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Polyolefin elastomers (POE) are made by copolymerizing ethylene with various comonomers such as butene, propylenehexane, and octane. Low density, toughness, elasticity, low-temperature ductility, UV resistance, and thermal stability are some of its features.
Increasing demand from end-use sectors such as medical, electrical, electronics, and automotive is likely to drive the expansion of the worldwide polyolefin elastomer market during the forecast period.
POEs (polyolefin elastomers) are widely utilised in food and non-food packaging. POE has a high comonomer content, resulting in soft, flexible, and very low- materials.
As a result, it finds uses in seals, closures, wads for caps, liners flexible bags, and pouches, particularly for food and beverage packaging. They are also utilised for case and carton sealing, as well as plastic bags, vacuum bags, and other applications.
The Global Polyolefin Elastomer (POE) Market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
A novel high-performance polyolefin elastomer (POE) made from plant-based feedstock has been introduced, according to Dow Inc. The company’s Engage Ren POEs, which are produced using renewable energy and feedstocks such as recycled cooking oil, are a “more sustainable brand extension” to the company’s Engage range POEs.
The brand was made possible by Dow’s Ecolibrium technology, which turns waste and byproducts from other sectors into plastics from sustainably derived materials.
The raw materials used as feedstock don’t use up additional land resources or compete with the food chain because only waste residues or by-products from an alternate industrial process are used. In order to address the demand for eco-friendly packaging options, Borealis has introduced the Bornewables line of Polyolefins Plastomers and Elastomers based on renewable feedstock.
The production line uses ISCC PLUS-certified waste and residual streams, like spent cooking oil and vegetable oil products, to lower carbon emissions while retaining performance comparable to polyolefins derived from fossil fuels.
The business intends to produce “circular” plastics and rubbers. This shift to renewable feedstock is consistent with the Circular Cascade programme from Borealis, which aims to assist the plastics industry in making the switch to circular production.
Customers can benefit from the exceptional flexibility, sealability, processability, and compatibility qualities of Queo by using Borealis’ Bornewables line of Queo to meet their sustainability goals.