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IEMAI Carbon Fiber ABS Filament 3D Printer Filament, ABS Filament 1.75mm ,Engineering, ABS Filament Filled 20% Carbon Fiber, 3D Printing Filament 1kg Spool Black

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4.3 1,015 ratings

£48.17 £48.17 per kg

Colour Name: Abs-black

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Purchase options and add-ons

Brand	IEMAI
Material	Acrylonitrile Butadiene Styrene Carbon Fiber
Colour	Abs-black
Item weight	1 Kilograms
Item diameter	1.75 Millimetres

About this item

【ABS filament Filled Carbon Fiber】⚒️80% ABS filament Filled 20% Carbon Fiber. ABS Carbon Fiber filament is a high-performance carbon fiber reinforced ABS filament. Combined with the advantages of the two materials of ABS and Carbon Fiber, Carbon Fiber ABS is ideal for printing durable items that require a higher resistance to heat. Also it is commonly used for printing functional prototypes and tough production parts.
【Carbon Fiber Filament - Features】⚒️ Full mechanical winding and strict manual examination ensure tangling free and avoid filament breaking and snapping.IEMAI ABS Carbon Fiber filament is orderly wrapped, melt well, feed smoothly and constantly without clogging the nozzle or extruder.It does not overlap,no cracking, no tangle, clog-free , bubble-Free. Stronger Toughness. Wear Resistance. High Precision & Low Shrinkage.
【Carbon Fibe ABS - Print setting】🌡️ Recommend extrusion / Nozzle temperature 220℃-260℃, bed 80℃-100℃. Due to its unique attribute of abrasiveness, we recommend to use a 0.6mm or larger stainless steel nozzle instead of brass nozzles.
【ABS filament 1.75mm - Stable Dimensional Tolerance】⚒️ 3D printer filaments are produced with high precise specification and have a tolerance of only +/- 0.02mm. Minimum tolerance and low warping to ensure consistent feeding and stable prints.
【Suitable for professional printing】👨‍🔧 Carbon Fibe ABS filament is a high temerature printing materia. It is more difficult to print with Carbon Fiber ABS than with normal filament ,such as PLA. So it is not suitable for beginners . It is more suitable for people who have successfully print ABS, TPU, NYLON experience. Please consider carefully before you purchase.

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Amazon Basics 1 kg Spool of 3D Printer Filament with Diameter of 1.75 mm (+/- 0.05 mm), Black

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Price	£48.17	£26.99	£20.99	£24.99	£17.99
Delivery	Get it 31 Jan – 3 Feb	Get it as soon as Saturday, Jan 25	Get it as soon as Saturday, Jan 25	Get it as soon as Saturday, Jan 25	Get it as soon as Saturday, Jan 25
Customer Ratings	4.31,015	4.2106	4.21,292	4.719	4.33,226
Sold by	Amazon US	IEMAI EU	Eryone-EU	LVVJ3D-UK	ZIRO
material	Acrylonitrile Butadiene Styrene Carbon Fiber	Polyethylene Terephthalate Glycol	Polylactic Acid	PETG CF	Carbon Fibre, Polylactic Acid

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Product information

Technical Details

Manufacturer

‎IEMAI

Brand

‎IEMAI

Model Number

‎IM-ABS-01

Product Dimensions

‎20 x 20 x 6 cm; 1 kg

Colour

‎Abs-black

Material Type

‎Acrylonitrile Butadiene Styrene Carbon Fiber

Number of Items

‎1

Size

‎ABS-CF

Manufacturer Part Number

‎‎‎IM-ABS-01

Item Weight

‎1 kg

Additional Information

ASIN

B0B6F86ZF8

Customer Reviews

4.3 1,015 ratings

4.3 out of 5 stars

Best Sellers Rank

18,871 in Business, Industry & Science (See Top 100 in Business, Industry & Science)
351 in Filament 3D Printing Materials

Date First Available

15 Sept. 2022

Warranty & Support

Amazon.com Return Policy:Regardless of your statutory right of withdrawal, you enjoy a 30-day right of return for many products. For exceptions and conditions, see Return details.

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Product description

Carbon Fibe ABS filament

Customer reviews

1,015 global ratings

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Agit_66
This is pink not red. Seems decent but there are chunks of impurities in the filament.
Reviewed in the United States on 11 October 2023
Verified Purchase
As the product description states, there are blobs of black burned blobs at the start of the spool.

