Categories
Latest Products
This kit has a piece of Superplate glass, aluminum substrate heatbed, NTC 3950 thermistor and wiring to hook it up. The aluminum substrate heatbed is 3mm thick and works as heat producer and heat spreader. The NTC-MF52AT thermistor is of high accuracy and reliable wiring insulation.
We choose silicon carbide glass with microporous coating as the building platform for 3D printer, without the need of attaching the masking tape. The silicon carbide glass is of chemical stability, high heat conductivity coefficient and good wear-resistance and can withstand extreme temperature. The special coating is inorganic and has a hardness of 8 Mohs, hence of high durability.
Compared with common building platform, this kind of tempered glass is of better adhesion and flatness and easy to take prints off. Besides, it is easy to clean with water or alcohol.
Please note:
The heatbed in this kit is soldered for 12V power as default. The pads 2 and 3 are connect soldering together to "-", and pad 1 is soldering to "+" to get correct resistance.
For 24V power, you need to solder by yourself. Solder pads 2 and 3 to "+" and "-" respectively to get correct resistance.
Please refer to the silk-screen on the heatbed.
If you have any doubt, please contact us to check it for you before powering it up.
Specification
Features:
Superplate with aluminum substrate heatbed: flat, heating fast and evenly.
NTC-MF52AT thermistor is of high accuracy at 1% and good insulation.
Excellent adhesion: Superplate is coated with micropores, having strong adhesion during printing.
High-performance: The silicon carbide glass is of chemical stability, high heat conductivity coefficient and good wear-resistance and can withstand extreme temperature.
Reliability: The special coating is inorganic, with its hardness of 8 Mohs and heat resistance up to 400 ¡æ.
Easy to clean with water or alcohol.
Easy to remove your print by hand without the help of scraper.
Specs:
Superplate Glass
Size: 220*220mm*4mm
Aluminum Heatbed
Size:220*220mm
Material: Aluminum 1.5 mm thick
Voltage: 12V or 24V
Resistance for 12V: 1 Ohm
Resistance for 24V: 4 Ohm
NTC-MF52AT Thermistor
High accuracy: 1%
Resistance value at R25¡æ = 80K¦Ø
Wiring insulation: Silica gel, high temperature resistant
Wiring length: 100mm
Net weight: 675g
Gross weight: 800g
This kit has a piece of Superplate glass, aluminum substrate heatbed, NTC 3950 thermistor and wiring to hook it up. The aluminum substrate heatbed is 3mm thick and works as heat producer and heat spreader. The NTC-MF52AT thermistor is of high accuracy and reliable wiring insulation.
We choose silicon carbide glass with microporous coating as the building platform for 3D printer, without the need of attaching the masking tape. The silicon carbide glass is of chemical stability, high heat conductivity coefficient and good wear-resistance and can withstand extreme temperature. The special coating is inorganic and has a hardness of 8 Mohs, hence of high durability.
Compared with common building platform, this kind of tempered glass is of better adhesion and flatness and easy to take prints off. Besides, it is easy to clean with water or alcohol.
Please note:
The heatbed in this kit is soldered for 12V power as default. The pads 2 and 3 are connect soldering together to "-", and pad 1 is soldering to "+" to get correct resistance.
For 24V power, you need to solder by yourself. Solder pads 2 and 3 to "+" and "-" respectively to get correct resistance.
Please refer to the silk-screen on the heatbed.
If you have any doubt, please contact us to check it for you before powering it up.
Specification
Features:
Superplate with aluminum substrate heatbed: flat, heating fast and evenly.
NTC-MF52AT thermistor is of high accuracy at 1% and good insulation.
Excellent adhesion: Superplate is coated with micropores, having strong adhesion during printing.
High-performance: The silicon carbide glass is of chemical stability, high heat conductivity coefficient and good wear-resistance and can withstand extreme temperature.
Reliability: The special coating is inorganic, with its hardness of 8 Mohs and heat resistance up to 400 ¡æ.
Easy to clean with water or alcohol.
Easy to remove your print by hand without the help of scraper.
Specs:
Superplate Glass
Size: 220*220mm*4mm
Aluminum Heatbed
Size:220*220mm
Material: Aluminum 1.5 mm thick
Voltage: 12V or 24V
Resistance for 12V: 1 Ohm
Resistance for 24V: 4 Ohm
NTC-MF52AT Thermistor
High accuracy: 1%
Resistance value at R25¡æ = 80K¦Ø
Wiring insulation: Silica gel, high temperature resistant
Wiring length: 100mm
Net weight: 675g
Gross weight: 800g
RETURNS POLICY
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Morbi ut blandit risus. Donec mollis nec tellus et rutrum. Orci varius natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus. Ut consequat quam a purus faucibus scelerisque. Mauris ac dui ante. Pellentesque congue porttitor tempus. Donec sodales dapibus urna sed dictum. Duis congue posuere libero, a aliquam est porta quis.
Donec ullamcorper magna enim, vitae fermentum turpis elementum quis. Interdum et malesuada fames ac ante ipsum primis in faucibus.
Curabitur vel sem mi. Proin in lobortis ipsum. Aliquam rutrum tempor ex ac rutrum. Maecenas nunc nulla, placerat at eleifend in, viverra etos sem. Nam sagittis lacus metus, dignissim blandit magna euismod eget. Suspendisse a nisl lacus. Phasellus eget augue tincidunt, sollicitudin lectus sed, convallis desto. Pellentesque vitae dui lacinia, venenatis erat sit amet, fringilla felis. Nullam maximus nisi nec mi facilisis.
SHIPPING
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Morbi ut blandit risus. Donec mollis nec tellus et rutrum. Orci varius natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus. Ut consequat quam a purus faucibus scelerisque. Mauris ac dui ante. Pellentesque congue porttitor tempus. Donec sodales dapibus urna sed dictum. Duis congue posuere libero, a aliquam est porta quis.
Donec ullamcorper magna enim, vitae fermentum turpis elementum quis. Interdum et malesuada fames ac ante ipsum primis in faucibus.
Curabitur vel sem mi. Proin in lobortis ipsum. Aliquam rutrum tempor ex ac rutrum. Maecenas nunc nulla, placerat at eleifend in, viverra etos sem. Nam sagittis lacus metus, dignissim blandit magna euismod eget. Suspendisse a nisl lacus. Phasellus eget augue tincidunt, sollicitudin lectus sed, convallis desto. Pellentesque vitae dui lacinia, venenatis erat sit amet, fringilla felis. Nullam maximus nisi nec mi facilisis.
