https://www.avient.com/sites/default/files/2021-09/avient2020sustainabilityreport-9-2-21.pdf
Hydrocerol™ Chemical Foaming and Nucleating Agents reduce material requirements by up to 20% without
compromising stiffness, mechanical properties, or aesthetic appeal.
With non-hazardous Hydrocerol™ Chemical Foaming Agents (CFA)
Avient helped the customer achieve their sustainability targets through
significant energy savings in production and finished part weight
reduction.
Added during processing,
Hydrocerol is heat activated and releases gas to form a cellular foam
structure, keeping the outer skin solid without voids.
https://www.avient.com/resources/safety-data-sheets?page=4598
FB607 White Foam Plastisol
FB607 Brown Foam Plastisol
https://www.avient.com/resources/safety-data-sheets?page=4273
T340.0 FEP FOAM CONCENTRATE 5% BN-FILLED
T635.2 FEP HIGH FLOW FOAM CONCENTRATE
https://www.avient.com/products/advanced-composites/continuous-fiber-composite-panels/polystrand-thermoplastic-composite-panels
Constructed of Polystrand™ continuous fiber reinforced thermoplastic facesheets thermally bonded with a variety of internal core materials including thermoplastic foam and honeycomb core, these engineered composite panels are constructed without secondary adhesives for a stronger bond and more efficient manufacturing process.
Learn about Hammerhead™ Marine Composite Panels made from continuous glass-fiber reinforced thermoplastic face sheets and polyester foam cores
https://www.avient.com/sites/default/files/2023-07/Avient-2022-Sustainability-Report.pdf
Color, Additives and Inks (CAI) Specialty Engineered Materials (SEM)
1.
Additional information can be found in our Position on Human Rights.
By utilizing a combination of Avient’s OnColor™ Colorants,
Hydrocerol™ Chemical Foaming Agents, and Smartbatch™
Combination Colorants & Additives, we enabled the OEM
to reduce weight and carbon emissions in panel doors,
increase UV resistance in instrument panels and replace
traditional paint processes in central consoles.
https://www.avient.com/resources/safety-data-sheets?page=4253
Geon(TM) A61-07C Low Density Foam
Geon(TM) A61-38A 14 Lb Foam
https://www.avient.com/sites/default/files/2022-09/Cesa Laser Marking Additives for Transportation Industry Bulletin.pdf
Our Cesa™ Laser
Marking Additives not only contain a laser marking
additive but also deliver a part’s color and can
include other additives such as those for scratch or
UV resistance.
During processing, a laser
beam activates laser sensitive
additives within a masterbatch.
The activation changes the
molecular structure of these
additives, causing a color change
that provides the vivid contrast
of laser marking.
https://www.avient.com/sites/default/files/2022-02/Additives and Colorants for PP-R Pipe Systems Application Bulletin.pdf
Additive
functionalities include antioxidants, UV stabilizers
and flame retardants.
Additives can be combined
with colors in a single product for convenience.
Antioxidant additives can help off-set this
oxidizing effect.
https://www.avient.com/sites/default/files/2022-12/Cesa Fiber Additives Light Stabilizers Product Bulletin.pdf
The Cesa™ Fiber Additives portfolio includes
light-stabilizing and UV-absorbing concentrates
for the spin-dyeing process.
Unlike topical finishing
treatments, which involve the addition of chemicals
in a post-treatment water bath, the additive
concentrates are incorporated into the polymer
during spinning.
Additional solutions can be offered on request for
other synthetic fibers such as PLA or TPU.
https://www.avient.com/sites/default/files/2023-09/Cesa Fiber Additives for Heat Preservation Product Bulletin_A4.pdf
Cesa™ Fiber Additives for Heat Preservation
Today’s lifestyle tends to be more focused on
outdoor sports and long-distance travel, developing
more functional clothing is the key for brand owners
and OEMs.
Cesa™ Fiber Additives for heat preservation are
the formulated additives to enhance the heat
preservation performance of textiles with synthetic
fibers according to the test standard GB/T 30127-
2013.
Fabrics made with Cesa Fiber Additives can
absorb more heat when exposed to simulated
sunlight with the wavelength from 320 to 1100nm.