Initially I thought I had a glob of buildup on my hot end when I did a test print. There were a couple globs of black in with the pink. I made sure there were no burnt bits of filament on my nozzle so I ran a different test print. There was another blob of black in with the pink, at this point I started looking at the spool.

When looking at the spool there were multiple blobs of larger diameter black spots. I have indicated the spots in my photos with a red arrow.

As far as printing, this prints pretty well, I am concerned that I am going to run into more impurities as the spool depletes.

Read more

Agit_66

This is pink not red. Seems decent but there are chunks of impurities in the filament.
Reviewed in the United States on 11 October 2023
As the product description states, there are blobs of black burned blobs at the start of the spool.

Initially I thought I had a glob of buildup on my hot end when I did a test print. There were a couple globs of black in with the pink. I made sure there were no burnt bits of filament on my nozzle so I ran a different test print. There was another blob of black in with the pink, at this point I started looking at the spool.

When looking at the spool there were multiple blobs of larger diameter black spots. I have indicated the spots in my photos with a red arrow.

As far as printing, this prints pretty well, I am concerned that I am going to run into more impurities as the spool depletes.

Images in this review

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S. Burtenshaw
Outstanding quality and consistency
Reviewed in the United States on 15 November 2022
Colour Name: Carbon Fiber-BlackMaterial Type: Carbon FibreVerified Purchase
I've been buying the same brand of CF-PLA for a few years now. They were out of stock, and this (IEMAI Carbon Fiber PLA) was both cheaper and in stock. (EDIT: Eight spools deep. I'm not going back.)

For context; I print exclusively functional parts, not figurines etc.

Print quality is outstanding, dimensional accuracy seems very consistent. Very low to no stringing. It handles vase mode prints very well; 8mm dia x 30mm length test pins printed very quickly (~80mm/sec actual) with no flaws. It bridges extremely well with high airflow -- honestly I've never seen better bridges from my printer.

Info on my setup;
- Extruder is a custom dual-drivegear 3:1 non-bowden extruder, hardened steel nozzle, 0.5mm bore, 0.3mm retract at 40mm/sec, heated to 223c
- Bed is glass, coated with a light mist of hairspray diluted to a thin layer with a coat of water from a spray bottle, heated to 57c
- Layer heights are usually 0.2mm or 0.25mm, outliers at 0.15mm and 0.3mm
- Print speed began around 60mm/sec~90mm/sec with ~1500mm/sec^2 acceleration, but recent improvements and tunings has it closer to 90~120mm/sec @ 3500mm/sec^2 with 0.2mm to 0.3mm layer height, with negligible notable change in quality.

It carves well if required, it drills well (unless you get it hot, obviously - it softens at a lowish temperature compared to hotter filaments, due to the PLA blend) and as stated it retains flawless dimensional accuracy. Ironed top surfaces look fantastic, and parts have a very satisfyingly solid sound when impacted. Side surfaces are smooth but grippy, a bit rougher than my normal brand of CF-PLA.

I'll update this bit as I order more rolls, but thusfar:
I've ordered eight rolls to date. I made no adjustments between rolls, and prints remained flawless with the exception of;
- The first print or two (~100g) from the first roll had occasional blockages which self-cleared within the same layer; I'm willing to attribute that to possible contamination on my end.
- The first few meters of the fifth roll, which needed a 5% feed reduction for 'perfect' surface finish.
- One nozzle jam, less than one meter of filament from the end of the sixth roll. Would've killed the print, but it was on the final, small area on the very top layer. Cleared with cold pull at 150c.
- Roll seven (Batch No 20221017ZD) had (to date) four clog issues which caused failed prints. Two abrupt, complete blockages fixed by hot-pull with no cycling after print cancel. Two partial blockages, one fixed via hot-pull, other fixed via cold-pull. I'd be more upset if these weren't non-final prototyping parts.

- Most pics are before resonance tuning, so their surface finish isn't flawless. I also had some frame stability issues causing irregular layer height, which have been solved.

- The ironing finish is astonishing. I've added three shots of 1mm thick, 115mm long vanes from an airflow project, with an ironed top surface. Ironing was 0.125mm, 20% flow rate, 30mm/sec. Lines are (BARELY) visible at this setting and using a 0.5mm nozzle; for perfection I would suggest 0.1@25mm or so. I'm not aiming for visible perfection with this project, so this is not an example of attempting such.

