Category: Tevo

Tevo is a 3D printing company, known for their Tarantula 3D Printer. Besides Tevo Tarantula, which is i3 Prusa style affordable printer they have two more mid-range printers in store: Tevo Black Widow and Tevo Delta (aka Little Monster).

In this article, I would like to compare these 3D printers side by side. There hasn’t been much information on the web while I was researching Tevo brand, so I decided to make a comparison and features table. Even though these two printers do not look like each other at all, it is essential to emphasize the differences between them, as each of those can be used differently.

The goal of this article is to show you the differences and help you decide which Tevo printer is right for your needs.

Tevo Printers Specification

Specification table below depicts a major feature, technology and design difference between Tarantula, Black Widow and Little Monster (Delta).

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Tevo Tarantula 3D Printer Kit

Tevo Tarantula Overview

Aimed at the entry-level customers, this RepRap Prusa i3 style printer certainly has its advantages over some other i3 clones. Made of aluminum, with a Bowden type extruder and a 200X 200 X 200mm printing area, Tevo Tarantula certainly sounds promising for those which do not wish to break their bank.

Besides optional heat-bed upgrade, Tevo offers two more features: extruder and auto-leveling sensor upgrade.

What makes Tarantula stand out from the crowd is that you do not have to ponder over which part is the best, what improvements to add, and how to enhance printer’s performance. The manufacturer did this for you. Of course, both of those improvements will increase the final cost of the printer.

Tevo Tarantula Firmware

Tarantula’s Repetier firmware is available for download from the official website of Tevo. If you wish to use the Marlin firmware, you may acquire it from other online sources. Make sure that you’re downloading the firmware that is specifically configured for this printer.

Assembly

For the Tevo Tarantula assembly process, you may refer directly to the Tevo Tarantula instructions manual provided by the manufacturer. You can also check other online sources where experienced users provide a detailed guide and some useful tips on how to assemble your printer kit correctly.

How to Calibrate the Tevo Tarantula?

Calibrating your 3D printer is easy. You just need to locate the thumb nuts on the print bed of the 3D printer. Then, lower or raise the corners of the print bed just enough to allow you to slice a thin sheet of paper right below the nozzle of the printer.

Tevo Tarantula Parts

Some of the parts you can purchase for your Tevo Tarantula mods and upgrades are as follows:

• Heated Bed – for a large, heated bed upgrade
• TEVO Volcano hotend – for 1.75mm Direct Filament 0.4mm Nozzle
• Dual Z-Axis Upgrade Kit
• MKS MOSFET – for the heated bed
• Print Fan – ideal for a temperature-sensitive filament
• Mega Anti-Tangle Spool Holder – to prevent tangles from the printer filament

Tevo Tarantula Upgrades

If you wish to make your Tarantula a little more than just another “newbie 3D Printing kit”, the manufacturer offers some options. Tevo offers expandable build option for the Tarantula. You can upgrade your heat-bed and increase printing size to 200 x 280 x 200 mm.

If standard single-color Bowden extruder is not the best for you, you can upgrade it with the following options :

• Pro Metal – this extruder allows you to print flexible filaments
• Dual Extruder – this type of extruder allows you to print with two filaments at the same time, multicolor.

Besides the extruder upgrade and heat bed expansion, there’s also an optional auto-leveling sensor upgrade which involves installing an auto-leveling probe.

With the total weight of approximately 7.8kg, Tarantula is the most lightweight of the trio.

Aimed primarily at lower-budget customers, it is interesting that, according to the specs, its printing speed can reach up to 150mm/s, which is faster than its expensive relative – Tevo Black Widow.

Tevo Black Widow

The mid-range 3D printer from Tevo is called Black Widow. Its printing volume is 370 X 250 X 300mm and it weighs ~13kg. This printer is literally midst among everything between the lower-end Tarantula and higher-end Delta. One feature which I am still unable to confirm is that it has only a slower printing speed 100mm/s compared to its little brother – Tarantula.

It’s not as customizable out of the box as the Tarantula, but it has an auto-level sensor optional upgrade. Compared to Tarantula which utilizes wheels on all axes of the aluminum frame to move, the Widow uses the rod for the Z axis.

Tevo Delta – Little Monster

With the printing area of 340 x 500mm and dimensions of 600 X 600 X 1200mm it is not a surprise why this 38kg Delta machine is called Little Monster. The most robust of all three (both by design, weight, and features), Delta has the highest price tag.

