Rigaku Superseal Solid Shaft Ferrofluid Ferromagnetic Rotary Motion Feedthrough for bulkheads 3/4 in. to 1 in. thick, with transmission torque of 160 lbs-in. Rigaku Part Number FD-LSR-0375-LC, 605353These Rigaku vacuum rotary feedthroughs are designed for 3/4 to 1 inch thick bulkhead port connections. They are a ferromagnetic sealed device which uses dynamic sealing to allow free rotation of a solid shaft. These high performance vacuum rotary motion feedthroughs have the following features: Maximum Rotary Speeds Up To 5000 RPM (no-load) Maximum Bearing Load Capacity Of 575 lbs (0.34) inch Diameter Shaft Designed for 3/4 to 1 inch Bulkhead Connections Maximum Operating Differential Pressure 37 psig (2.5 Atmospheres) Helium Leak Tested To 5x10-09 std cc/sec Transmission Torque 160 1bs-in Ferrofluid Base Hydrocarbon Oil A300S Ferrofluid With Vapor Pressure 1x10-10 Torr Maximum 80 Degrees C Operating Temperature Housing and Shaft Material 17-4 PH SS Fomblin/Krytox Blend Bearing Lubricant, Vapor Pressure 1x10-13 Torr Suitable For Operating To 1x10-08 Torr Rigaku Part Number FD-LSR-0375-LC (605353) The vacuum tight dynamic seal is formed by the ferromagnetic particles suspended in the magnetic fluid (A300S) which interacts directly with the magnetic field generated by the feedthrough’s internal magnets. In these rotary feedthroughs, narrow rings of fluid (shown in figure below) forms a liquid barrier filling the annular spaces (or gaps) between a rotating shaft and the tips of the stationary pole magnetic piece. Since magnetic fluids can be pushed, pulled, and shaped by magnetic field they remain stationary to form a vacuum tight seal. Radially, the fluid rings are bounded by the magnetic pole piece tips. Magnetic flux density at the pole tips is very large. Hence, any axial displacement of a liquid ring away from the pole tip results in a force that resists the displacement. The isolated volumes between adjacent rings are important in the functioning of the device. Several different arrangements of housing, bearings, magnets and fluids are used for the many types of rotary vacuum feedthroughs. Many factors must be considered when selecting a rotary feedthrough for your process. A "Magnetic Fluid Feedthrough Primer" in PDF format is provided for download here that explains the technical functions and applications of magnetic fluid rotary feedthroughs. Topics include: Basic sealing principles of Dynamic Sealing Design of a feedthrough "Superseal" A breakthrough in construction and reliability Application Factors - environmental and mechanical Impact of feedthrough on process Impact of process on feedthrough Materials feedthrough is made of Application examples

