With our big bag filling station, you can reliably fill all kinds of bulk materials. The integrated shake process compacts the bulk material in the big bag. This allows higher filling quantities to be achieved. Another positive side effect is that it ensures the stability of the big bag. Suitable for materials such as • Plastic granulates (PE, PP, PA, TPE, PET, PVC) • PET flakes, regrind, regranulate The material is usually fed into the station via a cyclone separator and filled into the big bag via the big bag filling spout. The station can be optionally equipped with dust extraction and weighing. Areas of application • Plastics industry • Recycling industry • Chemical industry • Pharmaceuticals • Logistics industry • Automotive Technical data • Stable frame construction in welded and bolted design • Includes big bag filling spout with full indicator • Big bag compaction via electro-pneumatic control Optional accessories • Weighing • Dust extraction • Operating and maintenance platforms • Reservable version for continuous filling process Your advantages at a glance • Robust construction – durable and low-maintenance • User-friendly filling of big bags – easy handling without exertion • Flexible connection options – easy integration into various conveyor and discharge systems • Increased filling quantity – savings in logistics costs and storage capacity • Guaranteed stability of the big bag

With our big bag filling station, you can reliably fill all kinds of bulk materials. The integrated shake process compacts the bulk material in the big bag. This allows higher filling quantities to be achieved. Another positive side effect is that it ensures the stability of the big bag. Suitable for materials such as • Plastic granulates (PE, PP, PA, TPE, PET, PVC) • PET flakes, regrind, regranulate The material is usually fed into the station via a cyclone separator and filled into the big bag via the big bag filling spout. The station can be optionally equipped with dust extraction and weighing. Areas of application • Plastics industry • Recycling industry • Chemical industry • Pharmaceuticals • Logistics industry • Automotive Technical data • Stable frame construction in welded and bolted design • Includes big bag filling spout with full indicator • Big bag compaction via electric motor control Optional accessories • Weighing • Dust extraction • Operating and maintenance platforms • Reservable version for continuous filling process Your advantages at a glance • Robust construction – durable and low-maintenance • User-friendly filling of big bags – easy handling without exertion • Flexible connection options – easy integration into various conveyor and discharge systems • Increased filling quantity – savings in logistics costs and storage capacity • Guaranteed stability of the big bag

With our big bag filling station, you can reliably fill all kinds of bulk materials. Suitable for materials such as • Plastic granulates (PE, PP, PA, TPE, PET, PVC) • PET flakes, regrind, regranulate • Foodstuffs and chemical products such as sugar, flour, starch, malt • Minerals such as dry clay and quartz sand The material is usually fed into the station via a cyclone separator and filled into the big bag via the big bag filling spout. The station can be optionally equipped with dust extraction and weighing. Areas of application • Plastics industry • Recycling industry • Chemical industry • Pharmaceutical industry • Logistics industry • Automotive industry • Food industry Technical data • Sturdy frame construction in welded and bolted design • Includes big bag filling spout with full indicator Optional accessories • Weighing system • Dust extraction • Operating and maintenance platforms • Reservable version for continuous filling process Your advantages at a glance • Robust construction – durable and low-maintenance • User-friendly filling of big bags – easy handling without effort • Flexible connection options – easy integration into various conveyor and discharge systems

The in-house compounded customized biobased polymer grades created for injection molding have been developed to be processed by conventional machinery and have a quite similar behavior to that of petroleum-derived plastics but with the added value of being a sustainable product. Bioplastics are not a single material, but a diverse family of materials with varying properties and applications. According to European Bioplastics, a material qualifies as a bioplastic if it is bio-based, biodegradable, or possesses both characteristics simultaneously.

Available immediately and worldwide: Thermoplastic Elastomers (TPEs) that have a variable proportion of renewable raw materials. The THERMOLAST® R range of more sustainable solutions by is expanded by a line of products from renewable raw material sources. Bio-based TPEs also have a lower product carbon footprint than established alternatives that are not based on renewable raw materials. ::: Bio-based TPE with Adhesion to PP ::: • Bio-content up to 71% • Hardness range from 30–85 ShA • Natural or translucent colors • Filled and unfilled versions • Colorable • Processing similar to fossil-based TPE • In-process recycling possible • Selected representatives are recyclable in the post-consumer waste stream ::: Bio-based TPE with adhesion to ABS/PC ::: • Bio-content up to 55% • Hardness range from 40–85 ShA • Adhesion to polar thermoplastics e.g. ABS, PC • Natural color • Filled and unfilled versions • UL 94 HB (not listed) • Colorable • Processing comparable to fossil-based TPE • In-process recycling possible ::: Bio-based TPE with adhesion to PA ::: • Bio-content ~63% • 60 ShA; further hardness adaption on request • Adhesion to Polyamides e.g. PA 6.6, PA • Natural color • Colorable • Processing comparable to fossil-based TPE • In-process recycling possible ::: Advantages of Bio-based TPE ::: > Biogenic Absorption • = Plants are taking up CO2 from the atmosphere • Positive effect on climate • Contributing to Circularity > PCF Reduction • The CO2 uptake can be accounted to the product carbon footprint • Reduction of up to 50% > Sustainability • Reducing finite raw material usage • Supporting the transition from fossil-based materials to renewable raw materials