- Also, three additional pics of the underside of the same vanes - I literally forgot to enable supports for the underside of a dead flat, unsupported, 2mm deep, 115mm wide overhang. It's tiny so it's impossible to get better pics, but it printed, perfectly. 500mm/sec bridging acceleration, 60mm/sec bridge speed, 0.98 bridge flow rate. I've honestly never seen anything like it.

- I printed the auto-rewind filament holder, including the clutch and springs, from CF-PLA. I'm shocked to say, it has good spring-like qualities due to the TPU additive in the base blend, and the CF-on-CF clutch seems to be surviving very well so far. My extruder gearset is also printed from CF-PLA, and doesn't wear like I had expected -- this one gearset has lasted at least 12kg of printing so far.

Sum total; seven rolls (~7.5kg by filament tracker) printed on one hardened steel nozzle (so far). Five failed prints from the same roll. No filament-derived bed adhesion issues. No layer adhesion issues. No significant diameter variances or other visible/brittleness problems with the filament. Roll seven aka Batch 20221017ZD has given me the most problems. If my experience were based on this roll alone, it would be three stars. Thankfully, I do know better. This is still 'my brand'.

Read more

S. Burtenshaw

Outstanding quality and consistency
Reviewed in the United States on 15 November 2022
I've been buying the same brand of CF-PLA for a few years now. They were out of stock, and this (IEMAI Carbon Fiber PLA) was both cheaper and in stock. (EDIT: Eight spools deep. I'm not going back.)

For context; I print exclusively functional parts, not figurines etc.

Print quality is outstanding, dimensional accuracy seems very consistent. Very low to no stringing. It handles vase mode prints very well; 8mm dia x 30mm length test pins printed very quickly (~80mm/sec actual) with no flaws. It bridges extremely well with high airflow -- honestly I've never seen better bridges from my printer.

Info on my setup;
- Extruder is a custom dual-drivegear 3:1 non-bowden extruder, hardened steel nozzle, 0.5mm bore, 0.3mm retract at 40mm/sec, heated to 223c
- Bed is glass, coated with a light mist of hairspray diluted to a thin layer with a coat of water from a spray bottle, heated to 57c
- Layer heights are usually 0.2mm or 0.25mm, outliers at 0.15mm and 0.3mm
- Print speed began around 60mm/sec~90mm/sec with ~1500mm/sec^2 acceleration, but recent improvements and tunings has it closer to 90~120mm/sec @ 3500mm/sec^2 with 0.2mm to 0.3mm layer height, with negligible notable change in quality.

It carves well if required, it drills well (unless you get it hot, obviously - it softens at a lowish temperature compared to hotter filaments, due to the PLA blend) and as stated it retains flawless dimensional accuracy. Ironed top surfaces look fantastic, and parts have a very satisfyingly solid sound when impacted. Side surfaces are smooth but grippy, a bit rougher than my normal brand of CF-PLA.

I'll update this bit as I order more rolls, but thusfar:
I've ordered eight rolls to date. I made no adjustments between rolls, and prints remained flawless with the exception of;
- The first print or two (~100g) from the first roll had occasional blockages which self-cleared within the same layer; I'm willing to attribute that to possible contamination on my end.
- The first few meters of the fifth roll, which needed a 5% feed reduction for 'perfect' surface finish.
- One nozzle jam, less than one meter of filament from the end of the sixth roll. Would've killed the print, but it was on the final, small area on the very top layer. Cleared with cold pull at 150c.
- Roll seven (Batch No 20221017ZD) had (to date) four clog issues which caused failed prints. Two abrupt, complete blockages fixed by hot-pull with no cycling after print cancel. Two partial blockages, one fixed via hot-pull, other fixed via cold-pull. I'd be more upset if these weren't non-final prototyping parts.

- Most pics are before resonance tuning, so their surface finish isn't flawless. I also had some frame stability issues causing irregular layer height, which have been solved.

- The ironing finish is astonishing. I've added three shots of 1mm thick, 115mm long vanes from an airflow project, with an ironed top surface. Ironing was 0.125mm, 20% flow rate, 30mm/sec. Lines are (BARELY) visible at this setting and using a 0.5mm nozzle; for perfection I would suggest 0.1@25mm or so. I'm not aiming for visible perfection with this project, so this is not an example of attempting such.

- Also, three additional pics of the underside of the same vanes - I literally forgot to enable supports for the underside of a dead flat, unsupported, 2mm deep, 115mm wide overhang. It's tiny so it's impossible to get better pics, but it printed, perfectly. 500mm/sec bridging acceleration, 60mm/sec bridge speed, 0.98 bridge flow rate. I've honestly never seen anything like it.

