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‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
‘NST’ Desktop plasma sputtering coater with rotary sample stage NST-PSC180R
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
Analogue Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Pirani Gauge – Double Sensor – NST-D-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Digital Pirani Gauge – Single Sensor – NST-D-1GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Analogue Pirani Gauge – Double Sensor – NST-A-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
KF-40 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-25 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-16 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-10 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
‘NST’ Desktop plasma sputtering coater with rotary sample stage NST-PSC180R
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
1000W 10L Plasma Pleaner NST-P10L-1000W
10L plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned.
1000W 2L plasma cleaner NST-P2L-1000W
The plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned.
1000W 5L Plasma Cleaner NST-P5L-1000W
5L plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned
100W/150W 10L Plasma Cleaner NST-P10L-100W
10L plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned
100W/150W 2L plasma cleaner NST-P2L-100/150W
Plasma cleaning machine divided into two types, atmospheric and vacuum; it is widely used in semi-conductor, PCB, medical diagnosis, elastomer industry, optical industry,etc.
NST generator has 40KHz, 13.56Mhz, and 2.45GHz. According to the usage, can choose the suitable NST.
100W/150W 5L plasma cleaner NST-P5L-100W
100W/150W 5L plasma cleaner NST-P5L-100W
5L plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned.
12″ Precision Auto Lapping/ Polishing Machine for Preparing Metallographic Samples NST-GP-1202
12″ Precision Auto Lapping/ Polishing Machine for Preparing Metallographic Samples NST-GP-1202
This machine is equipped with 12″ super flat lapping plate and can be used as a high precision lapping machine for polishing crystal components, semiconductor wafers, and ceramic substrates up to 4″ in diameter. It can be used as a standard grinding and polishing machine for preparing metallographic samples as well.
300W / 500W 10L Oxygen Plasma Cleaner NST-P10L-300W/500W
10L plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned
300W/500W 2L plasma cleaning machine NST-P2L-500W
Plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned.
300W/500W 5L Oxygen Plasma Cleaner NST-P5L-300W
5L plasma cleaner is a compact, non-destructive cleaning device. The plasma cleaner uses low air pressure to excite plasma as a cleaning medium, thereby effectively avoiding secondary pollution caused by the liquid cleaning medium to the object to be cleaned
Anti-Corrosion Spin Coater ( 8000 RPM & 6″ Wafer Max.) With Complete Accessories
Anti-Corrosion Spin Coater ( 8000 RPM & 6″ Wafer Max.) With Complete Accessories
Automatic Electrode Coater With 8″W X 13″L Vacuum Chuck & 180mm Doctor Blade
Automatic Electrode Coater With 8″W X 13″L Vacuum Chuck & 180mm Doctor Blade
Automatic Powder Lithium Ion Battery Coating Machine
Automatic Powder Lithium Ion Battery Coating Machine
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
‘NST’ Desktop plasma sputtering coater with rotary sample stage NST-PSC180R
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
Analogue Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Pirani Gauge – Double Sensor – NST-D-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Digital Pirani Gauge – Single Sensor – NST-D-1GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Analogue Pirani Gauge – Double Sensor – NST-A-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
KF-40 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-25 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-16 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-10 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
Bestellers
-
Plasma sputtering coater
‘NST’ Desktop plasma sputtering coater with rotary sample stage NST-PSC180R
₹475,000.00 – ₹1,875,000.00
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Planetary Ball Mills
‘NST’ 220V Bench-top 2L Vertical Lab Planetary Ball Mill Machine
₹550,000.00₹750,000.00
Laptops & Computers
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
‘NST’ Desktop plasma sputtering coater with rotary sample stage NST-PSC180R
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
Analogue Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Pirani Gauge – Double Sensor – NST-D-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Digital Pirani Gauge – Single Sensor – NST-D-1GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Analogue Pirani Gauge – Double Sensor – NST-A-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
KF-40 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-25 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-16 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
KF-10 BLANK FLANGE
KF VACUUM FITTINGS AND FLANGES
KF vacuum fittings and flanges consist of two flanges coupled together by a centering ring with a O-ring and a clamp. With this kind of connection provides many advantages, such as easy and quick mounting, assembly without any tools, unlimited orientation and easy interchangeability.
The standard sizes for KF vacuum fittings and flanges are KF-10, KF-16, KF-25, KF-40, and KF-50 with flange sizes NW-10, NW-16, NW-25, NW-40, and NW-50.
KF vacuum fittings and flanges are includes KF clamp, KF claw clamp, KF centering ring, KF o-ring, KF blank flange, KF bored weld flange, KF socket weld flange, KF half nipple, KF full nipple, KF reducing conical, KF elbows, KF tees, KF 4-way crosses, KF reducing tees, KF reducing 4-way crosses, KF flange to hose nozzle and so on.
Smartphones
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
‘NST’ Desktop plasma sputtering coater with rotary sample stage NST-PSC180R
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
Analogue Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Penning Gauge
Penning gauge is a cold cathode Ionisation gauge consisting of two electrodes anode and cathode in side sensor. A potential difference of about 2.2 KV is applied between anode and cathode through current limiting resistors. A magnetic field is introduced at right angles to the plane of the electrodes by a permanent magnet which will increase the ionisation current. The electrons emitted from the cathode (gauge head body) of the gauge head are deflected by means of magnetic field applied at right angles to the plane of the electrodes and are made to take helical path before reaching the anode loop. Thus following very long path, the chance of collision with gas molecule is high even at low pressures. The secondary electrons produced by ionisation themselves perform similar oscillations and the rate of ionisation increases rapidly. Eventually, the electrons are captured by the anode and equilibrium is reached when the number of electrons produced per second by ionisation is the sum of positive ion current to the cathode and the electron current to the anode and is used to measure the pressure of the gas. This instrument with the sensor having wider range of applications, in high vacuum systems where the final Vacuum to be measured in process chamber.
Digital Pirani Gauge – Double Sensor – NST-D-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Digital Pirani Gauge – Single Sensor – NST-D-1GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
Analogue Pirani Gauge – Double Sensor – NST-A-2GH
The Vacuum Pirani Gauge Controller displays vacuum pressure as measured from a sensor tube. It displays vacuum measurements based on thermal conductivity of air or nitrogen. The Model DHPG controller covers the range from 0.001bar to 1000 mbar, and controls relay with independent set point.
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‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
‘NST’ Desktop Plasma Sputtering Coater with Rotary Sample Stage Model: NST-PSC-180M (Manual)
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.
‘NST’ Desktop plasma sputtering coater with rotary sample stage NST-PSC180R
This type of small plasma sputtering coating machine adopts two-stage sputtering method, which is widely used for SEM sample preparation or metal coating experiment. Using low-temperature plasma sputtering process, there is no high temperature during the coating process, and it is not easy to produce thermal damage.