The Universal Selection Source: Plastics & Elastomers

Industry News

LATI Evaluates the Toxicological Impact of Nanomaterials Obtained from Recycling of Polymer Composites

SpecialChem / Jun 17, 2011

LATI is a qualified partner in the Nanopolytox project (Toxicological impact of nanomaterials derived from processing, weathering and recycling of polymer nanocomposites used in various industrial applications), funded under the EU Seventh Framework Programme.

In the future the thermoplastic polymer nanoparticles will be the main protagonists of the new solutions in the field of high performance compounds. However, some environmental and safety aspects of products functionalized with nanoparticles are still to be thoroughly investigated.

The aim of this project is to evaluate the toxicological impact of nanoparticles inside the compound used in different industries and during the entire lifespan of the artifact including the later stages of recycling or destruction. It will also assess the effect of aging and degradation over time of the resin, in order to estimate the amount and danger of the nanoparticles that may be released into the environment.

The profiles of the toxicological and ecotoxicological studies of the nanoparticles obtained through both in-vitro and in vivo, in combination with physical-chemistry data will be used to perform LCIA (Life Cycle Impact Assessment) analysis that will provide not only a model describing the behavior of these particle once released from the matrix, but also a framework of biological risks related to their release into the environment.

About LATI

LATI Thermoplastic Industries is the official global supplier of high technology solutions for the thermoplastic industry; it has been officially included in the foremost independent successful compounders by Applied Market information, in the publication "Technical Compounders - A review of Europe's 50 largest players."

Source: LATI

Online Course

22 Days left to register

Thursday Apr 23 2015

By Mark DeMeuse

Define easily the ideal structure of nanocomposites to observe optimum performance (increased Tg, modulus strength, thermal stability…) for your applications.

20 Learn More & Register
PolyOne webinar on sustainable automotive lightweighting
Channel Alerts

Receive weekly digests on hot topics

Receive your alerts

Back to Top