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Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Fixed blank Conflat flange (CF) are available in the full range of sizes. These are used to blank off unused chamber ports for leak-tight assembly, also allowing End User machining for non standard tube sizes or components.

Plain wobble sticks are used where linear and angular movement is required to move a custom probe mounted to the end of the linear movement, via a 5mm mounting hole. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Hollow wobble sticks are used where linear and angular movement is required to independently position a probe or rotatory shaft, via the hollow shaft terminating in a 34mm OD flange. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Hollow wobble sticks are used where linear and angular movement is required to independently position a probe or rotatory shaft, via the hollow shaft terminating in a 34mm OD flange. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Hollow wobble sticks are used where linear and angular movement is required to independently position a probe or rotatory shaft, via the hollow shaft terminating in a 34mm OD flange. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Hollow wobble sticks are used where linear and angular movement is required to independently position a probe or rotatory shaft, via the hollow shaft terminating in a 34mm OD flange. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Plain wobble sticks are used where linear and angular movement is required to move a custom probe mounted to the end of the linear movement, via a 5mm mounting hole. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Plain wobble sticks are used where linear and angular movement is required to move a custom probe mounted to the end of the linear movement, via a 5mm mounting hole. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Plain wobble sticks are used where linear and angular movement is required to move a custom probe mounted to the end of the linear movement, via a 5mm mounting hole. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Dedicated 18mm flag style pincer grip wobble stick are used where linear and angular movement is required to move flag sample plates in vacuum These come in two designs, inline and perpendicular sample pick up. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Dedicated 18mm flag style pincer grip wobble stick are used where linear and angular movement is required to move flag sample plates in vacuum These come in two designs, inline and perpendicular sample pick up. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Dedicated 18mm flag style pincer grip wobble stick are used where linear and angular movement is required to move flag sample plates in vacuum These come in two designs, inline and perpendicular sample pick up. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Plain wobble sticks are used where linear and angular movement is required to move a custom probe mounted to the end of the linear movement, via a 5mm x 8mm deep mounting hole. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Dedicated 18mm flag style pincer grip wobble stick are used where linear and angular movement is required to move flag sample plates in vacuum These come in two designs, inline and perpendicular sample pick up. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Dedicated 18mm flag style pincer grip wobble stick are used where linear and angular movement is required to move flag sample plates in vacuum These come in two designs, inline and perpendicular sample pick up. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Pincer Grip Wobble are used where linear and angular movement is required to move a 14mm disk samples inside vacuum via an inline pincer grip. The pincer grip allows for four pre-set rotation position at 90 intervals. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Pincer Grip Wobble are used where linear and angular movement is required to move a 14mm disk samples inside vacuum via an inline pincer grip. The pincer grip allows for four pre-set rotation position at 90 intervals. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Pincer Grip Wobble are used where linear and angular movement is required to move a 14mm disk samples inside vacuum via an inline pincer grip. The pincer grip allows for four pre-set rotation position at 90 intervals. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

Pincer Grip Wobble are used where linear and angular movement is required to move a 14mm disk samples inside vacuum via an inline pincer grip. The pincer grip allows for four pre-set rotation position at 90 intervals. Edge welded bellows, gives the user a true 'feeling' of position inside the vacuum chamber to give a controlled positioning.

High power magnetically coupled precision linear travel with optional rotation. The MLD series offers linear only, where rotation is not required, or the MLRD series offers an independent 360° rotation shaft, where rotation is required. These only use UHV accepted metals within its construction. These probes have a front bearing housing supporting the linear shaft, which offers higher accuracy over the MLRV series for repeatability tasks. On the MLRD series, the independent rotation shaft also…

High power magnetically coupled precision linear travel with optional rotation. The MLD series offers linear only, where rotation is not required, or the MLRD series offers an independent 360° rotation shaft, where rotation is required. These only use UHV accepted metals within its construction. These probes have a front bearing housing supporting the linear shaft, which offers higher accuracy over the MLRV series for repeatability tasks. On the MLRD series, the independent rotation shaft also…

High power magnetically coupled precision linear travel with optional rotation. The MLD series offers linear only, where rotation is not required, or the MLRD series offers an independent 360° rotation shaft, where rotation is required. These only use UHV accepted metals within its construction. These probes have a front bearing housing supporting the linear shaft, which offers higher accuracy over the MLRV series for repeatability tasks. On the MLRD series, the independent rotation shaft also…

High power magnetically coupled precision linear travel with optional rotation. The MLD series offers linear only, where rotation is not required, or the MLRD series offers an independent 360° rotation shaft, where rotation is required. These only use UHV accepted metals within its construction. These probes have a front bearing housing supporting the linear shaft, which offers higher accuracy over the MLRV series for repeatability tasks. On the MLRD series, the independent rotation shaft also…

High precision Rack & Pinion linear travel with optional rotation, with both axis controlled by rotary drives. The LRP series offers linear only, where rotation is not required, or the RLRP series which offers an independent 360° rotation shaft, for transferring samples with greater accuracy then the MLD/R series. These use UHV accepted metals within its construction. The probes have a front bearing housing supporting the shaft, which offers higher accuracy over the MLRV probe for repeatability…

High precision Rack & Pinion linear travel with optional rotation, with both axis controlled by rotatory drives. The LRP series offers linear only, where rotation is not required, or the RLRP series which offers an independent 360° rotation shaft, for transferring samples with greater accuracy then the MLD/R series. These use UHV accepted metals within its construction. The probes have a front bearing housing supporting the shaft, which offers higher accuracy over the MLRV probe for…

High precision Rack & Pinion linear travel with optional rotation, with both axis controlled by rotatory drives. The LRP series offers linear only, where rotation is not required, or the RLRP series which offers an independent 360° rotation shaft, for transferring samples with greater accuracy then the MLD/R series. These use UHV accepted metals within its construction. The probes have a front bearing housing supporting the shaft, which offers higher accuracy over the MLRV probe for…

High precision Rack & Pinion linear travel with optional rotation, with both axis controlled by rotatory drives. The LRP series offers linear only, where rotation is not required, or the RLRP series which offers an independent 360° rotation shaft, for transferring samples with greater accuracy then the MLD/R series. These use UHV accepted metals within its construction. The probes have a front bearing housing supporting the shaft, which offers higher accuracy over the MLRV probe for…

Heavy duty high precision Rack & Pinion linear travel with optional rotation, with both axis controlled by rotatory drives. The LRP series offers linear only, where rotation is not required, or the RLRP series which offers an independent 360° rotation shaft, for transferring samples with greater accuracy then the MLD/R series. These use UHV accepted metals within its construction. The probes have a front bearing housing supporting the shaft, which offers higher accuracy over the MLRV probe for…

Heavy duty high precision Rack & Pinion linear travel with optional rotation, with both axis controlled by rotatory drives. The LRP series offers linear only, where rotation is not required, or the RLRP series which offers an independent 360° rotation shaft, for transferring samples with greater accuracy then the MLD/R series. These use UHV accepted metals within its construction. The probes have a front bearing housing supporting the shaft, which offers higher accuracy over the MLRV probe for…

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.

Zero Length Adaptor conflat Flange (CF) are used to adapt from one flange size to another. The larger flange OD has through bolt holes enabling ordinary nut and bolt to be used. The smaller flange OD has metric tapped holes. This connects different sizes of flanges where there is limited space and does not increase the chamber volume.