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Kimya TPU-R

Kimya TPU-R

By KIMYA
The Kimya TPU-R 3D filament belongs to the polyurethane family. Thermoplastic “-R” polyurethane (TPU-R) is formulated using recycled materials. It is a translucent filament with good elasticity. Furthermore, it offers a Shore hardness of 92A. It is used to print resistant and flexible parts. The Kimya TPU-R 3D filament is used in the electronics, automotive and consumer goods sectors. It offers the following properties: Flexible 100% made from recycled materials Complies with the REACH standard
Kimya PETG-R

Kimya PETG-R

By KIMYA
Kimya PETG-R (“-R for recycled”) 3D filament is formulated using materials from the industrial waste of a luxury and medical packaging products company. It is recycled and has comparable technical properties to our PETG-S (“-S for standard”) filament. The Kimya PETG-R recycled 3D filament has the following properties: Contains at least 95% post-industrial recycled materials for the non-translucent colored version (100% for the translucent natural version)* Mechanical properties similar to PETG-S Odorless Easy to print 100% French recycled material
KRATIR PA11 CF

KRATIR PA11 CF

By Tectonic 3D
KRATIR PA11 CF is a 97% bio based polyamide based on castor oil with recycled Carbon fiber. This carbon fiber reinforced polyamide 11 has a unique balance that delivers high mechanical performance ( Modulus of 8.9 GPa and Tensile strength of 105 MPa) , low moisture uptake thus dimensional stability, as well as high impact strength even at low temperatures. ● High performance PA for demanding structural applications ● High thermal resistance up to 180⁰C ● Very low moisture uptake ● Easy to print even in ambient conditions ● 97% bio-based polymer based on castor oil ● Very good surface finish ● Very ductile in Z direction ( Elongation of > 10%) Use CC 0.6 print core or CC 0.4 print core
ReForm rPET

ReForm rPET

By Formfutura
ReForm rPET is a recycled PETG filament made from post-industrial waste from a nearby located bottle manufacturer. ReForm rPET is a tough filament that is very easy to print and available in a wide range of vivid colors. How it is made 1. ReForm rPET is made from post-industrial waste from a local bottle manufacturer. 1.1 The travel distance for the shredded post-industrial PETG waste is very limited. 2. The shredded post-industrial waste then needs to be compounded. 3. The compound needs to be dried before it can be extruded. 4. After being dried the compound is being extruded into ReForm rPET filament. Key features • A high-end circular recycled PETG filament made from post-industrial waste • Easy to print o Nearly warp-free and perfect inter-layer adhesion o Good first layer adhesion to a heated glass print bed and many other surfaces • Odorless processing/printing • High toughness and dimensional accuracy • Good chemical resistance AA0.4 + Fast
ReForm rPLA

ReForm rPLA

By Formfutura
ReForm is a sustainable and circular initiative within Formfutura to efficiently manage post-industrial filament extrusion waste streams and re-use them into high-end recycled filaments. The ideology behind ReForm is to make 3D printing more sustainable – without having to make compromises on material properties – and yet keep it affordable. ReForm rPLA is based on the exact same unique formulation as our EasyFil PLA range, but is made from post-industrial filament extrusion waste. ReForm rPLA - Circularity through recycling: Filament extrusion => Collecting and shredding filament waste => Homogenizing the shredded filament waste => Compounding => Crystalizing the compound => Drying the compound => Filament extrusion. Key features • Recycled PLA filament • Sustainable packaging • Reduced environmental impact • Biodegradable • Easy to print AA0.4 + Fast
Enviro PETG Recycled

Enviro PETG Recycled

By taulman3D
Enviro PETG is 100% recycled PETG for 3d printing, housed on fully recycled cardboard spools. Both the plastic for 3d printing and the spools are fully recycled, raising the bar for eco-friendly filaments. The material prints smoothly ~240C and comes in a variety of colors, including black, white, blue, read, orange, green and aqua.
FL605R-CF

FL605R-CF

By xtellar
Braskem FL605R-CF is an engineering-grade polymer for additive manufacturing, containing 90% recycled content. Primarily sourced from recycled bottle caps, FL605R-CF is a recycled PE/PP blend that incorporates the use of recycled carbon fiber for added strength and durability. FL605R-CF provides a more sustainable solution without sacrificing printability and mechanical properties. This environmentally friendly filament provides the same low density as well as water, chemical, and impact resistance inherent to virgin polyethylene and polypropylene-based materials.
Kimya HIPS-R

Kimya HIPS-R

By KIMYA
The Kimya HIPS-R 3D filament belongs to the styrenic polymer family. This High Impact PolyStyrene (HIPS) is a thermoplastic formulated from recycled materials and which –despite being recycled– boasts good resistance to impact and heat. It is highly impermeable, enabling it to be used in container applications free of any leakage. HIPS-R has another property distinguishing it from all other filaments: its solubility in D-limonene. Indeed, it can be used as a supporting material. It is used in the manufacture of packaging and also household appliances. The Kimya HIPS-R 3D filament has the following properties: Good impact resistance 100% made from recycled materials Soluble in D-Limonene Complies with REACH and RoHS standards
Porthcurno

Porthcurno

By Fishy Filaments Ltd
Recycled PA6 Supported Print Core AA 0.4 Recommended bed - glass Recommended adhesion - PVA, Magigoo PA Porthcurno is a high sustainability, engineering grade material for use by those with a moderate to high degree of 3D printing skill or an interest in developing Circular Economy solutions. Porthcurno is strong, impact resistant, flexible when printed in small thicknesses. It is susceptable to moisture absorbtion and warping if not printed when dry. We recommend pre-print drying for at least 24 hours at between 70-80 °C and storage in a sealed, warm or dessicating caddy whilst in use. Storage at under 10% Relative Humidity or at 50°C is recommended to extend print-ready life. Extended storage or drying over 100 °C may result in discolouration. Porthcurno is dyable after printing using an off-the-shelf synthetic fabric dye, and smoothable using industrial post-print vapour smoothing technologies.
LUVOCOM 3F PA 50347 NT

