--- product_id: 628102076 title: "Siraya Tech Fibreheart PET-CF 3D Filament - Carbon Fiber Reinforced, High Strength & Rigidity, Easy Print, Dimensionally Stable, Aluminum Foil Sealed Bag - for Strong and Precise Parts (Black, 1kg)" brand: "siraya tech" price: "2241087₫" currency: VND in_stock: true reviews_count: 8 category: "Siraya Tech" url: https://www.desertcart.vn/products/628102076-siraya-tech-fibreheart-pet-cf-3d-filament-carbon-fiber-reinforced store_origin: VN region: Vietnam --- # Superior dimensional stability 3x PLA stiffness Carbon fiber mesh tech Siraya Tech Fibreheart PET-CF 3D Filament - Carbon Fiber Reinforced, High Strength & Rigidity, Easy Print, Dimensionally Stable, Aluminum Foil Sealed Bag - for Strong and Precise Parts (Black, 1kg) **Brand:** siraya tech **Price:** 2241087₫ **Availability:** ✅ In Stock ## Summary > 🖤 Print Strong, Print Smart — Own the Future of 3D Engineering ## Quick Answers - **What is this?** Siraya Tech Fibreheart PET-CF 3D Filament - Carbon Fiber Reinforced, High Strength & Rigidity, Easy Print, Dimensionally Stable, Aluminum Foil Sealed Bag - for Strong and Precise Parts (Black, 1kg) by siraya tech - **How much does it cost?** 2241087₫ with free shipping - **Is it available?** Yes, in stock and ready to ship - **Where can I buy it?** [www.desertcart.vn](https://www.desertcart.vn/products/628102076-siraya-tech-fibreheart-pet-cf-3d-filament-carbon-fiber-reinforced) ## Best For - siraya tech enthusiasts ## Why This Product - Trusted siraya tech brand quality - Free international shipping included - Worldwide delivery with tracking - 15-day hassle-free returns ## Key Features - • **Precision That Lasts:** Exceptional dimensional stability means your parts fit perfectly every time. - • **Lightweight Yet Durable:** Ideal for drone parts, mechanical assemblies & sporting gear where weight matters. - • **Carbon Fiber Reinforced Mesh:** Smart fiber skeleton boosts strength, heat resistance & warpage-free prints. - • **Unmatched Structural Stiffness:** Experience 3x the stiffness of PLA for rock-solid prototypes and parts. - • **Effortless Printing, No Drying Needed:** Factory-sealed freshness saves you hours—print straight out of the bag. ## Overview Siraya Tech Fibreheart PET-CF is a premium carbon fiber reinforced PET filament engineered for professionals demanding high strength, rigidity, and dimensional accuracy. It delivers 3x the stiffness of PLA with excellent heat resistance and minimal warping, all while printing easily straight from its aluminum-sealed bag. Perfect for functional prototypes and lightweight durable parts, this filament balances performance and cost, making it a go-to choice for engineering-grade 3D printing. ## Description desertcart.com: Siraya Tech Fibreheart PET-CF 3D Filament - Carbon Fiber Reinforced, High Strength & Rigidity, Easy Print, Dimensionally Stable, Aluminum Foil Sealed Bag - for Strong and Precise Parts (Black, 1kg) : Industrial & Scientific Review: Premium Engineering-Grade Filament at a Nice Price - Siraya Tech PPA-CF is a prototype engineer’s dream. While most nylons have flexural strength that far exceeds PLA, they generally still lag behind it in flexural modulus (stiffness) limiting their utility in structural applications. The Siraya Tech PPA-CF is very much an exception to this and delivers 3 times the stiffness of PLA whilst maintaining 5 times the tensile strength. From the perspective of hydroscopy, the Siraya Tech PPA-CF has considerably less tendency to absorb atmospheric moisture than PA-11, PA-12 and PA-6. I find that it can print very well right out of the factory sealed pouch with no additional drying needed. This is a great time saver when on a tight project schedule, as the typical drying protocol for most high-temp nylons is 85 deg C for 8-12 hours in a blast oven. I print Siraya Tech PPA-CF mostly from a Bambu Lab X1E. It prints perfectly using the stock profile for Bambu Lab PAHT-CF. So, the big debate is whether if Siraya Tech PPA-CF is PAHT-CF or not, especially since it used to be labeled as such. So, here’s the scoop: PAHT-CF is just generic nomenclature for “Polyamide High Temperature”. The polyamide can be PA-11 or PA-12, which is then blended with carbon fiber ergo the “CF” designation. Bambu Lab PAHT-CF uses PA-12 as the polyamide base. Siraya Tech PPA-CF and Bambu Lab PPA-CF are technically PAHTs, but use *polypthalamide* as the base. So, all PPAs are PAHTs, but not all PAHTs are PPA. The thing about PPA is that its higher