Bio-Flex® products are completely biodegradable plastics (acc. to EN 13432) and are based entirely or partially on natural raw materials. Bio-Flex® is suitable for the following applications: ◦ agricultural films ◦ plant clips ◦ household film ◦ waste bags ◦ shoppers, bags ◦ trays ◦ nettings Advantages of Bio-Flex® at a glance: ☑ based on renewable resources ☑ certified biodegradable and compostable according to EN 13432 and ASTM D 6400 (depending on grade) ☑ certified home compostable grades available (OK Compost HOME certificate by TÜV Austria) ☑ can be processed on existing equipment without adjustments (Drop-In Solution) ☑ recyclable (in-house, e.g. production waste) ☑ food approved to EC Directives and FDA (depending on grade)

PLA: Polylactic acid (PLA) is a biodegradable and recyclable polyester made from renewable raw materials. It can range from completely amorphous (non-crystalline) to 40% crystalline. PBS and PBAT PBS is a biodegradable bioplastic produced industrially (synthetically). PBS can be produced in two ways: from fossil fuels and from glucose. Macromolecules such as starch, cellulose, and glucose are biodegradable. While PBS was historically derived from fossil fuels, today's bioplastic can be produced from up to 100% biobased materials, depending on the raw material source. The exceptional properties of PBAT resin are based on its ability to combine the beneficial properties of synthetic and biobased polymers. This makes it an ideal choice for companies looking to reduce their environmental footprint while maintaining high performance standards. In-house Bio-Compounds ClickPlastics AG has new bio-compounds that can replace ABS (acrylonitrile butadiene styrene) in various applications. Bio-compounds offer significant sustainability advantages over ABS. Made from the raw materials polyester (PBAT) and polylactic acid (PLA), Click Plastics' in-house products have mechanical properties comparable to ABS and impress with a bio-content of 75 ± 0.5% and are completely biodegradable. Although the materials are somewhat less heat-resistant due to their high bio-content, bio-compounds can be processed using standard extrusion and injection molding processes. This environmentally friendly material has the potential to revolutionize areas such as toys, household and medical devices, and 3D printing. Bio-compounds offer a promising and sustainable solution that could become the leading material in various industries.

Beologic is our answer to the question of how we bring sustainability and environmental protection into balance with quality-tested materials and a unique product portfolio. The Belgian producer is our reliable partner in the implementation of bio-based, sustainable and flexible solutions. Since its foundation in 2000, Beologic has focused on the production of wood-plastic polymers of the highest quality and has developed into a manufacturer of compounds based on various polymers and natural fibres with a capacity of 20,000 tons per year. Replacing the previous materials with natural fibers or recycled polymers from Beologic significantly reduces the CO2 footprint. This has resulted in many developments for injection molding and extrusion applications. The following product lines are manufactured by a highly motivated team: BeoBase (traditional wood-plastic compounds WPC based on standard polymers) , BeoGrade (bio-based compounds, with/without filler, compostable) , BeoSmart (density-optimized polyolefin compounds) BeoCycle (filled/unfilled compounds based on regranulate). Please contact us for a suitable product selection. We will be happy to help you.

Biodegradable plastics play a key role in sustainable product development – especially where mechanical recycling is technically difficult or economically unfeasible. With its BIOCOLEN® product range, GRAFE, based in Blankenhain, offers a tailor-made solution for precisely these areas of application: individually colored, biodegradable plastics that are not only compostable but also meet high aesthetic and functional requirements. Unlike traditional polymer types, which are increasingly required by law to be recycled, the masterbatches and compounds in the BIOCOLEN® range are inherently designed to be degradable, offering a forward-looking option for products with a limited service life. Examples range from packaging and disposable products to hygiene articles. BIOCOLEN® combines ecological responsibility with technical feasibility and design freedom.

The innovative technology of EB.S. Blasting cabins enable you to achieve precise and precise producible processing of surfaces up to Ra 0.10 μm. The ergonomic shape, the electric height adjustment, the compact overall size and the large work area enable comfortable and precise processing of the workpieces.