This study investigates VOC emissions from 3D printers operating various filament materials, using environmental chamber experiments, & exposure modeling.
Metal compositions of particle emissions from material extrusion 3D printing: Emission sources and indoor exposure modeling
Environments journal article "A Pilot Study to Quantify Volatile Organic Compounds and Their Sources Inside and Outside Homes in Urban India in Summer and Winter during Normal Daily Activities"
Ethylbenzene is commonly found in the indoor environment at a higher concentration than found in the outdoor air. Learn more.
Chemical Insights Research Institute published a new article featuring its extensive research database of airborne emissions resulting from material extrusion 3D printing.
This research quantified volatile organic compounds and their sources in homes in Ahmedabad and Gandhinagar, India, and in suburban Shanghai, China. Learn more.
This research provides the knowledge to assist in building the positive contribution of 3D printing and ensuring acceptable indoor air quality.
Chemical Insights Research Institute announces the UL Research Institutesβ Lifetime Achievement Award in Public Health to Dean Jones, Ph.D.