
Ruthex M2 / M3 / M4 / M5 Threaded Insert Assortment Box (270 pcs)
M2 + M3 + M4 + M5 threaded inserts for your 3D printer parts. The Ruthex threaded nuts can be subsequently inserted into parts of 3D printers from e.g. Anycubic, Creality or Prusa using heat or ultrasound. With the help of heat from a soldering iron or ultrasound, the press-in nuts are simply embedded in a blind or through hole.
Threaded Insert Assortment Box
M2 + M3 + M4 + M5 threaded inserts for your 3D printer parts. The Ruthex threaded nuts can be subsequently inserted into parts of 3D printers from e.g. Anycubic, Creality or Prusa using heat or ultrasound. With the help of heat from a soldering iron or ultrasound, the press-in nuts are simply embedded in a blind or through hole.
Firm grip with easy use
Thanks to the geometry of the threaded bush, it sits firmly in the printed part. The opposing helical knurled nuts ensure a balanced high tightening and loosening torque as well as a high tightening force. The guide has made insertion much easier.
Stable and durable screw threads
The inserts with internal threads are made of the highest quality brass, which ensures optimal corrosion resistance and thermal conductivity. This means that each press-in nut can be used for a long time and is easy to use. It is also possible to reuse the screw threads by carefully removing them from the printed part when they are no longer needed.
Suitable for different types of plastic
The inserts are designed for all types of thermoplastics. The knurled nuts hold, for example, in PLA, PETG, ABS, PPS, PP and many more. As soon as the plastic on the workpiece around the brass bushing cools down and hardens again, the internally threaded bushing is firmly anchored.
Practical threaded insert kit
The Ruthex threaded insert box consists of 70 pcs. RX-M2x4 + 100 pcs. RX-M3x5.7 + 50 pcs. RX-M4x8.1 + 50 pcs. RX-M5x9.5 pressed-in nuts with M2, M3, M4 and M5 internal threads. The threaded inserts are supplied in a practical assortment box. The threaded bushes can be inserted using ultrasound and heat embedding.