- I printed the auto-rewind filament holder, including the clutch and springs, from CF-PLA. I'm shocked to say, it has good spring-like qualities due to the TPU additive in the base blend, and the CF-on-CF clutch seems to be surviving very well so far. My extruder gearset is also printed from CF-PLA, and doesn't wear like I had expected -- this one gearset has lasted at least 12kg of printing so far.

Sum total; seven rolls (~7.5kg by filament tracker) printed on one hardened steel nozzle (so far). Five failed prints from the same roll. No filament-derived bed adhesion issues. No layer adhesion issues. No significant diameter variances or other visible/brittleness problems with the filament. Roll seven aka Batch 20221017ZD has given me the most problems. If my experience were based on this roll alone, it would be three stars. Thankfully, I do know better. This is still 'my brand'.

Images in this review

Report
Rich and Eva
Great filament and Seller
Reviewed in the United States on 18 May 2022
Verified Purchase
I had issues with a roll of PETG ordered and the seller immediately reached out and sent me another roll. The second roll was just perfect, first roll must have been a fluke.

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MONA LIVSEY
Great product
Reviewed in the United States on 27 October 2021
Verified Purchase
Absolutely perfect for the miniatures that were produced with this filament.

Read more
Report
Manuel Meyer
ABS-CF einfach zu drucken mit schönem Finish und Haptik
Reviewed in Germany on 4 October 2024
Verified Purchase
Ich hatte mir das ABS-CF als Grundmaterial für kleine Gehäuse und Deckplatten gekauft, um einerseits ABS-Vorteile mit andererseits hochwertigerem Finish zu verbinden. Entgegen der Erwartung ist die Druckbarkeit auf dem Bambulab P1S (0.4mm Hardened Steel Nozzle) einwandfrei. Die Generic ABS Einstellungen etwas angepasst, Nozzle auf 260-270°C und das Druckbett auf 100°C (15-20min vorheizen). Insgesamt die Druckgeschwindigkeiten runtergefahren auf die 30-130 mm/s^2 des Herstellers. 0,2mm Base-Layer Thickness bei 0,1mm für weitere Layer. Am Ende brauchte ich keinen einzigen verschwendeten "Test"-Druck und nichtmal einen Klebestift für die Platte.
Auf den Bildern ist das schwarze PLA des Prototypen zu sehen, daneben das cf-gräuliche ABS.

- Farbe eher gräulich als schwarz, schon auf der Rolle (CF Anteil)
- Auf der Rolle sehr spröde, bricht sehr schnell
- Riecht viel weniger als erwartet (geschlossenes Gehäuse mit Filter)

An sich sehr zu empfehlen, wenn man etwas mit guter Grundstabilität, kratzerresistenterer Oberfläche als PLA und schönem Look sucht. Besonders die unkomplizierte Druckbarkeit rundet alles ab :)

Read more

Manuel Meyer

ABS-CF einfach zu drucken mit schönem Finish und Haptik
Reviewed in Germany on 4 October 2024
Ich hatte mir das ABS-CF als Grundmaterial für kleine Gehäuse und Deckplatten gekauft, um einerseits ABS-Vorteile mit andererseits hochwertigerem Finish zu verbinden. Entgegen der Erwartung ist die Druckbarkeit auf dem Bambulab P1S (0.4mm Hardened Steel Nozzle) einwandfrei. Die Generic ABS Einstellungen etwas angepasst, Nozzle auf 260-270°C und das Druckbett auf 100°C (15-20min vorheizen). Insgesamt die Druckgeschwindigkeiten runtergefahren auf die 30-130 mm/s^2 des Herstellers. 0,2mm Base-Layer Thickness bei 0,1mm für weitere Layer. Am Ende brauchte ich keinen einzigen verschwendeten "Test"-Druck und nichtmal einen Klebestift für die Platte.
Auf den Bildern ist das schwarze PLA des Prototypen zu sehen, daneben das cf-gräuliche ABS.

- Farbe eher gräulich als schwarz, schon auf der Rolle (CF Anteil)
- Auf der Rolle sehr spröde, bricht sehr schnell
- Riecht viel weniger als erwartet (geschlossenes Gehäuse mit Filter)

An sich sehr zu empfehlen, wenn man etwas mit guter Grundstabilität, kratzerresistenterer Oberfläche als PLA und schönem Look sucht. Besonders die unkomplizierte Druckbarkeit rundet alles ab :)

Images in this review

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