Rigaku Superseal Solid Shaft Ferrofluid Ferromagnetic Rotary Motion Feedthrough for Bulkheads 3/4 in. to 1 in. Thick with 50 lbs-in. transmission torque. Rigaku Part Number FD-LSR-0250-LC, 605357These Rigaku vacuum rotary feedthroughs are designed for 3/4 to 1 inch bulkhead port connections. They are a ferromagnetic sealed device which uses dynamic sealing to allow free rotation of a solid shaft. These high performance vacuum rotary motion feedthroughs have the following features: Maximum Rotary Speeds Up To 5000 RPM (no-load) Maximum Bearing Load Capacity Of 575 lbs ¼ (0.25) inch Diameter Shaft Designed for 3/4 to 1 inch Bulklhead Connections Maximum Operating Differential Pressure 37 psig (2.5 Atmospheres) Helium Leak Tested To 5x10-09 std cc/sec Transmission Torque 50 1bs-in Ferrofluid Base Hydrocarbon Oil A300S Ferrofluid With Vapor Pressure 1x10-10 Torr Maximum 80 Degrees C Operating Temperature Housing and Shaft Material 17-4 PH SS Fomblin/Krytox Blend Bearing Lubricant, Vapor Pressure 1x10-13 Torr Suitable For Operating To 1x10-08 Torr Rigaku Part Number FD-LSR-0250-LC (605357) The vacuum tight dynamic seal is formed by the ferromagnetic particles suspended in the magnetic fluid (A300S) which interacts directly with the magnetic field generated by the feedthrough’s internal magnets. In these rotary feedthroughs, narrow rings of fluid (shown in figure below) forms a liquid barrier filling the annular spaces (or gaps) between a rotating shaft and the tips of the stationary pole magnetic piece. Since magnetic fluids can be pushed, pulled, and shaped by magnetic field they remain stationary to form a vacuum tight seal. Radially, the fluid rings are bounded by the magnetic pole piece tips. Magnetic flux density at the pole tips is very large. Hence, any axial displacement of a liquid ring away from the pole tip results in a force that resists the displacement. The isolated volumes between adjacent rings are important in the functioning of the device. Several different arrangements of housing, bearings, magnets and fluids are used for the many types of rotary vacuum feedthroughs. Many factors must be considered when selecting a rotary feedthrough for your process. A "Magnetic Fluid Feedthrough Primer" in PDF format is provided here for download that explains the technical functions and applications of magnetic fluid rotary feedthroughs. Topics include: Basic sealing principles of Dynamic Sealing Design of a feedthrough "Superseal" A breakthrough in construction and reliability Application Factors - environmental and mechanical Impact of feedthrough on process Impact of process on feedthrough Materials feedthrough is made of Application examples

Rigaku Superseal Solid Shaft Ferrofluid Ferromagnetic Rotary Motion Feedthrough KF25 to KF25 clamp flange, Rigaku Part Number FD-F1-KF25-250-LC, 605794These Rigaku KF-25 flanged vacuum rotary feedthroughs, are a ferromagnetic sealed device, which uses dynamic sealing to allow free rotation of a solid shaft. These high performance vacuum rotary motion feedthroughs have the following features: Maximum Rotary Speeds Up To 5000 RPM (no-load) Maximum Bearing Load Capacity Of 575 lbs ¼ (0.25) inch Diameter Shaft Includes a KF-25 NW-25 vacuum sealing flange Maximum Operating Differential Pressure 37 psig (2.5 Atmospheres) Helium Leak Tested To 5x10-09 std cc/sec Transmission Torque 50 1bs-in Ferrofluid Base Hydrocarbon Oil A300S Ferrofluid With Vapor Pressure 1x10-10 Torr Maximum 80 Degrees C Operating Temperature Housing and Shaft Material 17-4 PH SS Fomblin/Krytox Blend Bearing Lubricant, Vapor Pressure 1x10-13 Torr Feedthrough Suitable For Operating To 1x10-08 Torr Rigaku Part Number FD-F1-KF25-250-LC (605794) The vacuum tight dynamic seal is formed by the ferromagnetic particles suspended in the magnetic fluid (A300S) which interacts directly with the magnetic field generated by the feedthrough’s internal magnets. In these rotary feedthroughs, narrow rings of fluid (shown in figure below) forms a liquid barrier filling the annular spaces (or gaps) between a rotating shaft and the tips of the stationary pole magnetic piece. Since magnetic fluids can be pushed, pulled, and shaped by magnetic field they remain stationary to form a vacuum tight seal. Radially, the fluid rings are bounded by the magnetic pole piece tips. Magnetic flux density at the pole tips is very large. Hence, any axial displacement of a liquid ring away from the pole tip results in a force that resists the displacement. The isolated volumes between adjacent rings are important in the functioning of the device. Several different arrangements of housing, bearings, magnets and fluids are used for the many types of rotary vacuum feedthroughs. Many factors must be considered when selecting a rotary feedthrough for your process. A "Magnetic Fluid Feedthrough Primer" in PDF format is provided for download below that explains the technical functions and applications of magnetic fluid rotary feedthroughs, which includes: Basic sealing principles of Dynamic Sealing Design of a feedthrough "Superseal" A breakthrough in construction and reliability Application Factors - environmental and mechanical Impact of feedthrough on process Impact of process on feedthrough Materials feedthrough is made of Application examples