Little monster pretty much dominates in all fields. It can reach up to 300mm/s printing speed, which is nearly twice as fast as the other two. One more major advantage of the Tevo Delta is that it arrives pretty much assembled. According to the manufacturer, 80% of the printer inside the box is assembled, you just have to connect a few parts and you are ready to print.

With features and the price like this, Delta is probably neither a toy nor a beginner’s 3D printer.

Final Review: Tevo Tarantula vs. Black Widow vs. Little Monster (Delta) – which one is the best?

I hope that so far you managed to determine which printer best suits your needs. But if you are still undecided, here is my two cents. If you are a newbie on a budget and you wish to get a Tevo printer, you should probably go for the cheapest i3 style printer – the Tarantula Printer Kit. Tarantula DIY Kit offers more than enough customization options to suit almost any beginner’s need. Another good choice for beginners outside of Tevo is the Monoprice Maker Select or Monoprice Select Mini.

On the other hand, if you want a bit more stable of a printer with larger printing volume above all, but you don’t have a fortune to spend, Black Widow is a logical solution.

Finally, if you are an advanced user who needs tough, stable 3D printer with enormous printing volume and speed, Tevo Delta Little Monster is probably your best choice.

Question for you

Do you have any of these printers? What is your experience with it? Feel free to leave a comment and help us spread the knowledge. We’re waiting to hear back from you.

Oh, and if you found any mistakes or you’re aware of more differences than provided in this article, I would appreciate if you could share it. Sharing is caring.

Contributors

Following members of the community pointed out to some of the mistakes I initially made in the article and helped me make this writing more accurate and complete.

• Ben Bisares
• jayiii (reddit)
• Paco Raap

Useful Links

• Tevo website
• Official Tevo AliExpress Store
• Tevo Tarantula User Group on Facebook
• Black Widow User Group on Facebook

I reviewed the Tevo Black Widow and it is my favorite printer to date, you can read that review here. So, naturally reviewing the newer Tevo Tornado got me excited. Spoiler, it did not disappoint! The Tevo Tornado is Tevo’s response to the ever popular Creality CR10. Creality beat Anet to the punch and did a much better job. I didn’t review the CR10, a friend did, but you can read that here. I had fun reviewing this printer because the lack of issues. So lets get to the Tevo Tornado 3D printer review, we start with the printer specifications.

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Technical Specifications

Specs are important but do not tell the whole story. A printer can have the best specs and cost a pretty penny, but still have many print issues. This printer is practically the CR10’s twin with few notable differences. The heatbed uses AC voltage meaning current flows through a voltage regulator and not the main board which causes the bed to heat extremely quickly. By comparison, the Anet E12 bed of the same size heats up in 34 minutes, whereas the Tornado reaches the same temperature in under 3 minutes. Also, the insulation under the heat bed saves energy.

There aren’t many tools, but then again there isn’t much to assemble. Tools include a few allen wrenches and a sharpened scrapper. I didn’t like the scrapper because the bed is covered in buildtack type surface and I was concerned it would cut into this. The bed came with a pre-tested print on it with the Tevo logo. I’m not sure if they built this printer, tested it, and then un-assembled it for shipping, or tested the bed on a standard test rig. There is also a spare sheet of buildtack for the bed included in the box.

SD Card

The files on the included SD card are pretty standard. A couple of printer parts are in stl and Gcode format. Also included, is a copy of the Free Repetier Host which I personally don’t like since most of the time software like this is out of date. Cura 14 is often included with printers, however it is very out of date. The guide gives the buyer URLs to free software, it even includes the Tornado config for the Slic3r software. Last, but not least, is the user manual in pdf format.

Assembly

The Tornado is easy to assemble, like the Anet E10 and E12, with the exception of a few more screws – 12 in total. The printer comes in three large pieces: the base, the upper X and Z axis, and the control box.

The first four screws are supposed to be inserted into the base from the bottom up, to mount the upper gantry to the printer. There are two screws on each side. The other eight screws are used to mount the gantry to the base from the sides. The plates provided give the printer stability and are held on with the T-nuts (aka Hammer nuts), which can be put into the slots of the frame and then tighten to grip the frame. The screw on the left has the Z endstop on it. The endstop is a switch that tells the printer when to stop and then marks that point as 0 on that axis. When you tell the printer to go home from the menu or through code at the beginning of each print, it moves each axis to those switches and counts that as point 0,0,0. When you place the object to print at z0, x100, y100 on the platform in the slicer program, the printer homes to z0,x0,y0 then the print head moves over 100mm then forward 100mm to start the print. These numbers are defaulted in millimeters. You can change them to inches; most don’t because if you ask for help online everyone else talks in millimeters.

Next, you need to connect the wire harnesses to the back of the control box. They have different pin sets and only go in one way so you can’t get it wrong. Then, insert and tighten.

Next, you need to plug the remaining wires into the motors and endstops. Each wire has a sticker to tell you where each wire goes. These only go in one way, but can be forced in wrong. If it’s not going in don’t force it! The X endstop is in a tough location and I had to use needle nose pliers to plug it in. Again, be gentle and don’t force it.

The last thing you need to do is adjust the eccentric nuts on the roller bearings. These are on one side of the three extrusion guides. Two on the Z to raise and lower the X axis and one under the bed to make the bed glide. Mine were okay and didn’t need to be adjusted.

Print Quality

What can I say about the quality? Being a Tevo my expectations were high, and I have to say I wasn’t let down. Below are the different types of filament I tested and the results. Each type has their own strengths and weaknesses. So, depending on what you are printing and where it will be used, you will choose a specific type.

PLA+

PLA+ has the ease of use as PLA, but extrudes at higher temps with added strength. I only recently started using PLA+ and with the cost comparable to regular PLA, there is no reason not to use it. The first print I did was the spool holder on the SD card in Gcode format. That holder had too much infill and the Y axis shifted about 70% through the print. I wasn’t around to catch the shift so it was a waste of filament, but the part it printed was gorgeous.

My next print was to test the stability of the taller prints. I printed the classic rocket for the only boy in my wife’s daycare. It was printed in Vase mode, which means it prints the base and then prints the walls as one continuous spiral. I printed it with 0 infill and at a 0.12mm layer height. It turned out great, but you can see the dreaded salmon skin effect. You can purchase the TL smoother boards which go for about $3 and up, but there is a chance this will not correct the issue.

Next I printed the string test. This test is used to figure out which temperature and retraction settings give you the least amount of strings from oozing. Figure out what layer each block starts at and then you can change the temperature at that layer. This was printed at 0 infill and a 0.12mm layer height. One more test that is important and fared much better than the E12 was the tolerance test. This prints a block with holes and each hole has a peg inside. The size between the peg and the hole starts at 0.9mm then goes all the way to 0 or equal. This was printed with 20% infill and a 0.12mm layer height. The Tevo preformed ok, not as well as I had hoped, but not terrible. The pin only stuck to 0.3 and down. It’s important to know what tolerances your printer supports because when you start making your own items to print, you need to know how big of a gap is need in order to prevent sticking. For instance, I just printed hinges for a lid. They are printed all in one piece so the gaps had to be enough that the hinge works as expected.

At this point, I decided it was time to stop using the spool holder from another printer and print one for the Tornado. The spool holder I chose was a bit large, but it works and was printed at 70% infill and 0.12mm layer height.

PLA

PLA is the easiest filament to print. Although the prints are not as strong as other types, it is suitable for most household printer needs. When I say easiest, I mean it doesn’t shrink as much as other filaments as it cools. When a part shrinks before the print is done it can lift off the bed. The nozzle can then catch that lifted part and cause the x or y to shift, or knock the part off the bed completely. That isn’t what happened in my case above, since there was no lifting. My guess would be that the bed wire snagged the frame. PLA also doesn’t need a heated bed, but a heated bed can help.

PLA was fine for the bed screw knobs. The Tornado and most printers that have manual bed leveling use wing nuts or other nuts that can be turned by hand. The problem is that they can be hard to get to and sometimes hard to turn. So one of the first modifications made for these printers is bigger, easier to use knobs that house the original nuts. I chose these large flat knobs at a 45% infill and a 0.2mm layer height. They do the job until I add auto bed leveling.

I like to print the Benchi for every new printer. It can test many things like printing at angles, circles and overhangs. The Benchi is short for ‘benchmark’ and shaped like a boat, it’s a popular print among the printing community. The Tevo printed the Benchi great, but it couldn’t escape the salmon skin on the sides.

The last PLA print was the famous wrench that is fully 3D printed and fully working. NOT! While others manage to get this to work, I have not. In fact, it stuck to the bed so bad that the first layer didn’t come off with the print. The wrench even broke up as I pulled to remove it which is the same thing that happened on the Tevo Black Widow. I guess the nozzle is set too close to the bed and will now use glass to put over the bed so this doesn’t continue to happen. Like the Black Widow, I had to heat the bed and scrape it off with razor blades. I’m not a fan of these build surfaces but the graphics are awesome! The Tevo also includes a second red sheet to replace the warn out one. I printed this at a 30% infill and a 0.05mm layer height. I did small layers hoping it would work better.

PETG

PETG is becoming more and more popular. At least before PLA+. It has the ease (with the exception of excessive stringing) of PLA with a strength closer to ABS. I usually print the TARDIS from Doctor Who, but I have too many now. So I chose the Benchi to see how it compared to the PLA. It printed okay but not as good as the PLA Benchi. Like I said, stringing is hard to control with PETG and even harder with a bowden style extruder. Bowden means the motor and gears that feed the filament are separated by a long PTFE (Bowden) tube. Some prefer this since it is less weight for the X axis to move side to side. With a 15% infill and 0.2mm layer height it stuck to the bed almost as bad as the wrench. It’s hard to tell with these pictures, but it printed better than it looks.

Flexible Filament (TPU)

One of my favorite filaments is TPU. It’s flexible and made popular by the brand Ninja flex. The brand that I use is Sainsmart, which I purchased it to print RC tires. Recently I started printing Pokemon for my 11 year old daughter. This bulbasaur was printed with 10% infill and 0.2mm layer height. Important things to note with this filament is that you need to print extremely slow and your start height can’t be very close because its flexibility can cause it to bunch up. This one printed beautifully! This has been my best TPU print out of the entire roll, I was surprised to see the salmon skin on the TPU though.

The reason this printer prints TPU (and other) filaments so well is because of the Titan Extruder. It is a good extruder that leaves no gap for the filament to get wrapped around the extruder gear. You can see this where I circled in orange.

ABS

Last, but not least, is ABS. I don’t like printing with ABS for reasons I have stated above. but also the smell is almost intolerable. People online say to vent the fumes outside and enclose the printer because ABS is toxic.

I tried printing an adjustable Z endstop plate and a clip to hold the glass to the bed. They both failed pretty bad, warped due to the filament shrinking, and got knocked off the bed. Even a small piece shows how much it shrinks.

Because the ABS is purple, I printed another Benchi for the kids. I think my wife is tired of picking them up! I like them and I will build a display when I have the time. The ABS Benchi lifted slightly in the front but it didn’t hurt the print. The print did suffered from some stringing though.

Software

The Repetier-Host software on the SD card is not my favorite program to use with printers. The software just “hosts” a slicer engine. A slicer is the program that slices the 3D object into layers, then turns it into instructions the printer can understand. If you need a free program then I would recommend Slic3r or Cura, but if you can afford it I would recommend Simplify3D.

Upgrades and Modifications

Here is a list of modifications I have done and/or plan to do:

(eBay link) TL Smoothers for the Salmon Skin

Knobs for the Bed Screws

Spool holder

Glass Bed and Holders 

Auto Bed Level Sensor (eBay link) (Sensors are from $2 to $10 and are well worth the investment)

Customer Service

I didn’t have any dealings with Tevo customer service. If you have issues, please don’t hesitate to join one of the many Facebook groups. I am a moderator in the Anet 3D printer group and we help owners of any printer type. Just be sure to answer the questions asked with the request or you will be denied entry.

The Tevo Tornado Facebook Group

The Tevo Black Widow Facebook Group

The Anet Facebook Group

Pros, Cons, and Evaluation of the TEVO Tornado

Evaluation

PRINT QUALITY:

This is one of, if not the best, prints I have ever reviewed. Print quality can go bad with a simple change in the wrong setting, so it is best to make a backup of your slicer settings before making any modifications.

BUILD QUALITY:

Like the Tevo Black Widow, the Tevo Tornado was well built and well thought out.

USER INTERFACE AND NAVIGATION:

I usually give the navigation a low score, but it appears Marlin is improving the navigation.

