Page Contents
Details: Certified Food Grade PLA+ 3D Printer Filament – Carbon Brand – Lab Tested, 1.75mm, 1kg, Temp: (Nozzle 190°C – 220°C, Bed: 0°C/40°C – 70°C), Accuracy: +/- 0.02 (White)
Brand: Carbon
CARBON Brand PLA+ filaments are extruded from premium REVODE110 polylactic acid resin, which feeds smoothly and constantly without clogging the nozzle or extruder while printing. REVODE110 is especially designed for 3D printing. REVODE110 is one of the easiest resins to extrude and thermoform. REVODE110 is best-in-class for its processing ease, anti-aging performance, bioavailability, thermoformability, and versatility. It is derived from natural renewable plant resources. REVODE110 is fully biodegradable and BPA free. It is an excellent low-carbon alternative for most traditional petroleum-based resins and synthetic plastics. REVODE110 has a low carbon footprint, which reduces greenhouse emissions. Because it is naturally derived from renewable plant resources, REVODE110 is incinerable, compostable, recyclable, and fully biodegradable. This allows the user to reduce white pollution. REVODE110 is certified to NSF/ANSI Standard 51 for Food Equipment Materials and may be used in various food contact applications in accordance with the U.S. Food & Drug Administration Regulations. It has also been certified Industrial-compostable by BPI and bio-based by the Bioplastic Association of Japan. The use of this high quality renewable raw material allows CARBON Brand to provide a filament that is certified food grade and food safe, with low odor, low warpage, high impact strength and good liquidity (flows smoothly). Our Clear PLA+ filament is Verified Compatible with the Prusa Mini & MakerBot Method Printer with Labs Extruder, as well as other open materials FDM 3D printers.
Advantages
- Products can be returned
- Make sure this fits by entering your model number.
- 【Certified Food Grade and Food Contact Safe】– Extruded from REVODE110 Polylactic Acid Resin. Naturally derived from renewable plant resources. CARBON Brand Filament is Food Grade Certified by both TÜV SÜD and SGS with reference to 21 CFR 175.300 of The U.S. Food & Drug Administration Code of Federal Regulations (FDA 21 CFR 175.300). Certificate included in listing images. REVODE110 has a low carbon footprint to reduce green house gases and is fully biodegradable, reducing white pollution. It is also low odor and environmentally friendly.
- 【Lab Tested】– Most PLA Filaments are not safe for contact with food. To be considered Food Grade, the Material must meet certain chemical requirements, which are specified by the FDA Code of Federal Regulations. The Material should be Laboratory tested in accordance with FDA 21 CFR 175.300. PLA+ filaments can be produced from Food Grade and Non-Food Grade Raw Materials. Carbon Brand PLA+ is lab certified by both TÜV SÜD and SGS, in compliance with FDA 21 CFR 175.300.
- 【Smooth Printing】 — REVODE110 is one of the easiest resins to extrude and thermoform with. Advanced CCD diameter measuring and self-adaptive control system in the manufacturing produces PLA+ filaments of 1.75 mm diameter, with dimensional accuracy of: +/- 0.02 mm. A stable dimensional accuracy insures a smooth feeding experience.
- 【Mechanical Properties and Consistency】– Use REVODE Polyactic Acid Resin for both 3D Printing and Injection Molding. Carbon Brand PLA+ maintains Mechanical Consistency throughout your Project. Tensile strength (X-Y): 35 ± 1.1 (MPa), Deflection Temperature: @0.455 MPa (66 psi) D 648 61.5 °C (142.7 °F), Processing Melt Temperature: 190-220 °C.
Notice
- Is an online purchase
- Delivery may be delayed in some areas.
Buyer Guide 3D Printing Supplies
When shopping for materials for your 3D printer, it’s important to do your homework. 3D printing isn’t cheap, so you’ll want to purchase the best supplies you can.- Consider the 3D printer. Some printers have certain materials that they work best with.
- Consider the material. Some materials work better with certain printers.
- Consider the extruder. Some printers work best with an extruder that is compatible with their materials.
- Consider the PLA/ABS ratio. PLA and ABS have different melting points. Some printers work best with one type of material.
How to choose 3D Printing Supplies
If you are interested in learning more about 3D printing, you may have already started shopping for the materials and tools you’ll need to create the objects you want.- 3D printing is the process by which a three-dimensional object is created one layer at a time. There are six different types of 3D printing materials to choose from:
- The filament: This is the material, such as plastic, metal, or ceramics, that is fed into a 3D printer.
- Thermal resistance: This refers to how resistant a material is to heat. Some materials, such as PLA, are more thermally sensitive.
- The layer thickness: The layer thickness of the material determines how dense the surface can be. The higher the number, the thicker the layer.
- The curing speed: This refers to how long it takes for a material to solidify.
- The bonding strength: This is the ability of the material to stick to itself or to another object.
Stability: This refers to how resistant a material is to warping or shrinking. Some materials, such as ABS, are more elastic.
When choosing your materials, it’s important to consider which items you plan to print. The printing process requires certain materials like resin, which can be toxic and flammable.
In addition to the materials, you will also want to consider the tools you will need. A 3D printer itself can cost several thousand dollars, so it’s important to choose wisely.
- The size of the printer: When choosing a printer, it’s important to consider the size of the object you plan to print.
- The printing speed: Depending on your needs, you may need a faster or slower printer.
- The resolution: The resolution refers to the level of detail you can include in your print.
- The printing volume: The bigger the printer, the more material it can process at a time.
- The filament capacity: If you plan to print bigger objects, you may need a bigger capacity.
How to maintain 3D Printing Supplies
3D printing supplies need regular maintenance in order to function properly. Experts recommend cleaning the filament before using and storing the printer parts in dust-free cabinets.- Clean the filament. Before placing your filament in the printer, it needs to be washed to remove any dust or other debris. To clean the filament, use a brush and warm water.
- Store the printer parts in dust-free cabinets. Dust can harm the filament and the printer parts. Experts recommend storing the printer parts in dust-free cabinets or cabinets with ventilation.
- Replace the filament. Over time, the filament can degrade, which reduces the sturdiness of the plastic. If your filament has any cracks or breaks, it needs to be replaced.
- Inspect the printer parts. When the filament is not being used, inspect the printer parts. If there are any scratches or dents, they will need to be fixed.