Rigaku Superseal Solid Shaft Ferrofluid Ferromagnetic Rotary Motion Feedthrough KF25 to KF25 clamp flange, Rigaku Part Number FD-F1-KF25-250-LC, 605794These Rigaku KF-25 flanged vacuum rotary feedthroughs, are a ferromagnetic sealed device, which uses dynamic sealing to allow free rotation of a solid shaft. These high performance vacuum rotary motion feedthroughs have the following features: Maximum Rotary Speeds Up To 5000 RPM (no-load) Maximum Bearing Load Capacity Of 575 lbs ¼ (0.25) inch Diameter Shaft Includes a KF-25 NW-25 vacuum sealing flange Maximum Operating Differential Pressure 37 psig (2.5 Atmospheres) Helium Leak Tested To 5x10-09 std cc/sec Transmission Torque 160 1bs-in Ferrofluid Base Hydrocarbon Oil A300S Ferrofluid With Vapor Pressure 1x10-10 Torr Maximum 80 Degrees C Operating Temperature Housing and Shaft Material 17-4 PH SS Fomblin/Krytox Blend Bearing Lubricant, Vapor Pressure 1x10-13 Torr Feedthrough Suitable For Operating To 1x10-08 Torr Rigaku Part Number FD-F1-KF25-0375-LC (605787) The vacuum tight dynamic seal is formed by the ferromagnetic particles suspended in the magnetic fluid (A300S) which interacts directly with the magnetic field generated by the feedthrough’s internal magnets. In these rotary feedthroughs, narrow rings of fluid (shown in figure below) forms a liquid barrier filling the annular spaces (or gaps) between a rotating shaft and the tips of the stationary pole magnetic piece. Since magnetic fluids can be pushed, pulled, and shaped by magnetic field they remain stationary to form a vacuum tight seal. Radially, the fluid rings are bounded by the magnetic pole piece tips. Magnetic flux density at the pole tips is very large. Hence, any axial displacement of a liquid ring away from the pole tip results in a force that resists the displacement. The isolated volumes between adjacent rings are important in the functioning of the device. Several different arrangements of housing, bearings, magnets and fluids are used for the many types of rotary vacuum feedthroughs. Many factors must be considered when selecting a rotary feedthrough for your process. A "Magnetic Fluid Feedthrough Primer" in PDF format is provided for download below that explains the technical functions and applications of magnetic fluid rotary feedthroughs, which includes: Basic sealing principles of Dynamic Sealing Design of a feedthrough "Superseal" A breakthrough in construction and reliability Application Factors - environmental and mechanical Impact of feedthrough on process Impact of process on feedthrough Materials feedthrough is made of Application examples

Rigaku Superseal Solid Shaft Ferrofluid Ferromagnetic Rotary Motion Feedthrough KF40 to KF40 clamp flange, Rigaku Part Number FD-KF-0500-LC 1003308These Rigaku KF-40 flanged vacuum rotary feedthroughs, are a ferromagnetic sealed device, which uses dynamic sealing to allow free rotation of a solid shaft. These high performance vacuum rotary motion feedthroughs have the following features: Maximum Rotary Speeds Up To 3900 RPM (no-load) Maximum Bearing Load Capacity Of 575 lbs 1/2 (0.50) inch Diameter Shaft Includes a KF-40 NW-40 vacuum sealing flange Maximum Operating Differential Pressure 37 psig (2.5 Atmospheres) Helium Leak Tested To 5x10-09 std cc/sec Transmission Torque 389 1bs-in Ferrofluid Base Hydrocarbon Oil A300S Ferrofluid With Vapor Pressure 1x10-10 Torr Maximum 80 Degrees C Operating Temperature Housing and Shaft Material 17-4 PH SS Fomblin/Krytox Blend Bearing Lubricant, Vapor Pressure 1x10-13 Torr Feedthrough Suitable For Operating To 1x10-08 Torr Rigaku Part Number FD-KF-0500-LC, 1003308 The vacuum tight dynamic seal is formed by the ferromagnetic particles suspended in the magnetic fluid (A300S) which interacts directly with the magnetic field generated by the feedthrough’s internal magnets. In these rotary feedthroughs, narrow rings of fluid (shown in figure below) forms a liquid barrier filling the annular spaces (or gaps) between a rotating shaft and the tips of the stationary pole magnetic piece. Since magnetic fluids can be pushed, pulled, and shaped by magnetic field they remain stationary to form a vacuum tight seal. Radially, the fluid rings are bounded by the magnetic pole piece tips. Magnetic flux density at the pole tips is very large. Hence, any axial displacement of a liquid ring away from the pole tip results in a force that resists the displacement. The isolated volumes between adjacent rings are important in the functioning of the device. Several different arrangements of housing, bearings, magnets and fluids are used for the many types of rotary vacuum feedthroughs. Many factors must be considered when selecting a rotary feedthrough for your process. A "Magnetic Fluid Feedthrough Primer" in PDF format is provided for download below that explains the technical functions and applications of magnetic fluid rotary feedthroughs, which includes: Basic sealing principles of Dynamic Sealing Design of a feedthrough "Superseal" A breakthrough in construction and reliability Application Factors - environmental and mechanical Impact of feedthrough on process Impact of process on feedthrough Materials feedthrough is made of Application examples

