Exploring advantages of these efficient industrial containers Tote containers (‘totes’) are commonly used as a cost-effective way to transport or store bulk products and materials. Many totes, or intermediate bulk containers (IBC), are made with rigid metal or polyethylene plastic caged within steel tubing.

Effective UV light blocking additive technology optimizes PET container performance to provide greater protection for UV-sensitive beverages. Packaging designers are not limited to opaque and sleeve constructions when designing containers for UV-sensitive beverages. UV barrier additives that don’t affect PET clarity or quality during recycling help brand owners improve their sustainability credentials and in general enable more recycled PET to be used when producing new containers.

Effective UV light blocking additive technology optimizes PET container performance to provide greater protection for UV-sensitive beverages. Packaging designers are not limited to opaque and sleeve constructions when designing containers for UV-sensitive beverages. UV barrier additives that don’t affect PET clarity or quality during recycling help brand owners improve their sustainability credentials and in general enable more recycled PET to be used when producing new containers.

It produces a rough surface yet does not contain abrasive components. Simplifies food packaging operations by reducing the coefficient of friction on thermoformed containers, facilitating easy separation during manufacturing and filling. Browse our library of product data sheets containing technical descriptions and details.

Effective UV light blocking additive technology optimizes PET container performance to provide greater protection for UV-sensitive beverages. Packaging designers are not limited to opaque and sleeve constructions when designing containers for UV-sensitive beverages. UV barrier additives that don’t affect PET clarity or quality during recycling help brand owners improve their sustainability credentials and in general enable more recycled PET to be used when producing new containers.

SHANGHAI, China – February 27, 2023 – Today, Avient Corporation announced the expansion of its reSound™ REC Recycled Content Thermoplastic Elastomers portfolio to include more sustainable grades containing up to 45 percent post-consumer recycled (PCR) content. The new PCR-containing reSound REC formulations are initially available in three grades with up to 45 percent PCR content from recycled lubricant oil and food packaging, covering a hardness range from 40 to 60 Shore A. At the same time, PCR-containing formulations can help manufacturers, designers, and brand owners close the gap on ambitious sustainability targets by lowering carbon emissions.  

Endothermic CFAs are based on bicarbonate and citric acid derivate compounds. Avient makes no representations, guarantees, or warranties of any kind with respect to the information contained in this document about its accuracy, suitability for particular applications, or the results obtained or obtainable using the information. The information contained herein is intended to provide general information about the use of chemical foaming agents in injection molding.

Product integrity can be maintained, even in lightweight containers, and containers are fully recyclable Does not impact clarity of the PET container Browse our library of product data sheets containing technical descriptions and details.

Simplifies food packaging operations by reducing the coefficient of friction on thermoformed containers, facilitating easy separation during manufacturing and filling. Browse our library of product data sheets containing technical descriptions and details. Reducing the surface friction of PET gains process efficiency and prevents damage to containers

HAIs constitute a significant burden (approximately 28-45 billion USD) to the U.S. healthcare system and affect 1.7 million patients annually.1,2 However, heavy chemical exposure to devices and other equipment that often contain various plastic components poses an additional challenge—many of the materials being used today are not designed to withstand such routine cleaning or the wide variety of disinfectants employed. ACTIVE INGREDIENT RELEVANT INGREDIENTS CaviCide™ 46781-6 Quaternary Ammonium Isopropanol 2-Butoxyethanol Super Sani-Cloth® 9480-4 Quaternary Ammonium Isopropanol SporGon™ N/A Hydrogen Peroxide Peracetic Acid N/A Vesphene® IIse 1043-87 2-Phenylphenol 4-Tert-Amylphenol Potassium Hydroxide Sodium Hydroxide Virex® TB 70627-2 Quaternary Ammonium Diethylene Glycol Butyl Ether Clorox® Disinfecting Wipes 5813-79 Quaternary Ammonium Hexoxyethanol Isopropanol Ethoxylated Alcohols Lysol® All-Purpose Cleaner 67619-10 Quaternary Ammonium 1-Phenoxy-2-Propanol Ethanolamine Dipropylene Glycol Formula 409® Heavy Duty Degreaser N/A N/A Propylene Glycol Butyl Ether Ethanolamine Table 1. For treatment groups, a 0.5" (13 mm) square pre-soaked gauze pad containing the disinfectant/cleaner of choice was applied to the center portion of the test specimen, replacing the gauze pad every 24 hours for a total of 72 hours (3 applications).