These materials were developed to help manufacturers of 3D molded interconnect devices (MIDs) using laser direct structuring (LDS) to meet critical requirements, such as high design flexibility, multi-function integration, miniaturization, and weight reduction. Currently, 3D MIDs with LDS technology are widely used in antennas (consumer electronics), automotive components, medical devices, and 5G base stations. ADDITIONAL INFORMATION: On pace for exponential growth, 5G technology is becoming the standard for a fully mobile and networked society through larger data capacity, faster speeds and lower latency.

Avient unveils new grades of Cesa™ Withstand™ to include antimicrobial and antifungal additives for TPU film-laminated products and devices in applications where combating microbe development is highly important.   These new grades are developed to enhance the performance of thermoplastic polyurethane (TPU) film-laminated products and devices in applications where combating microbe development is highly important.   Sustainable infrastructure solutions that increase energy efficiency, renewable energy, natural resource conservation and fiber optic / 5G network accessibility  

Calculating the Color Gamut A first of its kind for the plastics industry, this internally developed solution also calculates how much PCR content can be added to an existing application without affecting its signature color.  Sustainable infrastructure solutions that increase energy efficiency, renewable energy, natural resource conservation and fiber optic / 5G network accessibility

These antistatic concentrates can be used to increase the visual appeal of a medical device by avoiding charge-related dust accumulation. Avient offers two types of Mevopur antistatic solutions: a non-migrating solution, that uses a fibril network to offer an immediate and constant effect; and a migrating solution, which offers antistatic properties through the attraction of water molecules on the surface to lower surface tension. It is the responsibility of the medical device manufacturer and the person placing the medical device on the market to ensure compliance of the medical device with all applicable laws and regulations, including the suitability of all raw materials and components used for its manufacture.

When printing with these inks, formulas in IMS 3.0 will calculate the amount of bio-derived content associated with each Pantone color. Sustainable infrastructure solutions that increase energy efficiency, renewable energy, natural resource conservation and fiber optic / 5G network accessibility      

Manufactured across a global network of ISO 13485 facilities, they meet or exceed requirements for regulations such as USP Class VI, ISO 10993, USP 661, and ICH Q3D. These functional additives enable the material surface to repel water or other liquids to deliver the last drop out of a package or devices such as pipette tips. Sustainable infrastructure solutions that increase energy efficiency, renewable energy, natural resource conservation and fiber optic / 5G network accessibility

Below is a reconciliation of these non-GAAP financial measures to their most directly comparable financial measures calculated and presented in accordance with GAAP. With respect to our forecasted results for full-year 2020 adjusted EPS, the Company does not provide a reconciliation of this forward-looking non-GAAP financial measure because it is not possible for the Company to provide a meaningful or accurate calculation or estimation of reconciling items and the information is not available without unreasonable effort. common shareholders is calculated as follows:

Thermoplastic polyurethanes from Biomerics are used in a variety of medical device applications such as vascular access catheters, introducers, drainage catheters, interventional radiology devices, fluid management, coatings, balloons and wound care. Biomerics, LLC is an innovative medical polymer solution provider to the medical device market. Biomerics specializes in biomedical materials, compounding, injection molding, extrusion, coating, and medical device fabrication.

Mevopur™ Healthcare Functional Additives for Medical Devices and Diagnostic Equipment Mevopur™ Healthcare Functional Additives help protect and enhance the performance of polymers used in applications, such as medical housings, drug delivery devices, syringes and needles, diagnostics, and catheters. It is the responsibility of the medical device manufacturer and the person placing the medical device on the market to ensure compliance of the medical device with all applicable laws and regulations, including the suitability of all raw materials and components used for its manufacture. Please be aware that there are certain applications Avient’s Mevopur products have not been designed for, nor are they promoted or intended for use in: including, but not limited to long-term or permanent implants, birth control devices, or plastic surgery.

Lightweighting has become a buzzword for many industries, whether driven by the need to reduce energy consumption or the rise of device portability. Combined with the design and manufacturing advantages of injection molding, long carbon fiber composites simplify the re-imagination of components and devices that have demanding performance requirements.