That’s a great list. I wasn’t sure the difference between “enthusiast” and “plug-n-play”. Those categories don’t put similar printers head to head. Comparing them by print technology and price point or having sortable columns for specifications (min layer, min feature size, speed, cost, materials, material strength, material toughness, build area, build volume, heated bed, noise level, enclosed or not, bowden or direct, filament dia, open source or not, proprietary or open materials, cost per kg for proprietary materials, tolerance analysis of printed parts, ease of support removal, single or dual head, auto or manual z-offset, auto or manual bed leveling, lighted build volume, etc…) may be helpful. That way people could pick the technology they want then scroll to the price range and compare there.
Something no one ever seems to include in printer comparisons is the costs per print. For instance, the CubeX printers use proprietary filament that costs about $150/kg. That’s about a 500% markup that dwarfs the cost of the printer in a pretty short amount of time if you print very much. The Form1 materials start at $150 per liter plus about $100/liter of build tray use (I usually can count on 0.5L per $65 tray). That’s around $250/L which is about $250/kg. Open source printer filament is around $30/kg. Zortrax filament is about $40/kg with no other consumables. I print around 20kg/year at home. We go through around 50 kg/yr at work. Here’s the material cost breakdown for $50 kg/year (eye opening)…
CubeX - $7,500 per year
Form1 - $12,500 per year
Open source - $1500 per year
Zortrax - $2000 per year
If you factor in print fail rates the numbers change a lot…
CubeX - 50%, $15,000 per year
Form1 - 20%, $15,000 per year
Open source - 15%, $1,725 per year
Zortrax - 3%, $2,060 per year
Throw in labor costs and the Zortrax ends up being the cheapest by far.
Also, showing apples to apples print photos for various types of prints from each printer would be great.
I’m not sure how to quantify why everyone at work who uses a Zortrax doesn’t care to use the other printers unless they have to. I think it has a lot to do with the very high print success rate as well as not having to fool with print settings to “dial in” prints. You pretty much just slice and go. That would be difficult to characterize in a printer comparison without using all of the printers for several weeks on a regular basis. The Zortrax gives a better print quality for most parts than the other FDM machines also.
There’s still a lot of room for improvement for the Zortrax where it may get edged out for some that need one of the following…
-quieter
-faster
-Dual head, dissolvable supports
-Larger build volume
-Lower warp for large, straight walled prints
-Ability to use more types of filaments than Zortrax offers
-Lower price point
IMO, I believe Zortrax has pin-pointed the most important factors for most users… no experience required ease of use, super high reliability, high accuracy, very good surface finish, ABS plastic which has much better heat and UV tolerance than PLA.