strength, greater stiffness, and increased temperature resistance generally comes with a much higher price tag. Comparatively, Siraya Tech PPA and Bambu Lab PPA complete my tests with similar results and appear to be the same compound. However, the Siraya Tech PPA is 40% less expensive. Take what you will from that, but your wallet will notice the difference. What I like most about Siraya Tech PPA-CF is the dimensional stability of the material. Whatever design I prototype with it can directly transfer for DMLS printing in stainless steel, titanium and aluminum without tweaks to the dimensions. Other PAHT-CF filaments based on PA-12 have far more issues with shrinking on the Z-axis, warping, and lifting of edges off the build plate. I’ve been printing with Siraya Tech PPA for about 1,600 hours now, and have not experienced warping or lifting on any print with it yet. Now, for the challenges: Siraya Tech PPA-CF is so very stiff that the filament on the spool retains a coil memory like spring steel. That means that you cannot run lengths of it through stiff feeder tubes (such as PTFE Bowden tubes) from your dry box to your printer. It needs to follow its own coiled memory, and if forced to run through the contours of stiff feeder tubes, the filament will seize up in the tubes and then snap (break). See my attached photo. I use tubes made from oversized, flexible, latex tubing (blue color in the photo) to feed the Siraya Tech PPA-CF from my dry box to my printer. Note the cork-screw or pig-tail profile of the filament and feed tube — you must allow the filament to gradually uncoil itself or else you will have filament jams and breakage all day long. Do what I have done in the pic and save yourself a ton of headaches. Don’t do it and, well, you’ll be very frustrated and unhappy. The extreme stiffness of the Siraya Tech PPA-CF also means that getting it to catch into and engage your extruder gears when initially loading the filament can take 3-5 tries. I have found that cutting the end of the filament at a very steep angle to create a very sharp, sliver point really helps. You need very sharp, new clippers / nippers to do this otherwise the filament will crack apart and leave a ragged point. Don’t even think about re-spooling the Siraya Tech PPA-CF or using it in your AMS or CFS. I tried re-spooling it at very slow speed and the filament snapped three times over the 1 kg transfer. So, that was a one time and never again experiment for me. Why did I try re-spooling? Answer: virtually all the moisture in the roll is within the cardboard spool and not the filament. I have found that blast-oven drying of a new roll of the Siraya Tech PPA-CF is not needed to reduce moisture from the filament, but to get it out of the cardboard spool. I wish filament makers would quit with the hydroscopic cardboard spools and go back to using the hydrophobic plastic spools for these premium, nylon filaments. In my attached photo, you can see two dry-boxes, the one on the left reading 19% humidity has the Siraya Tech PPA-CF with cardboard spool in it, and the one on the right reading 14% humidity has Colorfabb Varioshore TPU with plastic spool in it. Both dry boxes were at 10% humidity before the filament rolls were inserted after 12 hours of drying in a blast oven at 85 deg C and 75 deg C respectively. Both dry boxes have about 500 grams of supplemental, gel bead desiccant. The carbon fiber content of the Siraya Tech PPA-CF is very high. This means that the material is extremely abrasive, though I have found a hardened, steel nozzle (0.4 mm) to have no appreciable wear after 1600 hours printing it. Hardened is the operative word. Use unhardened stainless steel or any softer metal in your nozzle selection with this filament and you’ll be replacing it after every 0.5 kg you run through it. Nozzle clogs. The Siraya Tech PPA-CF does cause more nozzle clogs to form in my printer, at a rate of about once per 1 kg spool. I attribute this to the high density of the carbon fiber content. None of the clogs has been a showstopper or fatal event requiring tear down of the hot end and replacement of the nozzle. Every time, I just heat the nozzle to 300 deg C, and then run a 0.35 mm and 0.4 mm acupuncture needle through it for about 20 strokes each and am ready to resume printing. Overhang performance. The Sirayatech PPA-CF droops on overhangs steeper than 40% more than PLA-CF and PA-12 based PAHT-CF. Its overhang performance is about equal to PETG. Not bad, but not great