of the assembly allowing connection to an appropriate independent pump. These have a 25mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes to be inserted without effect on the chamber pressure. To maintain the rotary seal, one vacuum port is mounted to the base flange of the assembly allowing connection to an appropriate independent pump. These have a 25mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes to be inserted without effect on the chamber pressure. To maintain the rotary seal, one vacuum port is mounted to the base flange of the assembly allowing connection to an appropriate independent pump. These have a 25mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes to be inserted without effect on the chamber pressure. To maintain the rotary seal, one vacuum port is mounted to the base flange of the assembly allowing connection to an appropriate independent pump. These have a 25mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes to be inserted without effect on the chamber pressure. To maintain the rotary seal, one vacuum port is mounted to the base flange of the assembly allowing connection to an appropriate independent pump. These have a 25mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Differentially Pumped Rotary Feedthroughs provides the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Rotating platforms require minimal space at only 43mm and offer the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as large Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Rotating platforms require minimal space at only 43mm and offer the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as large Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Rotating platforms require minimal space at only 43mm and offer the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as large Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Rotating platforms require minimal space at only 43mm and offer the means of translating rotation through a vessel wall without losing vacuum integrity, enabling probes such as large Cryostats to be inserted without effect on the chamber pressure. To maintain the rotary seal, two vacuum ports are mounted to the base flange of the assembly allowing connection to an appropriate independent pumps. These have a 55mm clear bore with coarse and fine control available in addition to motorised options.

Right angle all metal valve, offering good conductance. The CR series comes with two body types, fully welded CR series or demountable CRD series.

Linear Drive Micrometer Driven 25 mm Movement DN19CF

Linear Drive Micrometer Driven 50 mm Movement DN19CF

Liquid feedthroughs are used to transfer fluids or gases through a Conflat flange into, or out of, a vacuum system. The LFT feedthroughs comprise of stainless steel tubes, terminating in a UHV leak tight connection on the vacuum side, using a copper gasket. The mating part of the connector is supplied, so you can weld you existing pipe work this, to make a UHV leak tight connection.

Liquid feedthroughs are used to transfer fluids or gases through a Conflat flange into, or out of, a vacuum system. The LFT feedthroughs comprise of stainless steel tubes, terminating in a UHV leak tight connection on the vacuum side, using a copper gasket. The mating part of the connector is supplied, so you can weld you existing pipe work this, to make a UHV leak tight connection.

Linear Drive Manual Screw 100mm Movement DN19CF

Linear Drive Manual Screw 100mm Movement DN38CF

Linear Drive Manual Screw 25 mm Movement DN19CF

Linear Drive Manual Screw 50 mm Movement DN19CF

Linear Drive Manual Screw 150 mm Movement DN19CF

Linear Drive Stepper Motor Wired 25mm travel DN19CF

Linear Drive Stepper Motor Wired 50mm travel DN19CF

Linear Drive Stepper Motor Wired 100mm travel DN19CF

Linear Drive Stepper Motor Wired 150mm travel DN19CF

Linear Drive Wired StepMotor/Encoder 50mm Movement DN19CF

Linear Drive Wired StepMotor/Encoder 100mm Movement DN19CF

Linear Drive Wired StepMotor/Encoder 150mm Movement DN19CF

Linear Drive Manual Screw 25 mm Movement DN38CFLVMPSK

Linear Drive Manual Screw 50 mm Movement DN38CF

Linear Drive Manual Screw 150 mm Movement DN38CF

Linear Drive Wired Stepper Motor 25mm Movement DN38CF

Linear Drive Wired Stepper Motor 50mm Movement DN38CF

Linear Drive Wired Stepper Motor 100mm Movement DN38CF

Linear Drive Wired Stepper Motor 150mm Movement DN38CF

Linear Drive Wired Stepper/Encoder 150mm Movement DN38CF

Ultra stable modular 54mm bore dual bellows manipulator for vertical or horizontal mount. Modular XYZ manipulator with NW63CF(114mm OD) conflat flange travelling. 54mm clear bore. Z travel 100mm to 1000mm; ±25 mm XY travel. Manual and motorisation options.