Ferrotec’s Hollow Shaft, 7 Inch Ferro Flange Mount, Ferrofluidic seal, Rotary Feedthrough Ferrotec Model HS-1500-SLFBC, PN:103360 This is a Ferrotec hollow shaft rotary feedthrough with 7 inch diameter Ferro flange. The shaft diameter is 1.5 inches, 0.38 inches flange thickness, overall housing length is 3.0 inches. The starting torque at 100 rpm is 96.9 in-oz, and a running torque at 100 rpm of 57.2 in-oz. The limiting speed is 2320 rpm.The HS-1500-SLFBC vacuum rotary feedthrough uses Ferrotec’s standard hydrocarbon-based ferrofluid, specifically optimized for introducing rotary motion with a magnetic liquid hermetic seal in most Standard environments. The HS-1500-SLFBC vacuum rotary feedthrough features a Hollow shaft with Ferro Flange mounting. Dimensional details are specified below. For precision measurement specifications, refer to the Spec Control Drawing.Ferrotec Model: HS-1500-SLFBC: PN 103360

Ferrotec’s 1.75" Hollow Shaft, Reactive Gas and Water Cooled, 8" Ferro Flange Mount Diameter, Ferrofluidic seal, Rotary Feedthrough, Model HS-1750-CFFCWPThis is a 1.75" water cooled hollow shaft Ferrotec Ferrofluidic seal feedthrough model HS-1750-CFFCWP, Part Number: 107425. It is designed for standard and reactive environments like reactive thin film deposition process chambers. The flange thickness is 0.5", shaft starting torque at 100 rpm is 800 in-oz, and a running torque of 473 in-oz. the limiting speed is 1560 rpm.Full dimensional details are specified below. For precision measurement specifications, refer to the Spec Control Drawing.Ferrotec Model: HS-1750-CFFCWP: PN 107425

Ferrotec’s Solid Shaft, 1" Shaft, Water Cooled, 6 Inch Ferro Flange Mount, Ferrofluidic seal, Rotary Feedthrough, Model SS-1000-SLFAW, PN:121159This is a 1" solid shaft Ferrotec Ferrofluidic seal feedthrough model SS-1000-SLFAW (part number 121159).The SS-1000-SLFAW vacuum rotary feedthrough features a solid shaft with 6" Ferro Flange mounting diameter, flange thickness is 0.53", shaft torque capacity is 1960 in-lb, starting torque at 100 rpm is 29.2 in-oz, and a running torque of 17.3 in-oz.Full dimensional details are specified below. This vacuum seal is also water-cooled for high-temperature applications. The SS-1000-SLFAW vacuum rotary feedthrough uses Ferrotec’s standard hydrocarbon-based ferrofluid, specifically optimized for introducing rotary motion with a magnetic liquid hermetic seal in most Standard environments.For precision measurement specifications, refer to the Spec Control Drawing.Ferrotec Model: SS-1000-SLFAW, PN:121159