either, though satisfactory overall. Using ASA as a support material works great with zero gaps, but you will need a dual nozzle printer for this. Be careful when using the PPA-CF as a support material for itself as the support structures are very difficult to remove if you gap closer than 0.25 mm. I find that grid support pattern with no interface layer works much better than tree type support when using Siraya Tech PPA-CF as a support material for itself. The surface texture of the Siraya Tech PPA-CF is absolutely gorgeous — with a modestly iridescent sheen like silk satin. It hides layer lines well on medium to large prints. Surprisingly, despite its seemingly high density of carbon fiber content, I have experienced zero problems with prickliness or carbon fiber splinters coming off the prints into my skin on printed hand-grips. Color. While the Siraya Tech PPA-CF looks coal black when standing alone, when compared to other black pigmented filaments it is actually more of a very dark gunmetal gray. This is not unattractive at all, in my opinion, but if you need a jet black color then take note. Stiffness. As cited earlier, the Siraya Tech PPA-CF has extreme stiffness compared with other polyamides / nylons. While this is a plus for many structural applications, it does come at the expense of ductility. So, if your prints need maximum shearing strength on the Z-axis, PPA-CF is not the top performer. Annealing. Do not do this with parts printed from PPA-CF. While it will improve X and Y axis strength, it will actually reduce z-axis strength. Overall, I like Siraya Tech PPA-CF very much for its excellent balance of performance and price with the highest stiffness rating of any polyamide / nylon filament by far, and it has become my go-to standard filament for my engineering prototyping tasks. Its combination of strength and stiffness is particularly noticeable on thin parts which resonate like metal when tapped. Review: Print settings conflict, prints easily, but shrinks and is brittle- unusable - I printed a mechanical piece that I had printed with PLA Professional. Using that filament, everything fit and worked properly. I found this needed 290 nozzle and 90 bed in a Creality soft-sided enclosure on an Aritllery X4 Plus S1 using it's PEI sheet with glue stick. I printed on the Y axis. At 280/80 one side of the base layer pulled loose when the oblong item was printed aligned on the X axis. I printed a .2mm layer height at 100mm/s with fans 20-60%, 2mm retraction @ 40mm/s and 100% infill. See below for print setting conflicts. I used this filament right out of the bag, as it says on the site not to dry it unless you have problems. Once the part printed, I was able to get the supports out relatively easily, and the surface while not smooth was decent. This portion was a marked improvement over the Overture Easy Nylon I tried before. I then removed an internal metal support from the same model in PLA plus and it would not fit into the same opening. I tried to push it into place and the front portion of the pocket cracked, turning the model into 3 pieces. This material is very brittle. A second larger metallic piece designed to be removable fit most of the way in, but jammed once seated. It easily pulls in and out of the PLA plus. I have deducted one star for various reasons- 1. The print settings vary between what is on the bag (I got old stock marked PAHT) and what is on the website. 2. The shrinkage made my item unusable. I'll have to experiment to get the enlargement right in Cura. UPDATE- can't be done, see below. If you go by the label on the bag, here are the print settings: Nozzle 280-300 Bed 80-100 Speed 30-220 Fan 0-80 On the spool, it says Nozzle 280-300 (same) Bed 80-100 (same) Speed 30-200 (slightly lower) Fan 0-80 (same) On their website (product page), it says this: Nozzle 260-280 (lower) Bed 70-80 (lower) Speed 30-120 (lower) Fan 20-60 (lower) On their website's user guide, it says this: Nozzle Temperature 280-300 (same as bag) Bed 70-80 (lower than bag, same as product page) Speed 30-120 (same as product page) Fan 20-60 (same as product page) UPDATE- Reduced to 2 stars. This material is just not suited for precision printing. I adjusted my model in Cura after measuring the failed piece and one that printed OK as-is in PLA Professional. I added 7% to X and 2% to Y and Z. I also reduced layer height to .16. While the support fit in the pocket this time, the locking pin that holds it in place would not go all the way