LUVOCOM 3F PA 50347 NT

By LEHVOSS Group
This material is a sustainable PA6 produced based on Aquafil's chemically recycled PA6, ECONYL®. It is not only sustainable, but it can also be sent back enabling a full circular economy for the additive manufacturing for the first time. In order to enable its chemically recycling by Aquafil we are not able to add additives to control water uptake and therefore this material must be used in combination with Drywise, an in-line drying solution. Magigoo PA is advised to increase build plate adhesion.
FL600R

FL600R

By xtellar
FL600R is a recycled resin designed for use in material extrusion-based Additive Manufacturing while maximizing sustainably sourced content. Primarily sourced from recycled bottle caps, FL600R is a recycled polyolefin blend containing over 90% sustainably sourced material, providing a more sustainable solution without sacrificing printability. This environmentally friendly filament provides the same low density as well as water, chemical, and impact resistance inherent to virgin polyolefin-based materials.
Filamentive rPETg

Filamentive rPETg

By Filamentive
Produced from PET waste streams, Filamentive rPETg is a strong and odour neutral material that boasts the strength of ABS and the ease of handling of PLA. This is a perfect all-rounder material for creating strong and durable parts. In addition, rPETg is also safe for food contact*! Available for fine settings using the AA 0.4 core. * Black and white colours only
Filamentive ASA

Filamentive ASA

By Filamentive
Filamentive Acrylonitrile Styrene Acrylate (ASA) with high recycled content is a strong UV resistant material that has minimal warping. Filamentive ASA can be viewed as an improved version of ABS filaments. It is strong, has little to no warp and has the added benefit of UV resistance. ASA is the perfect engineering material for creating components that has the withstand the outdoor environments. Available for fine and fast settings using the AA 0.4 core.
Kimya ABS-R

Kimya ABS-R

By KIMYA
Kimya ABS-R 3D filament is a standard ABS based on 100% post-consumer recycled material from a recycling company based in France. Its use contributes to the development of a circular economy by reducing the emission of C02, the consumption of water and electricity as well as the oil resources necessary for its production. Acrylonitrile butadiene styrene (ABS) is a thermoplastic polymer combining lightness, high impact resistance and good temperature resistance. ABS is suitable for functional prototyping, enclosure applications in industries such as appliances, telephony, automotive, hardware and toys. Better heat resistance than PLA (around 90°C) Good impact resistance Made from 100% post-consumer recycled ABS – reduced environmental impact Compliant with REACH regulation and RoHS directive
Ultrafuse rPET

Ultrafuse rPET

By Forward AM
PET is mainly known by the well-known PET bottle material. This recycled has a natural transparent blueish look. It has excellent 3D printing properties and good mechanical characteristics. Apply Tape, adhesion spray or glue to a clean build plate to improve adhesion.
Filamentive Carbon Fibre

Filamentive Carbon Fibre

By Filamentive
Filamentive Carbon Fibre is a strong yet lightweight PET-based filament that contains 20% carbon fibre powder. This composite results in a stiff, impact and heat resistant (up to 80°C) filament that has an attractive matte black surface. Ideal for creating functional and mechanical parts, such as RC / drone components. Available for fast settings using the CC 0.6 core.
Kimya PLA-R

Kimya PLA-R

By KIMYA
The 3D filament Kimya PLA-R is a recycled and biodegradable polymer: this biosourced homopolymer can be obtained from corn starch. Polylactic acid (PLA) is a natural alternative to polyethylene. It is easy to print and is odorless. The 3D filament Kimya PLA-R can be used in industrial applications, notably packaging, and also in domestic applications: creation of everyday objects, toys, prototypes and for use in modeling. It offers the following properties: - Easy to print - Odorless - Glossy finish - Contains minimum 95% of recycled material (material that itself is obtained from 100% natural PLA-R) - Eligible to the EN 13432 and EN 14995 standards (PLA-R Natural) - Complies with the REACH standard
Filamentive rPLA

Filamentive rPLA

By Filamentive
Filamentive rPLA boasts the same great Polylactic Acid (PLA) features, such as low warping, limited smell and premium print quality while being produced from factory waste streams as opposed to virgin pellets. Users can feel good about reducing the negative environmental impact while still having one of the best print qualities in the market! This material is ideal for general prototyping. Available for fine settings using the AA 0.4 core.
CLP U-HIPS

CLP U-HIPS

By Closed Loop Plastics
CLP U-HIPS is an upcycled HIPS filament made entirely from post-consumer plastic cups and lids. Each spool is produced at our shop in Long Beach, CA, where we take plastic waste from the community and give it new life as 3D filament for makers, engineers, and enthusiasts around the world. The finished product is an engineering-grade, structural filament that is great for sustainable prototyping and can easily be used with any printer, providing a soft matte finish in either Party Pink or Nebula Black.
NonOilen

NonOilen

By Fillamentum
NonOilen® is revolutionary material. This material perfectly fits the circular economy by being 100% bio-based – the beginning of the circle starts from the soil, which means that some plants consumed CO2 from the environment first, being recyclable many times with little loss of the properties. Thanks to these, you can cut the source of input materials and reuse the material itself. Once the lifetime is over, it is 100% biodegradable in industrial compost. Here the circle is closing, and the nutrient isolated from the soil is returned to the nature.