This category regroups the 3D printer filaments, by polymers, offered by ColoriLAB, for 3D printing.
PLA 3D printer filaments (Polylactic Acid - Polylactide)
ABS 3D printer filaments (acrylonitrile butadiene styrene) is more impact and heat resistant than regular PLA and is one of the most popular polymer in the plastic industry.
HIPS 3D printer filaments (High Impact Polystyrene) is impact resistant & a nice complement to ABS and PLA 3D printing filaments. It can be used as supports since it is dissolved by D-Limonene.
Nylon PA (polyamide) 3D printer filament from ColoriLAB is impact resistant, has a low coefficient of friction and good durability against abrasion.
PETG 3D printer filament polyethylene terephthalate glycol combines the fascinating transparency (when offered as clear or as transparent & translucent colors) with mechanical and enviable 3D printing properties. Having a low shrinkage rate, it is stable and has a very low distortion (warpage) behavior, when 3D printing. Also offering properties resembling those of the polycarbonate (PC), although less performing, the PETG 3D printer filament prints quite as easily as the PLA 3D printer filament.
TPE 3D printer filament is a thermoplastic elastomer (rubber) more or less easy to stretch according to its hardness.
TPU 3D printer filament is a polyurethane based thermoplastic elastomer that offers a good durability to abrasion and can be used to obtain a rubberized surface (soft touch rubber feel) or to make wheels, tires, shoe soles, hoses, seals, etc.
PC 3D printer filament (polycarbonate) offers excellent mechanical and thermal properties specifications: it is stiff and strong while having a great impact and heat resistance. It can also be clear and translucent.
PVA 3D printing filament (Polyvinyl alcohol) is water soluble. It allows to print ephemeral 3D objects that will be dissolved by rain or water. The PVA 3D printer filament may also be used to print supports that will be dissolved in water, while you're working on other tasks.
POM 3D printer filament (acetal, polyoxymethylene) offers properties similar to the nylon (PA) filament. Some advantages of the POM 3D printing filament are: its low humidity absorption, its resistance to lubricants and oils, its good friction and creep resistance, its good flexural performance and its fatigue endurance (springs). POM acetal is UV rays sensitive without protection. Moreover, when used in a friction interface with nylon (PA), the friction coefficient between the POM and the PA is very low. POM is a potential alternative to nylon and used to make bushings, gears, etc.
PP 3D printer filament (polypropylene) offers excellent flexural (live hinges) and fatigue characteristics; its macromolecules can be oriented in the stress solicitation direction. It also offers a good resistance to cracking under load.
ASA 3D printer filaments (Acrylic Styrene Acrylonitrile) are somewhat similar to ABS but having great outdoor durability & improved weather resistance (UV resistance, etc). ASA filaments provide interesting toughness & rigidity while offering good chemical resistance and superior resistance to yellowing and aging.
TPE 80A 3D printer filament 1.75mm diameter white
TPE 80A 3D printer filament 1.75mm diameter Black C
TPE 80A 3D printer filament 1.75mm diameter natural
TPE 80A 3D printer filament 1.75mm diameter blue 2145C
TPE 80A 3D printer filament 1.75mm diameter red 186C
TPE 90A 3D printer filament 1.75mm diameter dark green 2272C
TPE 90A 3D printer filament 1.75mm diameter dark yellow 109C
TPE 90A 3D printer filament 1.75mm diameter white
TPE 90A 3D printer filament 1.75mm diameter natural
TPE 90A 3D printer filament 1.75mm diameter blue 2145C
TPE 90A 3D printer filament 1.75mm diameter red 186C
TPE 90A 3D printer filament 1.75mm diameter Black C