Filament,PLA/ABS/PCL,Refills,3D,/drabbletailed258509.html,Filament,Pen,1.75,3D,zofcreativos.com,Pen,$2,Computer & Office , Office Electronics , 3D Printing & 3D Scanning , 3D Pens,Printer favorite 3D Pen Filament Printer Refills PLA PCL 1.75 ABS $2 3D Pen Filament 3D Pen Printer Filament Refills PLA/ABS/PCL 1.75 Computer & Office Office Electronics 3D Printing & 3D Scanning 3D Pens $2 3D Pen Filament 3D Pen Printer Filament Refills PLA/ABS/PCL 1.75 Computer & Office Office Electronics 3D Printing & 3D Scanning 3D Pens Filament,PLA/ABS/PCL,Refills,3D,/drabbletailed258509.html,Filament,Pen,1.75,3D,zofcreativos.com,Pen,$2,Computer & Office , Office Electronics , 3D Printing & 3D Scanning , 3D Pens,Printer favorite 3D Pen Filament Printer Refills PLA PCL 1.75 ABS
3D Pen Filament 3D Pen Printer Filament Refills PLA/ABS/PCL 1.75mm 3D Printing Pen Filament
PLA nozzle temperature of 190-230 ℃, the floor temperature of 60 degrees. Biological materials, corn grain extract, biodegradable, environmentally friendly. Hard, high strength and high rigidity. Surface bright, do not curl when printing, not Alice, no plug.
3, ABS nozzle temperature is 230-250 ℃, bottom plate temperature 90-100 ℃. Its density is small, good elasticity, good toughness. Better than PLA. Good electroplating. Not easy to absorb moisture, open the room after opening, a year can be used normally!
4, our modified supplies (PLA and ABS) can be easy to shape, print products without burrs, color vivid, the whole process of printing no smell.
5, the product specifications are φ1.75mm and φ3mm, precision control in the positive and negative 0.03mm. Production process using diameter measuring instruments and PLC control product diameter and roundness.
6, after the completion of the product after the oven drying vacuum packaging, isolated dust and moisture
The difference between PLA and ABS supplies:
When printing PLA, the smell of marshmallow smell (this smell sensitive to the careful purchase), unlike ABS as the bad smell of the nose. PLA can print a large part model without a heating bed and the corners do not tilt. PLA has a low shrinkage rate, even when printing larger size models. PLA has a lower melt strength. The print model is easier to shape, has excellent surface gloss, and is bright.
PCL is a less common 3D printed material whose unique properties limit its range of applications and allow it to be used for very specific purposes.
This plastic has some excellent properties that are well suited for 3D printing, such as layer adhesion, which reduces delamination caused by stress along the layer boundaries. In addition, it has excellent impact strength and durability. However, PCL also has a melting temperature of only 60 degrees Celsius, which is much lower than the commonly used 3D printing materials such as PLA and ABS, both of which have melting temperatures above 200 degrees Celsius. This means that most FDM-based 3D printers can easily print PCL with low hot end temperatures.
It is conceivable that this melting temperature is a combination of advantages and disadvantages: if you want to use 3D printed PCL parts in any environment close to 60 ° C, then be careful because they will soften and may fail. You won't want to use this to print a GPS cradle for your car dashboard.
On the other hand, this property may be useful in other situations. For example, you can immerse a PCL piece in a bucket of water slightly below 60 ° C to soften it. It can then be reshaped to match where it was previously unsuitable.
There is a similar example, such as 3D printing a rivet that just passes through the hole. With a little heat, you can reshape one end of the rivet so you can permanently fix it in one place. Another example is that if a plug-in lid is a bit unsuitable, it can be corrected by slightly softening it.
In addition, this material is also very suitable for 3D printers for children. It is well known that ordinary 3D printers with high temperatures above 200 degrees Celsius are very unsafe for children. If you can reduce the print temperature to 60 degrees Celsius, it is clear that this problem is solved. And PCL is biodegradable, biocompatible and non-toxic, so if you are considering developing a 3D printer for children, PCL is a very suitable material option.
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