Mevopur™ Healthcare Functional Additives for Pharmaceutical Packaging Mevopur™ Healthcare Functional Additives help protect and enhance the performance of polymers used in pharmaceutical packaging products such as vials, bottles, closure systems, films and combination devices. These functional additives are available as concentrates to dilute into the polymer, or ready-to-use formulations that can be used as such without dilution. for API handling Permanent/non-migrating; fast decay time independent of % relative humidity  Antistatic masterbatch for PE films Cost effective, long-lasting, migrating type but with biological evaluation  Gamma/e-beam sterilization protection of the polymer Preserving the properties of PP and COC/COP.

This gas then forms a cellular structure in the polymer matrix. TARGET APPLICATIONS Excelite IM chemical foaming additives (CFAs) are engineered for a wide range of injection molded polymers: olefins, PVC, polystyrene, PC/ABS and high heat applications. These versatile CFAs are ideal for use in a wide range of industries, including: • Automotive • Construction • Commercial • Personal care packaging • Structural foamed applications • Consumer goods, including specific grades available to meet food contact requirements PRODUCT BULLETIN PRODUCT NAME DESCRIPTION POLYMERS FOOD CONTACT CELL STRUCTURE Excelite IM 3 High density reduction with larger cell size.

Polymer science, industry-leading expertise with colors and additives, and our in-house color design service make us a powerful collaborator during bottle design, manufacturing, and product marketing. With both liquid and solid polymer formulations, we give you the flexibility to select the best solution for your process. They provide leading-edge insight in polymer science, packaging design and consumer trends while helping you explore innovative colorants and effects that will set you apart in the market

THE BENEFITS PLASTIWARD brings counterfeiting protection of plastic articles as close as possible to the end consumers by integrating taggants into your products’ polymer masterbatch, complying with required regulations and minimizing any impact on production. TURNKEY SYSTEM PLASTIWARD is a robust, customizable and cost-effective turnkey system consisting of: · proprietary taggants integrated directly within the polymer masterbatch · a handheld detector offering instant fake- checking in the field · a secure monitoring platform on smartphone or tablet capturing field inspection data, transmitted in real time COMBINED EXPERTISE At its core, PLASTIWARD brings together SICPA’s trusted expertise in brand protection technologies and processes, and Avient’s recognized expertise in polymer modification with colour and performance additives.

Loose buffer tube – made of PBT, PTFE, Nylon 12, PP or other polymers. Both parts are made of silica/glass or polymer 4. Central support member • Pultruded composite rod, often polymer coated 5.

• Attractive appearance to final product • Long lasting color ENVIRONMENTAL ADVANTAGES • Environmental advantages • Less production costs • Lower carbon footprint • Lower chemical usage • Waste reduction MAGIQ FIBER COLORANTS - MASTERBATCH PORTFOLIO BLACK • Standard and special products with high pigment concentrations and excellent tinting strength • MBs at lower concentrations designed to meet specific customer needs • Black MB tailored for special requirements, with particular physical/rheological properties • Optimal melt flow properties allow a good mixture with the polymer matrix yielding the best possible spinnability Carriers: PET, PBT, PA 6, PA 66, others • Continuous filament spinning, including fine denier (POY, FDY, HOY, bi-component yarns) • Spunbond WHITE • TiO2 white with excellent opacifying or tinting strength • Optical white MBs that improve the surface whiteness and/or brightness of end products • Optimal melt flow properties allow a good mixture with the polymer matrix yielding the best possible spinnability • Full pigment dispersion ensures maximum CPF/ Spinning pack life TECHNICAL ANALYSES • DSC: Thermal analyses to characterize polymers, additives and colorants • TGA: Thermogravimetric analysis to evaluate thermal stability, plus inorganic pigment, and carbon black content in the Masterbatch • FT-IR: Infrared spectroscopy for the analysis of raw materials • Incineration oven to determine inorganic content • Melt Flow Tester to measure the Melt Flow Rate of MBs and Polymers • Filter test to measure the dispersion quality and aggregate content of materials contained in the polymer matrix • Intrinsic/Relative Viscosity of Masterbatches and polymers • Moisture content in the liquid colorants, MBs and polymers • UV-Visible spectrometry: instrumental evaluation of the color on yarn to perform quality control, color matchings and recipes adjustments • Yarn testing to evaluate mechanical properties, abrasion, dry heat, rubbing and other characteristics • Our pilot spinning lines have state-of-the-art take-up winders that spin up to 4,500 meters/minute.

The carrier resin could cause performance problems in a few polymers. Cellulosic polymers 2. They will withstand the drying temperatures of most polymers that require drying before processing, such as ABS and nylon.

Complēt™ long fiber reinforced structural thermoplastics and OnForce™ long glass fiber reinforced polypropylene composites utilize carbon, glass, or specialty fibers in a broad range of thermoplastic polymers to optimize material performance to your application requirements. Pyrolysis removes the matrix polymer of injection-molded specimens to reveal the different internal fiber structure of long glass fiber and short glass fiber parts. Customized Solutions – Formulations tailored to meet specific performance targets utilizing a wide range of polymer resins and fiber reinforcement combinations including polypropylene, various nylon (polyamide) formulations, and engineered thermoplastic polyurethane resins combined with carbon and/or glass fibers, as well as functional performance enhancing additives

WEIGHT REDUCTION • Up to 75% lighter than steel; up to 25% lighter than aluminum • Better fuel economy for transportation • Simplified installation DESIGN FLEXIBILITY • Complex shapes less costly to produce than metal • Ability to tailor strength and stiffness in specific areas • Versatile aesthetic options for surface finish PART CONSOLIDATION • Easier installation and assembly with fewer parts • Simplified transport of finished goods • Fewer parts = reduced chance of failure Value that the U.S. composite materials market is expected to reach by 2022 $10.6B 50% Amount of weight reduction that advanced composites could bring to passenger cars, leading to 35% better fuel efficiency 7% CAGR that analyst firm Technavio forecasts the global medical composite materials market will experience from 2016–2020 Fiber-reinforced polymer composites combine thermoset or thermoplastic resins with fiber reinforcement, the resulting product having substantially different properties than the individual components. THERMOPLASTIC The matrix material of a composite can be a thermoset or a thermoplastic THERMOSET THERMOPLASTIC A thermoset is a cross-linked polymer that cannot be reshaped after it’s formed, cured, and cooled.

With the help of select colorants, fiber reinforcements and additives, we customize these polymers to meet the demanding requirements of our customers’ applications. Typical applications are surgical instruments and thin walled tubing • Brilliantly colored: Proven expertise in coloring high temperature polymers, in both transparent and translucent shades, including bright whites, special effects and other hard-to-achieve colors Enjoy this catalog of colorful options for high temperature polymers.