through. It started on one side, and it ended up cracking in the exact same spot as before when I tried to drive it into place as designed- something PLA Pro has no problem with. I also found there was too much slack for the other part that fit into the model. Seems like nice material, but just not suited for what I needed it for. You shouldn't have to spend so much time dialing in shrinkage for such an expensive filament when filaments that are about 1/3 the cost don't have this problem. UPDATE 2- The seller contacted me and advised the website setting were correct, then offered to refund my money. Revised up to 5 stars, that is how to correct a problem. ## Features - Enhanced Performance & Reliability: Our PET-CF filament is a high-performance composite material, expertly blending Polyethylene Terephthalate (PET) with carbon fiber. PET-CF 3d filament maintains ease of printing, good interlayer adhesion, and good mechanical properties, and exhibits increased stiffness, improved dimensional stability, and significantly improved strength. - Smart Fiber Reinforced Technology: Carbon fibers form a mesh skeleton structure within the PET matrix, greatly improving mechanical properties, heat resistance, and dimensional stability. Prints have no warpage thanks to internal stress release. - Superior Dimensional Stability: PET's highly regular molecular chain structure and rigid benzene rings result in better mechanical properties and less deformation under long-term load compared to PA and PC materials.. Our PET-CF filament reduces warping and shrinkage, ensuring your prints maintain their precise dimensions and shapes, critical for functional parts and intricate designs. - Lightweight Durability: Perfectly balancing durability with a lightweight profile, our PET-CF filament is tailor-made for applications where both strength and weight are key factors. Its low moisture absorption rate makes the part la It¡¯s an excellent material for producing robust yet lightweight components such as drone parts, mechanical assemblies, and sporting equipment. - Versatile Applications: Whether you are a professional in need of reliable, high-strength components or a hobbyist working on detailed, functional projects, our PET-CF filament is versatile enough to meet a wide range of needs. Its ease of printing and mechanical properties make it suitable for everything from industrial prototypes to custom sporting goods. ## Technical Specifications | Specification | Value | |---------------|-------| | ASIN | B0CSPFL7MB | | Best Sellers Rank | #2,299 in Industrial & Scientific ( See Top 100 in Industrial & Scientific ) #171 in 3D Printing Filament | | Brand | Siraya Tech | | Color | Pet-cf Black 1kg | | Customer Reviews | 4.3 4.3 out of 5 stars (440) | | Date First Available | January 23, 2024 | | Ink Color | Black | | Item Weight | 2.64 pounds | | Item model number | 3003 | | Manufacturer | Siraya Tech | | Manufacturer Part Number | PET - CF | | Material Type | Polyethylene Terephthalate | | Number of Items | 1 | | Product Dimensions | 8.27 x 2.95 x 8.27 inches | ## Product Details - **Brand:** Siraya Tech - **Color:** Pet-cf Black 1kg - **Item Diameter:** 25 Centimeters - **Item Weight:** 1.2 Kilograms - **Material:** Polyethylene Terephthalate ## Images ![Siraya Tech Fibreheart PET-CF 3D Filament - Carbon Fiber Reinforced, High Strength & Rigidity, Easy Print, Dimensionally Stable, Aluminum Foil Sealed Bag - for Strong and Precise Parts (Black, 1kg) - Image 1](https://m.media-amazon.com/images/I/713TvuvfSiL.jpg) ## Available Options This product comes in different **Color** options. ## Customer Reviews ### ⭐⭐⭐⭐⭐ Premium Engineering-Grade Filament at a Nice Price *by S***. on January 23, 2026* Siraya Tech PPA-CF is a prototype engineer’s dream. While most nylons have flexural strength that far exceeds PLA, they generally still lag behind it in flexural modulus (stiffness) limiting their utility in structural applications. The Siraya Tech PPA-CF is very much an exception to this and delivers 3 times the stiffness of PLA whilst maintaining 5 times the tensile strength. From the perspective of hydroscopy, the Siraya Tech PPA-CF has considerably less tendency to absorb atmospheric moisture than PA-11, PA-12 and PA-6. I find that it can print very well right out of the factory sealed pouch with no additional drying needed. This is a great time saver when on a tight project schedule, as the typical drying protocol for most high-temp nylons is 85 deg C for 8-12 hours