Rigaku Superseal Solid Shaft Ferrofluid Ferromagnetic Rotary Motion Feedthrough CF 2.75 in. to CF 2.75 in. flange, Rigaku Part Number FD-CF-0375-LC, 605774These Rigaku conflat CF 2.75 inch flanged vacuum rotary feedthroughs, are a ferromagnetic sealed device, which uses dynamic sealing to allow free rotation of a solid shaft. These high performance vacuum rotary motion feedthroughs have the following features: Maximum Rotary Speeds Up To 5000 RPM (no-load) Maximum Bearing Load Capacity Of 575 lbs 3/8 (0.375) inch Diameter Shaft Includes a Conflat 2.75 Inch High Vacuum Sealing Flange Maximum Operating Differential Pressure 37 psig (2.5 Atmospheres) Helium Leak Tested To 5x10-09 std cc/sec Transmission Torque 160 1bs-in Ferrofluid Base Hydrocarbon Oil A300S Ferrofluid With Vapor Pressure 1x10-10 Torr Maximum 80 Degrees C Operating Temperature Housing and Shaft Material 17-4 PH SS Fomblin/Krytox Blend Bearing Lubricant, Vapor Pressure 1x10-13 Torr Feedthrough Suitable For Operating To 1x10-08 Torr Rigaku Part Number FD-CF-0375-LC (605774) The vacuum tight dynamic seal is formed by the ferromagnetic particles suspended in the magnetic fluid (A300S) which interacts directly with the magnetic field generated by the feedthrough’s internal magnets. In these rotary feedthroughs, narrow rings of fluid (shown in figure below) forms a liquid barrier filling the annular spaces (or gaps) between a rotating shaft and the tips of the stationary pole magnetic piece. Since magnetic fluids can be pushed, pulled, and shaped by magnetic field they remain stationary to form a vacuum tight seal. Radially, the fluid rings are bounded by the magnetic pole piece tips. Magnetic flux density at the pole tips is very large. Hence, any axial displacement of a liquid ring away from the pole tip results in a force that resists the displacement. The isolated volumes between adjacent rings are important in the functioning of the device. Several different arrangements of housing, bearings, magnets and fluids are used for the many types of rotary vacuum feedthroughs. Many factors must be considered when selecting a rotary feedthrough for your process. A "Magnetic Fluid Feedthrough Primer" in PDF format is provided for download below that explains the technical functions and applications of magnetic fluid rotary feedthroughs, which includes: Basic sealing principles of Dynamic Sealing Design of a feedthrough "Superseal" A breakthrough in construction and reliability Application Factors - environmental and mechanical Impact of feedthrough on process Impact of process on feedthrough Materials feedthrough is made of Application examples

Ferrotec’s Solid Shaft, 0.25" Shaft Diameter, Nut-Mounted with Face Seal O-ring, 1" Threaded Body Rotary Feedthrough, Ferrofluidic seal, 1.13" Thread Length, Model SS-250-SLBE,PN:107519This is a 0.25" solid shaft Ferrotec Ferrofluidic seal feedthrough model Model SS-250-SLBE,PN:107519. The SS-250-SLBE vacuum rotary feedthrough features a solid shaft with 1.62" nut-mounted flange diameter, 1" threaded body that is 1.13" thread length. The flange thickness is 0.25", the recommended mounting bore is 1.025". It has a shaft torque capacity of 15.5 in-lb, starting torque at 100 rpm is 0.19 in-oz, and a running torque of 0.11in-oz.Full dimensional details are specified below. This vacuum seal is also water-cooled for high-temperature applications. The SS-250-SLBE vacuum rotary feedthrough uses Ferrotec’s standard hydrocarbon-based ferrofluid, specifically optimized for introducing rotary motion with a magnetic liquid hermetic seal in most Standard environments.For precision measurement specifications, refer to the Spec Control Drawing.Ferrotec Model: SS-250-SLBE,PN:107519