![]() ![]() Trianglelab Matrix Extruder vs BIQU BX H2 Extruderīecause I also had the BIQU BX H2 extruder at hand, I thought it would be a good idea to take some comparison shots. While it does its job removing the little heat you get through the bi-metal heat break, the airflow could be a bit better.īut if you compare it with the terrible stock heatsink present on the Artillery extruder, this can be looked at as a big improvement.įor extreme users, there’s also a Trianglelab Matrix LC Extruder Water Cooling Heatblock which is made for enclosed printers and high-temp filament. Heatsink design could be betterĪnother small drawback for the Matrix Extruder is the heatsink design. In my testing, the extruder performed well on regular speeds, but you might get skipped steps if your jerk and acceleration values are too high. This might be an issue if you plan to print faster than ~60 mm/s because the added weight will increase ringing and print quality will get worse as you increase speed. Compared to the BMG Wind, which weighs around 320 grams fully equipped, the Matrix Extruder is heavy even for a direct-drive extruder. The weight of the fully equipped extruder (extruder including mouns, fans and duct) can reach close to 500 grams. The Trianglelab Matrix Extruder is heavier than most extruders currently available on the market. Drawbacks of the Trianglelab Matrix Extruder Heavier than most extruders currently availableĪll these features come at a cost which is weight. ![]() Heat will be conducted better from the heater cartridge to the filament so you should get a bit more flow rate from this compared to a titanium heat break. ![]() The threaded part which screws into the heatblock is made from copper which will improve the melt zone. It’s important to note that the stainless tube is held in place by a machined bracket so the contact with the heatsink is better, and there won’t be any damage made to the tube. This will ensure maximum performance with flexible filaments ensuring a constrained path from the gears to the nozzle. It has a long metal tube which goes right up to the extruder gears. One of the attractive features of the Trianglelab Matrix Extruder is the use of a bi-metal heat break. And if you also use the stock V6 heatblock, then it’s possible to use the same designs made for the Hemera. This means that you can print any mount made for the Hemera and fit your Matrix without any modifications. The compatibility with the mounts and designs made for the Trianglelab Matrix is another attractive feature of the Trianglelab Matrix Extruder. What does this mean?īetter retractions, more accurate extrusions, and improved performance with linear advance (if you use this feature).įor example, I lowered my 0.13 linear advance value used with the stock Artillery extruder to 0.05 with the Trianglelab Matrix. This is especially important for flexible filaments because it allows for better control of the filament. It’s only about 28mm from when the filament is leaving the gears and reaches the nozzle. ![]() Short filament pathĪnother attractive feature of the Trianglelab Matrix Extruder is the short filament path. This makes a bit more compact and also gives you access to a few mounting solutions. The Trianglelab Matrix Extrude is contained in a single unit which has the extruder and also the stepper motor. Benefits of using the Trianglelab Matrix Extruder All-in-One Design As you might know, the BMG Wind uses the same type of dual-gear setup which works just as good, but the Matrix has them closer to the nozzle. I took some close-up shots of the gears where you can see this.īecause the Trianglelab Matrix uses a dual-gear setup, the hobbed gears will have excellent grip to the filament allowing for accurate control. It uses a similar customized NEMA17 1.8 stepper motor, and the size is the same.Īs you would expect from Trianglelab, the machining of the gears is really well made.
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