in a blast oven. I print Siraya Tech PPA-CF mostly from a Bambu Lab X1E. It prints perfectly using the stock profile for Bambu Lab PAHT-CF. So, the big debate is whether if Siraya Tech PPA-CF is PAHT-CF or not, especially since it used to be labeled as such. So, here’s the scoop: PAHT-CF is just generic nomenclature for “Polyamide High Temperature”. The polyamide can be PA-11 or PA-12, which is then blended with carbon fiber ergo the “CF” designation. Bambu Lab PAHT-CF uses PA-12 as the polyamide base. Siraya Tech PPA-CF and Bambu Lab PPA-CF are technically PAHTs, but use *polypthalamide* as the base. So, all PPAs are PAHTs, but not all PAHTs are PPA. The thing about PPA is that its higher strength, greater stiffness, and increased temperature resistance generally comes with a much higher price tag. Comparatively, Siraya Tech PPA and Bambu Lab PPA complete my tests with similar results and appear to be the same compound. However, the Siraya Tech PPA is 40% less expensive. Take what you will from that, but your wallet will notice the difference. What I like most about Siraya Tech PPA-CF is the dimensional stability of the material. Whatever design I prototype with it can directly transfer for DMLS printing in stainless steel, titanium and aluminum without tweaks to the dimensions. Other PAHT-CF filaments based on PA-12 have far more issues with shrinking on the Z-axis, warping, and lifting of edges off the build plate. I’ve been printing with Siraya Tech PPA for about 1,600 hours now, and have not experienced warping or lifting on any print with it yet. Now, for the challenges: Siraya Tech PPA-CF is so very stiff that the filament on the spool retains a coil memory like spring steel. That means that you cannot run lengths of it through stiff feeder tubes (such as PTFE Bowden tubes) from your dry box to your printer. It needs to follow its own coiled memory, and if forced to run through the contours of stiff feeder tubes, the filament will seize up in the tubes and then snap (break). See my attached photo. I use tubes made from oversized, flexible, latex tubing (blue color in the photo) to feed the Siraya Tech PPA-CF from my dry box to my printer. Note the cork-screw or pig-tail profile of the filament and feed tube — you must allow the filament to gradually uncoil itself or else you will have filament jams and breakage all day long. Do what I have done in the pic and save yourself a ton of headaches. Don’t do it and, well, you’ll be very frustrated and unhappy. The extreme stiffness of the Siraya Tech PPA-CF also means that getting it to catch into and engage your extruder gears when initially loading the filament can take 3-5 tries. I have found that cutting the end of the filament at a very steep angle to create a very sharp, sliver point really helps. You need very sharp, new clippers / nippers to do this otherwise the filament will crack apart and leave a ragged point. Don’t even think about re-spooling the Siraya Tech PPA-CF or using it in your AMS or CFS. I tried re-spooling it at very slow speed and the filament snapped three times over the 1 kg transfer. So, that was a one time and never again experiment for me. Why did I try re-spooling? Answer: virtually all the moisture in the roll is within the cardboard spool and not the filament. I have found that blast-oven drying of a new roll of the Siraya Tech PPA-CF is not needed to reduce moisture from the filament, but to get it out of the cardboard spool. I wish filament makers would quit with the hydroscopic cardboard spools and go back to using the hydrophobic plastic spools for these premium, nylon filaments. In my attached photo, you can see two dry-boxes, the one on the left reading 19% humidity has the Siraya Tech PPA-CF with cardboard spool in it, and the one on the right reading 14% humidity has Colorfabb Varioshore TPU with plastic spool in it. Both dry boxes were at 10% humidity before the filament rolls were inserted after 12 hours of drying in a blast oven at 85 deg C and 75 deg C respectively. Both dry boxes have about 500 grams of supplemental, gel bead desiccant. The carbon fiber content of the Siraya Tech PPA-CF is very high. This means that the material is extremely abrasive, though I have found a hardened, steel nozzle (0.4 mm) to have no appreciable wear after 1600 hours printing it. Hardened is the operative word. Use unhardened stainless steel or any softer metal in your nozzle selection with this filament and you’ll be replacing it after every 0.5 kg you run