From EduTechWiki - Reading time: 8 min

The Felix TEC4.1 is a 3D printer made by FELIXprinters and that started shipping in 2018. It features semi-automatec calibration of the print bed, an optional dual head, etc. and strong, reliable steel extruders. This article shortly describes some of my experience and (if I find some time in the future) some tips. Since 3D printing is now main stream we will refrain from explaining basic use.
This model is an evolution of the Felix 1.0 3D printer we bought in 2010, the Felix 2.0 3D printer we got in 2013 and the Felix 3.0 we did not buy. Make magazine rated the older 3.1 model in fourth position in 2018. The TEC 4 is better. This makes it probably the best (non back breaking) easily portable 3D printer. Since it also is reliable (I did 15h prints on the Felix 2.0) and since it is a fairly simple (inspectable) design, I recommend this model line for teachers who will have to carry the printer from one spot to another and yet care for quality printing.
- Daniel K. Schneider 26 nov 2018
See also:
Further information from the manufacturer:
Notice: Removing the nozzle can kill the hot end. You must (1) do this while the barrel is still hot enough (> 60 degs for PLA) and (2) take a grip on the barrel and not the hotend (!) while you turn the nozzle. Same for the barrel. Do remove the barrel while the hotend is hot. Otherwise you risk turning the little tube that connects the hotend to the barrel. Personnally, I rather buy a new hotend than trying to remove anything.
The box arrived in good shape and unboxing is easy and fast. It was ordered on Tuesday Nov 20 and arrived in my office on Monday morning, Nov 26, 2018.
I takes about 15 minutes to unpack and assemble the printer.
Download Repetierhost as distributed by Felix. The installation also will propose to install a serial driver.
However, I prefer using the commercial Simplify3D program, for which you also could download profiles at FelixPrinters. The problem with the built-in Cura slicer (or at least the version that is there) that one cannot built correct Lego walls. In order to a lego (or similar) structure right, one must provide wrong dimensions. Otherwise the Repetierhost/Cura combo works great.
The printer is shipped with a 23 pages quick start guide. It includes
Calibrating means two things: (1) All spots of the build plate have to have the same distance to the print head (i.e. it must be strictly orthogonal with respect to the X/Y movements). (2) The print bed should be a the right distance from the nozzle, i.e. the thickness of a business card or 2 sheets of paper. The first is done by semi-automatic hardware calibration, the second by software, i.e. in the printer's parameters. The printer might have just worked out of the box but I did not try that...
(1) Platform leveling
(2) Z-Probe calibrating
Calibrating the Z-Probe, i.e. adjusting the right z height is done via software (i.e. the printer will remember). Here are my slightly modified tips, since the instructions are a little less clear.
In addition, you can adjust Z-distance of the first layer in the script section of your slicer, e.g. I often add at the end of the code something like a 20th of a mm (0.05mm), do not insert the leading "0" !
G1 Z-.05 F3000
There was no failed print nor any trial with the Felix logo that ships with RepetierHost. I used Repetierhost 2.05 for FELIXprinters, freshly downloaded after uninstalling an old version.
For the third print I printed a large variant of our customizable Custom laptop cooler stand, i.e. a 250 X 60mm version which I had to place diagonally on the print bed. Soft PLA is definitely not the best flexible filament, but it's cheap and the print came out fine enough.
Summary of three first prints: like the Pro 1, the FELIX TEC4.1 seems to be able to cope fine with a variety of non-warping plastics. A heated print bed with a Kapton sheet remains one of the best solutions in our opinion since Kapton bonds well with PLA, PETG and soft PLA. It also works well with ABS pieces designed for printing in the open, e.g. smaller objects and/or with holes that reduce tension. Since the print sheet can be easily removed and be bent, it also makes it easier to remove sticky prints.
Unboxing, readying, and calibrating was easy and the first prints went well. I really do like the new flexible platform. It can be removed and put back easily.
I probably will like this printer better than the Felix Pro 1 3D printer since it seems to be more robust. The Pro1 does have a sensitive Z sensor that can require hardware calibration work once it experienced stress (see next item). Since semi-automated calibration is easy I don't need fully automatic calibration, although it is a nice feature.
Since I first wrote this review a did print many other objects, e.g. marble runs, terrain models, embedded rings. Compared to the Pro2, the print quality seems to be slightly less good with respect to smoothness and evenness of the walls. Print aborts still can happen, they do on any printer I have met. I suggest adding skirts or use glue for objects that have small foot prints (e.g. a set of Lego compatibles). Creating fatter and squashed first layer also helps a lot in these cases. In any case, I would recommend the Tec4 model for education, since it is cheaper and very easy to carry.
The default slicer settings defined in the Felix Repetierhost distribution can be trusted for typical prints as far as we can tell. That being said, adjustments have to made for some types of objects and more importantly, for other filament types and makes. Below, we will write down some parameters used for some more difficult objects.
This filament is based on Ingeo 3D850 (PDF) from Natureworks and features faster crystallization rates and improved heat resistance.
Print temperature = 205 (or less). According to the manual printing with 210 degs can be risky. Quote (p.14) "The top part of the hot-end will become near the critical 60°C where the filament becomes too soft, too soon and causing a clog."
Base print speed = 60mm/s
Cheap no-name "best value" PLA, prints very well between 195 and 200 degrees.
PETG is a combination of PET (polyethylene terephthalate) aka polyester and different concentrations of glycol (G). PETG is a strong filament similar to ABS in strength, but it prints more like PLA.
Print temperature = 220
First layer speed = 20
Bought from Printerstore (49.50 CH / kg ~ 45 Euros ). Compared to NinjaFlex this is rather cheap.
The following settings were use for a large, 25cm x 6cm Custom laptop cooler stand.
Tips: