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HATCHBOX

HATCHBOX PETG 3D Printer Filament, Dimensional Accuracy +/- 0.03 mm, 1 kg Spool, 1.75 mm

    • Based on 3,620 reviews
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Availability: In Stock.
Fulfilled by Fire Sale Merchant
Arrives Nov 9 – Nov 13
Order within 19 hours and 25 minutes
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Color: Lake Blue


Features

  • 1KG (approximately 2.2 lbs) Spool
  • PETG (Polyethylene Terephthalate Glycol-Modified) 3D Printer Filament Vacuumed Sealed With Desiccant
  • Recommended Extrusion/Nozzle Temperature 230C - 260C (446F - 500F)
  • 1.75mm Filament Diameter (Dimensional Accuracy +/- 0.03mm)
  • Spool Diameter: 8" - Spool Width: 2.50" - Spool Hub Hole Diameter: 1.25"

Brand: HATCHBOX


Material: Polyethylene Terephthalate Glycol


Color: Lake Blue


Item Weight: 1 Kilograms


Item Diameter: 1.75 Millimeters


Package Dimensions ‏ : ‎ 8.7 x 8.35 x 2.83 inches; 2.2 Pounds


Item model number ‏ : ‎ 3D PETG-1KG1.75-LABLU


Date First Available ‏ : ‎ March 17, 2021


Manufacturer ‏ : ‎ HATCHBOX


Best Sellers Rank: #1,569 in Industrial & Scientific (See Top 100 in Industrial & Scientific) #62 in 3D Printing Filament


#62 in 3D Printing Filament:


Customer Reviews: 4.6 4.6 out of 5 stars 3,620 ratings


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If you place your order now, the estimated arrival date for this product is: Nov 9 – Nov 13

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Top Amazon Reviews

    • PETG Guide: Tips from an industrial designer
Color: Orange
I've experienced all of the problems negative reviewers have mentioned (except bad spooling)... Until I learned why. Now it prints as easy as PLA, and strong enough that I bent a sturdy pair of hardened steel pliers while trying to remove supports after I screwed up my settings. My parts are in use on industrial clients' production lines, even ones that produce Amazon's boxes and some of the products you might use every day. Every product I produce impresses the engineers using them. This material likely helped produce some of the stuff sitting around you right now. Here are some pointers, but you really need to learn about the chemistry in-depth to fully understand it. Part Cooling: PETG does not like cooling, even with fast layer times. It may fail to adhere layers, especially single wall prints. with exceptions. If the area is very thick (solid, lots of walls, etc.) then you're going to need cooling but keep it moderate. With a stock Ender 3 part fan and a ring adapter or a Hero Me Gen3 with the stock fan, about 70-80% works but I only used it where necessary on the model. Using a Hero Me Gen4 Dual 5015 I set about 30-40%. PTFE Melting: I'm not sure why people say they have problems here, but I built an Ender 3 Q42018 model and printed for 2 years with the stock Bowden without any issues... The end of my stock white PTFE tube is just fine, even after testing at up to 260C using the stock hotend. Consistency: I have yet to find a deviation greater than 0.02mm on any roll of any Hatchbox material. YMMV, but that's _why_ I buy Hatchbox. I've never found any contaminants, changes in dye colors, kinks, bubbles, or other defects. Tangling: I think what is going on there in most cases is probably that this stuff is stiff and springy. If you don't have some strain relief between the spool and the extruder, or the spool can rotate too freely, you might feed back onto the roll and make a mess or cause it to spring loose on the roll and tangle from overlaps. I've never received a spool of any material from Hatchbox that was looped over itself and inherently tangled. In fact, with the way the filament is spooled at the plant, I don't think that it is physically possible for it to become knotted... Nozzle Temperature: Here's the finicky one. This setting is critical, and part dependent. Too much heat and you'll get strings and oozing like crazy. Too little, it'll drag and fail to adhere to the bed and other layers. What is too much/little? That depends... I only get good results with 230-245C nozzle temps for detailed parts on a 0.2 - 0.4 mm nozzle. 235C works great for slow speed 1mm nozzle prints, and I use 245C for faster ones. Over 245C makes it ooze badly in addition to becoming brittle and prone to shattering into razor-sharp shards. You can play with temps and cooling to get more flex or rigidity though, which can be pretty handy. If you work to minimize retraction in your gcode, switch to direct drive, print in vase mode, or use linear advance you can get away with 220-230C without much fuss, but you have to stop the part cooling. Higher temps are better for a small nozzle and a model with fewer surface details. Nozzleschmutz: A buildup of excess material on the outer surface of the nozzle can burn and leave black bits on the model or just drag around until it scrapes off, ruining the surface of your print. This is caused (easily) by extruder calibration, Z calibration, unlevel beds, or too high of print speeds. Turn your speed down a bit. It will not print infill well at 235C over 60mm/s. PETG is too viscous and will drag behind the nozzle instead of laying down, and those speeds don't radiate enough heat to strongly bond the current layer to the previous one. A BLTouch, a glass bed, antibacklash nuts, and stronger bed springs all helped with this issue, but getting the E steps dialed in was critical. If you just change the temps on your PLA profile and print, you will have problems. Linear Advance works great but getting your K factor correct can be a challenge due to bed adhesion and the speed at which the LA test pattern prints. See 'Bed Adhesion' (next). Bed Adhesion: Use polyester/polyurethane blended hairspray on glass. The default Ender build plate material works pretty well, but not as good. Your bed needs to be really flat or compensated by high resolution UBL meshes. The carriage must be trammed well and preferably square wrt the frame. I spray 91% IPA on the glass, then hairspray, then heat it gently to set the film. The IPA helps get a clean and smooth layer on the glass instead of uneven speckles from the spray nozzle. Make sure your bed temperature is BELOW the glass transition temperature! There are a lot of reports out there about glass cracking/chipping and PEI being destroyed when you don't do this. If you follow this rule and _let the part cool before attempting to remove it_, the part will release itself with no effort around 35-40C., You'll hear a 'tink' as it pops free. Print the first 2 layers at no more than 20mm/s for consistent results. If you must use bare glass, use tempered glass and clean it to the point of being completely free of oils, IPA denaturing agents, anything which isn't glass. Print the first 2 layers at 10mm/s and avoid tight radii, backtracking, or sharp angles. PETG will stick to completely clean and smooth plates, but not strongly enough to survive a nozzle collision or very hard jarring from bed deceleration. Using brims may help. I've heard 50/50% water and Elmer's Glue All works well, but I haven't needed to try that yet. Bubbles, popping sounds: PETG is very hygroscopic, meaning it will readily absorb atmospheric moisture. You can't load this on an exposed spool holder and leave it for days. For long term storage, I place spools in a bucket with a gasket on the lid (Home Depot orange bucket) with silica crystal cat litter in the bottom. Silica dust from the coarsely ground litter can get on your filament, so watch out for that. I used a sewing machine and Velcro to make a fabric sack to contain the silica. To recharge silica desiccant, bake in an oven at around 180C for 30-60 minutes to drive off moisture, and as soon as it is cool enough, put it in the bucket and seal it again. I've just finished a roll I've had open for over 2 years which has absorbed moisture many times, and my last prints were great in terms of printing, strength, color, and finish. This isn't a problem with Hatchbox filaments, but a natural chemical property of this polymer. I can tell you from working with industrial facilities, vacuum packing or even wrapping round objects like spools is very difficult and they might leak, that's just the nature of the technology used in packaging equipment. I've never received an unsealed spool from Hatchbox, but it wouldn't disappoint me. Just handle it gently to avoid cracking it, dry it out, and it'll be fine. Desiccant drying times range from hours to days depending on exposure. One thing I have noticed is that the spools have all been wound very neatly and the unexposed parts absorb little moisture, so if you're reeeaaally in a hurry, you can unwind a couple of layers of the spool, snip it, and print with the more fresh filament beneath it. Better still, just mount your currently used filament in a container with desiccant using a foam port to keep out more humid air and wipe any dust from the material as it feeds. Try to pick a foam with a low dielectric coefficient wrt PETG so you don't cause a static electric charge to build up and attract new dust to the filament. Stringing: If your retraction is wrong, nozzle temperature is too low/high, hydrolysis has occurred, or your print speed is too high, you will certainly see the spaghetti monster soon. This stuff can string like crazy, but when you're dialed in that all goes away. You'll know you've got a good profile set up when it behaves almost like PLA instead of glue. I didn't believe this until I saw it, I thought this was just a horrible material in terms of stringiness. The roll I just finished was the same roll I calibrated with 2 years ago. It was nothing but a non-bed-adhering, stringy, goopy, crappy mess for the first month of trial and error, my last print was gorgeous. It's not hard to print with, but it is hard to build a profile for and your settings may depend on the model a little. Warping: PETG, like many materials, expands and contracts substantially with changes in temperature. Judicious use of part cooling can keep this to a minimum on overhanging areas which might curl up otherwise, but too much will just cause weak layer adhesion. A warm build area (i.e., heated enclosure) will reduce this a lot. The problem isn't anywhere near what you might see with most ABS filaments, but it can make printing some parts difficult. Plan ahead, have supporting ribs or infill which help the part hold its geometry, and avoid steep (>70 degrees) unsupported overhangs. It took many tries to get a successful print of some belt tensioners without the last 2 cm curling up badly and causing the part to be knocked from the build plate by the nozzle. Once I reduced my print speed, lowered my nozzle temp to 230, closed the A/C register in the room, and set 30% part cooling fan during the last of the overhanging arch, everything went smoothly but it was frustrating for a few days while I figured it out. An enclosure would have solved it I think. Multimaterial Printing: Well, you will learn that almost nothing sticks to PETG very well. You can print TPU onto it while it's hot and get a decent bond but not as strong as pure PETG parts. Slow down the interface layers to allow heat to flow from the nozzle into the PETG below. Friction fits, mechanical fasteners, or adhesives may be a better way to go. Layer Bonding: Strong parts become very weak if you cool them too much during printing or take too long per layer at too low a temperature. Print one part at a time, low/no fan, and slow it down a little. Infill: Print infill at the same speed you print walls if you want it strong. If you don't need much strength in the infill, just support, then faster speeds may be fine. Supports: Unless you utilize thermal tricks like setting high part cooling on your support roofs or increased gaps at interfaces, you will likely have a very hard time removing support material and achieving a nice finish. Once it bonds, it can become solid to the point that you need power tools to remove the supports... Be careful removing material, this stuff can fracture and leave dangerously sharp edges or violently release glass-like shards. Eye protection and gloves wouldn't be a bad idea. Use Cases: I've got wheels carrying 1200 Lb dynamic loads, hundreds of tons of material sliding across air conveyor nozzles made from PETG, grips for machetes and other tools, and heat-exposed printer parts which are all functioning extremely well. PETG has great abrasion resistance, impact resistance, tensile strength, and chemical resistance. Its thermal stability is very good for a material that extrudes at such a low temperature. I've also got replacement auto parts in service that are doing just fine in Texas temperatures. This stuff is my main money-maker and go-to material, I don't even keep any PLA in stock. General Notes and Safety: Short of printing PEEK, Acetal, or Polycarbonate, this is about as easy, strong, and versatile a material as you'll find to print with. Hatchbox filament doesn't seem to have any additives like compatabilizers or stabilizers which create noxious fumes, but I've read studies that suggest that VOCs can build up in a small unventilated space with longer prints. If you notice a mild flowery or sweet smell, you might want to increase ventilation or dilution (circulate the air). Wiping the outside of the nozzle with a lint-free cloth dampened with an oil that has a smoke temperature above the nozzle temperature may help prevent accumulated material from degrading, but ultimately you've got a layer height or extrusion amount miscalibration which must be addressed if that happens. I've read about olive oil and such, but some of these can denature and become toxic or carcinogenic above smoke temperature so I don't do that. This stuff really can shatter like glass, I'm not exaggerating... Wear safety gear if you think this might be a risk, and beware of shards in work areas. Bystanders, including pets, should stay well back while applying force to remove supports or test part strength. My personal test of PETG-worthiness has been to first get the machine to where it can produce PLA print-in-place racer bearings without binding, underextrusion, or overextrusion. Then I build the PETG profile by checking extruder hobbed gear tension, measuring extruder steps per mm, printing temperature towers, printing retraction tests, testing cooling settings for overhangs, and finally part fitting tests with zero tolerances. Once you get your machine and settings calibrated, PETG can be a very rewarding material with incredible qualities. So now you know more about PETG than most users, and your chances of success should be much higher. Don't get discouraged, just remember that PLA filaments are designed to be "idiot-proof" and tolerant of faults in machine calibration, but PETG is a serious material requiring knowledge to extrude correctly. Hyperbolic statements such as "This brand SUCKS" tell you that the individual doesn't understand the material, their machine, or both, so keep at it and soon you'll be amazing your clients and changing their perception of FDM machines. ... show more
Reviewed in the United States on May 1, 2020 by James D.
    • HATCHBOX PETG 3D Printer Filament Review
Color: Yellow
If you're looking for a filament that's as reliable as your morning coffee and as precise as a cat landing on its feet, then the HATCHBOX PETG 3D Printer Filament is the filament for you. Let’s dive into why this spool of wonder will become your new best friend in the 3D printing world. Dimensional Accuracy Dimensional accuracy of +/- 0.03 mm? That's more precise than my ability to find matching socks in the morning. This filament doesn’t just aim for accuracy; it achieves it like a laser-guided missile. Your prints will come out so precise, you'll start doubting if you’re even human, because who can achieve that level of perfection? Strength and Durability This PETG filament is as strong as a superhero's willpower. Need a replacement part for your spaceship? No problem. Want to print a durable phone case that can survive the apocalypse? Done. This filament handles it all, from delicate figurines to industrial-strength projects, with the grace of a ballet dancer and the toughness of a tank. Ease of Use Ever tried to feed a toddler? That’s complicated. Using this filament? It’s a breeze. The HATCHBOX PETG Filament flows through your 3D printer like a hot knife through butter. No clogs, no tangles, no drama. Just smooth, consistent printing every time. It’s like the filament actually wants to be printed! Versatility This filament is as versatile as a Swiss Army knife. Need to print something transparent? Check. Something strong? Check. Something that can withstand the heat of a thousand suns (or at least a sunny afternoon)? Double check. Whether you’re a novice or a seasoned pro, this filament will adapt to your needs faster than a chameleon at a rainbow convention. Color Consistency The color consistency is so good, you’ll think HATCHBOX hired a wizard. Each spool is a uniform shade of brilliance, ensuring that your prints look professional and polished. No weird color streaks or variations, just pure, unadulterated perfection. #### Conclusion In conclusion, the HATCHBOX PETG 3D Printer Filament is the stuff of legend. It’s reliable, precise, and versatile, making it the perfect choice for all your 3D printing escapades. Whether you're printing a prototype or a masterpiece, this filament will have you covered. So go ahead, unleash your creativity, and print something amazing. Just don’t be surprised if your 3D prints start winning awards—or at least some well-deserved admiration from your fellow makers. ... show more
Reviewed in the United States on July 4, 2024 by J. Garcia
    • Good product
Color: Black
Prints well, good appearance. No clogs or jams. Very durable prints. Great product.
Reviewed in the United States on August 18, 2024 by Sierra
    • Great Filament
Color: Electric Lime
Durable filament and prints amazing. Did not clog and got my money worth. Very easy to use and prints came out smooth. Great deal for the money.
Reviewed in the United States on September 3, 2024 by Chris Thompson

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