through it. Nozzle clogs. The Siraya Tech PPA-CF does cause more nozzle clogs to form in my printer, at a rate of about once per 1 kg spool. I attribute this to the high density of the carbon fiber content. None of the clogs has been a showstopper or fatal event requiring tear down of the hot end and replacement of the nozzle. Every time, I just heat the nozzle to 300 deg C, and then run a 0.35 mm and 0.4 mm acupuncture needle through it for about 20 strokes each and am ready to resume printing. Overhang performance. The Sirayatech PPA-CF droops on overhangs steeper than 40% more than PLA-CF and PA-12 based PAHT-CF. Its overhang performance is about equal to PETG. Not bad, but not great either, though satisfactory overall. Using ASA as a support material works great with zero gaps, but you will need a dual nozzle printer for this. Be careful when using the PPA-CF as a support material for itself as the support structures are very difficult to remove if you gap closer than 0.25 mm. I find that grid support pattern with no interface layer works much better than tree type support when using Siraya Tech PPA-CF as a support material for itself. The surface texture of the Siraya Tech PPA-CF is absolutely gorgeous — with a modestly iridescent sheen like silk satin. It hides layer lines well on medium to large prints. Surprisingly, despite its seemingly high density of carbon fiber content, I have experienced zero problems with prickliness or carbon fiber splinters coming off the prints into my skin on printed hand-grips. Color. While the Siraya Tech PPA-CF looks coal black when standing alone, when compared to other black pigmented filaments it is actually more of a very dark gunmetal gray. This is not unattractive at all, in my opinion, but if you need a jet black color then take note. Stiffness. As cited earlier, the Siraya Tech PPA-CF has extreme stiffness compared with other polyamides / nylons. While this is a plus for many structural applications, it does come at the expense of ductility. So, if your prints need maximum shearing strength on the Z-axis, PPA-CF is not the top performer. Annealing. Do not do this with parts printed from PPA-CF. While it will improve X and Y axis strength, it will actually reduce z-axis strength. Overall, I like Siraya Tech PPA-CF very much for its excellent balance of performance and price with the highest stiffness rating of any polyamide / nylon filament by far, and it has become my go-to standard filament for my engineering prototyping tasks. Its combination of strength and stiffness is particularly noticeable on thin parts which resonate like metal when tapped. ### ⭐⭐⭐⭐⭐ Print settings conflict, prints easily, but shrinks and is brittle- unusable *by U***1 on March 7, 2025* I printed a mechanical piece that I had printed with PLA Professional. Using that filament, everything fit and worked properly. I found this needed 290 nozzle and 90 bed in a Creality soft-sided enclosure on an Aritllery X4 Plus S1 using it's PEI sheet with glue stick. I printed on the Y axis. At 280/80 one side of the base layer pulled loose when the oblong item was printed aligned on the X axis. I printed a .2mm layer height at 100mm/s with fans 20-60%, 2mm retraction @ 40mm/s and 100% infill. See below for print setting conflicts. I used this filament right out of the bag, as it says on the site not to dry it unless you have problems. Once the part printed, I was able to get the supports out relatively easily, and the surface while not smooth was decent. This portion was a marked improvement over the Overture Easy Nylon I tried before. I then removed an internal metal support from the same model in PLA plus and it would not fit into the same opening. I tried to push it into place and the front portion of the pocket cracked, turning the model into 3 pieces. This material is very brittle. A second larger metallic piece designed to be removable fit most of the way in, but jammed once seated. It easily pulls in and out of the PLA plus. I have deducted one star for various reasons- 1. The print settings vary between what is on the bag (I got old stock marked PAHT) and what is on the website. 