MakerBot Clean Air System with METHOD X achieves GREENGUARD Certification with MakerBot ABS, PC-ABS, and Nylon materials, with results that show ultra-fine particles and volatile organic compound emissions were well below the maximum levels
BROOKLYN, N.Y, November 30, 2021 - MakerBot, a Stratasys company (Nasdaq: SSYS), today announced that the MakerBot Clean Air™ System with METHOD X received GREENGUARD Certification from UL, a global safety science leader. MakerBot received GREENGUARD Certifications for the MakerBot METHOD®, MakerBot METHOD X® and MakerBot SKETCH™ 3D printers when printing with MakerBot Tough™ material, as well as the Clean Air System with METHOD X when printing with ABS, PC-ABS, and Nylon materials.
The Clean Air System, a dual-filtration smart-controlled system for the METHOD platform, addresses one of the biggest concerns with printing engineering materials in an office environment by providing an extra layer of protection against 3D printing emissions. Clean Air utilizes a best-in-class two-layer filtration system comprising a HEPA filter for protection against ultra-fine particles (UFPs) and an activated carbon filter for protection against volatile organic compounds (VOCs) and odors. The system accounts for ambient conditions, chamber temperature, and model material, automatically maintaining METHOD's print environment based on its surroundings. Clean Air's smart-control features are integrated into METHOD's workflow, creating a seamless 3D printing experience for users.
"Our goal with METHOD is to make 3D printing advanced engineering materials more accessible to engineers," said Nadav Goshen, CEO, MakerBot. "Part of the challenge is to make it easier to print these materials in the office, home, and school. Getting the UL GREENGUARD Certification for the MakerBot Clean Air with METHOD X shows that we can reduce 3D printing emissions from materials well below the maximum levels, a major step towards improving the 3D printing process."
Achieving GREENGUARD Certification for the Clean Air System with METHOD X is the latest in Stratasys and MakerBot's ongoing initiatives that aim to support industry safety, sustainability, and compliance. The announcement comes on the heels of MakerBot's recent launch of MakerBot RapidRinse™, a fast-dissolving water-soluble support material that removes the need for caustic chemicals and additional equipment during post-processing. METHOD and SKETCH 3D printers are equipped with features that help to ensure safer 3D printing usage, including enclosed build chambers designed to prevent access to the build plate while printing is in motion. SKETCH also includes a built-in particulate filter, making it ideal for 3D printing in classrooms.
GREENGUARD Certification is an internationally recognized product emissions certification and labeling program for manufacturers of low-emitting indoor products, furnishings and materials. Products that have achieved GREENGUARD Certification by UL are scientifically proven to meet some of the world's most rigorous, third-party chemical emissions standards.
The Clean Air System with METHOD X was tested for UFPs and VOCs in a controlled exposure chamber, according to ANSI/CAN/UL 2904.1. Findings from additional research tests showed that UFPs were reduced up to 100% and total VOCs were reduced up to 64%. Specific chemicals of health concern when printing ABS materials showed a significant reduction in emissions with Clean Air. All chemicals of concern also had emission rates and estimated office concentrations below recommended levels.
For more information about the Clean Air System, visit https://www.makerbot.com/3d-printers/method/cleanair/.
1. "Effects of Filtration on Particle and Chemical Emissions From MakerBot Method X Printer: An Update on Filtration Design", Chemical Insights, Underwriters Laboratories Inc., 2021.
2. Including ANSI/CAN/UL 2904;1 the California Specification 01350 Standard Method for the Testing and Evaluation of Volatile Organic Chemical Emissions from Indoor Sources using Environmental Chambers, V1.2;7 occupational exposure threshold values (TLV®s) published by the ACGIH®;8 Lowest Concentration of Interest (LCI) values published by the AgBB;9 and other VOCs found in 3D printer emissions with carcinogenicity, irritation/odor or other unknown health impacts.