VALUE FOR THE MONEY:

At the low cost of $338 this printer is one of the best for under $400. In fact, it is the best printer under $400 I have reviewed so far.

FINAL JUDGMENT:

The Tevo Tornado is what looks to be an exact clone of the Creality CR10 with some better features. The Tornado uses the V-Slot extrusion instead of the cheaper T-slot which is used on Anet printers. I love the 300X300X400 build volume. It has been fun reviewing this printer and it prints very well. You can’t go wrong with this printer, I would recommend the Tevo 100%! If you are still unsure, or if you purchase it and need advice, please feel free to ask in our comments.

Where To Buy

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In this review, I will take a look at popular Tevo Black Widow 3D printer. In our earlier article, we compared all Tevo models. Here, I will test out this larger volume 3D printer and guide you through an entire process from unboxing, assembly to printing out with various materials.

The Black Widow is the coolest name for almost anything –  including a 3D printer. Taking from the spider the design of this printer is the coolest printer on the market. I’m not much for bland things and I try to spruce up my things with cool stickers or paint.

This printer has the coolest heat bed I’ve seen so far. Too bad it gets marked up with molten plastic. There is the option of using glass but I didn’t have time to order a piece and it was too late after my first print anyway.

The bed is covered with the popular buildtak type surface. Which can be a bad thing. Well, it is for me anyway. Some like it but I find the prints stick to well at times. I did learn a trick but it was too late. My first print was a PLA power supply cover for another printer.

The print turned out great but stuck so bad it left the first layer or two on the bed. To clean it I had to turn the heat up to 120 and scrape off as much as I could with razor blades.

So after this, I started to use Hairspray as a separation layer and so far it has been working. It’s too bad because a glass would have kept it nice. I may still order one.

Black Widow Technical Specification

The Black widow has a nice look as well as a fair size build volume. So far my experience with consumer level printers has been around a 200X200X200mm build volume. This printer has a 250X362X250mm build volume. Personally, the larger volume was great for cosplay models I print. It means a lot less gluing pieces which never fit together 100%.

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Unboxing

The packaging of this printer has been the best I have seen for all the printers I have. The boxes are well designed and well laid out. They are not just plain boxes they have nice branding. Each piece to be assembled is clearly marked and accompanied with all screws and parts needed in separate bags. No need to sort one big bag of screws. The extruder comes preassembled and packed separately in foam.

The one thing that did bother me is there is no included test filament. So if your printer arrives before your filament order you are out of luck for trying your shiny new toy. It wouldn’t cost much to include even 10 meters of PLA.

SD Card

Although it’s nice to include the 8GB SD card it comes empty. Every other printer I have reviewed has included the free software as well as STL files and even Pre-sliced Gcode files for test printing. It’s not hard to copy these files although the pre-sliced files could have settings not well for the filament you have.

Assembly

My 10-year-old daughter wanted to (and did) help me build my previous Anet E10. We waned together to assemble this one as well. The problem was there isn’t much to assemble there. It does come nearly fully assembled, like the Creality CR-10 and the Anycubic i3 Mega we already reviewed on the blog. It is, however, easier to build it from scratch compared to the Anet A8 for instance.

So I let her help me build this printer when it arrived. I’m happy to my kids taking interest in the things I do and want to build things with their hands and not just in Minecraft and other games.

This printer is made with 40X80MM extruded aluminum and building it was fun. It uses proper T-nuts. Assembly when pretty smooth. The included build manual is detailed and informative. But the Cable chain and endstops are missing a lot of detail so I turned to Youtube for the answers. This video was extremely helpful while building it.

The control box is flimsy acrylic but looks very cool with the included LED strips.

Print Quality

As always, I try to test the printing quality by using a different type of filaments. Below are results for each type of printing material I tried.

PLA

PLA is the easiest 3D printer material you can print with. But it does require a part cooling fan which this printer is currently lacking. I’m not sure why any printer company today would design a printer without one.

So my first print being a cover for a power supply of another printer I own was a hard lesson learned. Not because the print turned out badly but because it stuck to the bed as mentioned previously. Even without the fan, this print turned out pretty good. Although it could be better with a fan.