2. The shrinkage made my item unusable. I'll have to experiment to get the enlargement right in Cura. UPDATE- can't be done, see below. If you go by the label on the bag, here are the print settings: Nozzle 280-300 Bed 80-100 Speed 30-220 Fan 0-80 On the spool, it says Nozzle 280-300 (same) Bed 80-100 (same) Speed 30-200 (slightly lower) Fan 0-80 (same) On their website (product page), it says this: Nozzle 260-280 (lower) Bed 70-80 (lower) Speed 30-120 (lower) Fan 20-60 (lower) On their website's user guide, it says this: Nozzle Temperature 280-300 (same as bag) Bed 70-80 (lower than bag, same as product page) Speed 30-120 (same as product page) Fan 20-60 (same as product page) UPDATE- Reduced to 2 stars. This material is just not suited for precision printing. I adjusted my model in Cura after measuring the failed piece and one that printed OK as-is in PLA Professional. I added 7% to X and 2% to Y and Z. I also reduced layer height to .16. While the support fit in the pocket this time, the locking pin that holds it in place would not go all the way through. It started on one side, and it ended up cracking in the exact same spot as before when I tried to drive it into place as designed- something PLA Pro has no problem with. I also found there was too much slack for the other part that fit into the model. Seems like nice material, but just not suited for what I needed it for. You shouldn't have to spend so much time dialing in shrinkage for such an expensive filament when filaments that are about 1/3 the cost don't have this problem. UPDATE 2- The seller contacted me and advised the website setting were correct, then offered to refund my money. Revised up to 5 stars, that is how to correct a problem. ### ⭐⭐⭐⭐⭐ A Game Changer... *by A***N on January 12, 2026* I have no idea how they pulled it off, but this filament has some of the most insane layer adhesion I've ever seen. And it bonds so aggressively to the bed that it actually fused to my textured PEI plate at 80°C. I had to switch to smooth PEI + glue stick at 50°C just to tame the adhesion to a usable level—and it worked. The glass fiber reinforcement makes it incredibly tough, stabilizes the material, and virtually eliminates warping, so small prints come out great even without a heated chamber. Thanks to the glass fibers, the surface has this beautiful, elegant, non-reflective matte texture that completely masks layer lines—but only at 0.15 mm layer height (or finer). Any higher (like 0.20 mm and up), and the lines start to show. It prints flawlessly at 80 mm/s with a 305°C nozzle temperature. Unfortunately, that's a bit past the limit of the Bambu-style hotend I'm using, but so far it's holding up pretty well. I'm genuinely impressed. The parts come out right the first time with accuracy and uniformity that put ASA and ABS to shame. I did dry the filament for 24 hours, but honestly it seemed printable straight out of the package. The team at Siraya clearly aren't messing around—they know how to get things done. I've never consistently hit 0.1 mm dimensional accuracy with any other filament so effortlessly; it was always 0.4 mm or worse and required endless tweaking. But yeah, I did ruin a build plate because of the ridiculous adhesion—but it's totally my fault. I was completely unprepared for such a game-changing material. I can finally print thin parts with confidence, and I no longer have to make multiple copies just to get a perfect fitment. ## Frequently Bought Together - Siraya Tech Fibreheart PET-CF 3D Filament - Carbon Fiber Reinforced, High Strength & Rigidity, Easy Print, Dimensionally Stable, Aluminum Foil Sealed Bag - for Strong and Precise Parts (Black, 1kg) - Polymaker PLA PRO Filament 1.75mm 1kg, Tough & High Rigidity Black 3D Printing Filament, PolyLite PLA PRO 3D Printer Filament 1.75mm, Print with Most 3D Printers - Polymaker Fiberon PET-CF17 3D Printing Filament Black 1.75mm 0.5kg, Excellent Stable Stiffness - Fiberon Carbon Fiber Reinforced PET 3D Printer Filament, Ideal for Jigs and Fixtures --- ## Why Shop on Desertcart? - 🛒 **Trusted by 1.3+ Million Shoppers** — Serving international shoppers since 2016 - 🌍 **Shop Globally** — Access 737+ million products across 21 categories - 💰 **No Hidden Fees** — All customs, duties, and taxes included in the price - 🔄 **15-Day Free Returns** — Hassle-free returns (30 days for PRO members) - 🔒 **Secure Payments** — Trusted payment options with buyer protection - ⭐ **TrustPilot Rated 4.5/5** — Based on 8,000+ happy customer reviews **Shop now:** [https://www.desertcart.vn/products/628102076-siraya-tech-fibreheart-pet-cf-3d-filament-carbon-fiber-reinforced](https://www.desertcart.vn/products/628102076-siraya-tech-fibreheart-pet-cf-3d-filament-carbon-fiber-reinforced) --- *Product available on Desertcart Vietnam* *Store origin: VN* *Last updated: 2026-05-15*