My next print is the very popular Benchmark boat aptly named Benchy. This turned out pretty awesome without a fan. The bow is a large overhang that printed better than any other printer I owned. But it’s not without its flaws. The house and the smokestack has signs of no fan.

So I added the part cooling fan and it did improve the print but could be better and with a second fan, it probably will.

I then printed my favorite tolerance test. This test was created by the 3D printer youtuber Makers Muse. He offered the files for free for a limited time. This tests the gaps between parts ranging from 0.05 to 0.5. This printer did ok but not great. The .5, .4, and .3 were movable with no effort. The .2 took a lot of persuading. There was no getting .15 to .05 to move at all.

Next, I printed something else this printer is missing and although solid they have rough edges from the missing part cooling fan. This is a spool holder. I found a nice top mounted spool holder.

PLA is not good for parts that need to be in high heat situations like in a Car on summer days or in direct sunlight for long periods of time.

ABS

ABS is the opposite of PLA in it doesn’t like part cooling fans and is one of the hardest materials to print with. It takes more heat from both the heated bed and the extruder. It also works best in an enclosure where the heat from the bed and extruder help keep the part from cooling so fast it warps and sometimes pops off the bed. Printing small parts are OK. Large flat parts, on the other hand, warp pretty easily.

I printed these two auto level sensor mounts so that I can add the auto level in the near future. I believe all printers should have auto level nowadays and the Bltouch is an option for this printer when you purchase it. The mounts came out OK but the top layer seems to be missing in spots. Simple to fix with extra top layers.

PETG

If you need parts that can handle the heat of the sun or the heat of the heat of the extruder and you can’t print it in ABS then PETG is the next best thing. It takes higher heat to melt and it doesn’t warp as easy as ABS. One downfall it’s stringy.

Proper retraction settings can minimize that. I printed a housing for a part cooling fan but I set the extruder temp to low and I had a split that broke the part in two. I glued it back together and going to give it a try to see if PLA prints better.

Next, I tried a phone case for my daughter’s galaxy S6. It didn’t fit but with the extra heat, the layers stuck well.

Flexible Filament (TPU)

Flexible filaments (TPU) are amazing and require precise extruder with little to no room for the filament to ooze out of. The extruder is well designed and enables printing flexible material right out of the box, which is great.

TPU is great for printing things like phone cases although they won’t offer a lot of protection in a fall. They are good for other things like the tires for RC vehicles and squishy toys. I print tires for the Open Formula RC project. https://www.thingiverse.com/thing:2123450

Software

Cheap printers always come with free open source software. Cura comes on the SD card but there are others you can download such as Slic3r and Craftware. But if you want the best it will cost you $150 USD. That is called Simplify3D. It great because you can customize your support structure and it prints well.

Upgrades and Modifications

This printer doesn’t need much in the way of upgrades. Aside from the part cooling fan and spool holder.

Here are a few other upgrades that may be of interest to you if you own one.

• Auto-leveling sensor holder
• Auto-leveling sensor mount

If you want to be creative and find the ways to improve Tevo Black Widow, you can either try to design your own parts and modify printers performance, or you can browse through the bunch of free upgrades Tevo users already added on Thingiverse.

Pros, cons, and evaluation

Evaluation

Please understand that these ratings are just a personal opinion of the author. They are not comparable with other ratings or printers on our site since we have several reviewers. However, these ratings should be a guideline to understanding overall printer performance the author experienced.

PRINT QUALITY: 7/10

This printer can be 8 or 9 in print quality with a proper fan.

BUILD QUALITY: 10/10

This printer is built well and solid. I love not having to screw it down to prevent artifacts from vibrations.

USER INTERFACE AND NAVIGATION: 5/10

I give the interface and navigation a 50 because you can’t-do fine control for movement because each click of the dial moves 3-4 positions. So if you want to move the axis .1mm you can’t unless you control it over USB.

VALUE FOR THE MONEY: 9/10

The current cost of this printer is $389.99. That is a pretty good deal for the build volume and quality of this printer.

FINAL JUDGMENT: 8:/10

This is a nice printer and I recommend it to anyone on a budget that needs a reliable printer with a large build volume.

Where to buy Tevo Black Widow Printer?

We recommend several retailers where you can get this printer if you decided it’s the right choice for yourself.

TEVO Black Widow 3D Printer

$576.48

$579.55

2 new from $520.00

Updated: November 4, 2018 5:25 pm