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Assembled in the Mould: Allrounder More Produces 2-Component Parts Cost-Effectively

Assembled in the Mould: Allrounder More Produces 2-Component Parts Cost-Effectively

Arburg shows how time and costs can be saved by integrating functions, using the example of Luer connectors for the pharmaceutical industry. The two-component closures are produced by an Allrounder More 1600 with a 4+4-cavity mould from Arburg’s partner Braunform and handled by a Yaskawa six-axis robot.

When injection moulding ready-to-use Luer connectors, a delicate touch and precision are required: the part weights of the PP and TPE components are only 0.2 and 0.05 grams respectively. Four servo-electric axes from Arburg’s sister company AMKmotion control the internal mould sequences for core-back, lifting the lid, capping the closures and unscrewing the Luer threads. The compact design allows a high number of cavities in a small space.
The modular and production-efficient More series is specially designed for multi-component injection moulding. Allrounder Mores can be flexibly adapted to the specific customer and market requirements. They offer more space for larger moulds and a usable ejector stroke, more modularity during assembly, as well as ease of use and simple maintenance.

A Yaskawa six-axis robot that can be programmed directly via the Gestica control system will be presented for the first time at the trade fair. The fully control-integrated industrial robot is an addition to Arburg’s automation range. For the trade fair application, it removes the finished parts and feeds them to a camera inspection before they are deposited separately by mould cavity.

 

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Vibrantz Technologies Acquires Colorant Dispersion Division of Brazil-based Transcor

Vibrantz Technologies Acquires Colorant Dispersion Division of Brazil-based Transcor

Vibrantz Technologies, a leading global provider of specialty chemicals and materials, today announced that effective it has acquired the colorant dispersion business of Transcor Indústria de Pigmentos e Corantes Ltda (Sao Paulo, Brazil). As part of the agreement, the Transcor colorant dispersion business, which includes a range of point-of-sale, in-plant and other dispersion systems, will become part of Vibrantz’s expanded Color Solutions business unit offering in Brazil and South and Central America. Transcor’s existing dry pigments business is not part of the acquisition and a purchase price was not disclosed.

“This acquisition is an exciting opportunity to grow our regional footprint in South and Central America,” said Scott Becker, president, Color Solutions, at Vibrantz. “The Transcor product line expands the diversity of the portfolio we can provide for customers of architectural paints, industrial coatings and other related markets. Our highest priority remains meeting and exceeding customer needs and expectations and we are committed to ensuring customers receive the same quality products and service during the transition.”

Transfer of the acquired product lines to Vibrantz’s South American facilities are expected to occur in the next six months. Until that time, Transcor will continue to produce the acquired product lines and provide customer support for customers on behalf of Vibrantz.

 

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Where Does Plastic in the Great Pacific Garbage Patch Come From ?

Where Does Plastic in the Great Pacific Garbage Patch Come From ?

The Ocean Cleanup has published its latest findings on the composition, origins, and age of plastic debris accumulating in the Great Pacific Garbage Patch (GPGP). These findings add to our understanding of the plastic pollution problem, helping us refine our cleaning strategy and gain insight into the origins of this plastic.

Our previous research has shown that almost half of the plastic mass in the GPGP is composed of fishing nets and ropes (fibrous plastics used, for example, to make our The Ocean Cleanup sunglasses), with the remainder largely composed of hard plastic objects and small fragments. While the provenance of fishing nets is obvious, the origins of the other plastics in the GPGP have — until now — remained unclear.

Data on plastic debris afloat at sea has typically been based on data collected through small-scale surface trawls, initially developed to collect plankton. Due to their small size, these trawls typically collect small plastic fragments. It is difficult to trace the origins of these small fragments, limiting their usefulness in determining where GPGP plastic comes from.

Larger plastic objects, on the other hand, can sometimes carry clues that can help clarify their age, as well as their source and geographical origin. Such items, however, have only rarely been collected by seagoing researchers. Instead, they are mostly quantified using remote sensing techniques.

To address this gap in the data, in 2019, System 001/B, an early iteration of our cleanup technology, retrieved over 6000 hard plastic debris items (larger than 5 cm) from the GPGP, providing our scientists with a unique opportunity to study larger objects not studied by previous research efforts. Each item was sorted into predefined item categories and inspected individually for evidence of country of origin (evidence may include language or text on the object, company name, brand, logo, or other identifying text such as an address or telephone number, etc.) and date of production.

This comprehensive analysis revealed that roughly a third of the items were unidentifiable fragments. The other two-thirds was dominated by objects typically used in fishing, such as floats, buoys, crates, buckets, baskets, containers, drums, jerry cans, fish boxes, and eel traps.

Nearly half (49%) of plastic objects which could be dated were produced in the 20th century, with the oldest identified item being a buoy dating from 1966. This distribution is in line with our previous research showing significant occurrence of decades-old objects in the GPGP and re-emphasizes that the plastic in these garbage patches persists and can cause harm for lengthy periods, continually degrading into microplastics and becoming increasingly difficult to remove. In short, these results underline the urgent need to clean the GPGP; no matter what actions are taken to prevent riverine plastic emissions, the GPGP will persist and its content will continue to beach on remote islands, such as the Hawaiian Archipelago, and fragment into microplastics that will eventually sink to the seabed.

Countries of origin and fisheries

The primary countries/regions of origin identified on the items were Japan (34%), China (32%), the Korean peninsula (10%), and the USA (7%). Perhaps contrary to expectations, however, other countries at the rim of the North Pacific Ocean with high predicted riverine plastic emissions (such as the Philippines, for example) were not well represented in the plastic items collected from the GPGP.

The presence of high quantities of plastic from China, Japan, the Korean peninsula and the USA in the GPGP may not be entirely intuitive; most of these places are not recognized as major sources for riverine plastic emissions into the ocean. However, they do carry out the majority of industrialized fishing activities in the GPGP region.

Our scientists were intrigued by the apparent mismatch between the well-reported dominance of land-based emissions of plastic into the ocean on one hand, and the large quantity of fishing-related plastics in the GPGP on the other. If most floating plastic in the global ocean comes from rivers (i.e., from land, not from offshore fishing), why is the GPGP largely full of plastics from this other source – namely, from fishing activities?

Our research proceeded to identify the pathways which lead plastic to accumulate in the GPGP. To do this, they conducted a series of global numerical model simulations to test various scenarios, analyzing plastic emissions both from land and from fishing activities at sea. In simple terms, the models release virtual plastic particles into the ocean (either from rivers or from fishing vessels) and simulate the dispersal of these virtual particles across the ocean surface using available data on sea currents and wind.

These plastic dispersal models are useful tools to study the transport of floating marine debris. The models record the country of origin (for particles simulated entering the ocean from rivers) or the flag of the fishing vessel (for particles simulated entering the ocean from fishing vessels at sea). This allows us to trace the country of origin of each virtual plastic particle accumulating in the GPGP; a huge step forward in our understanding of precisely what plastics make up the GPGP, and where they come from.

The correlations between the modelled origins of plastic and the origins observed in the field were generally higher with the fishing source scenario than with any land-based scenario. Virtual model particles accumulating in the GPGP were predominantly identified as originating from Japan, China, the Korean peninsula and the USA, consistent with the findings from the compositional analyses. This provides strong evidence that a large proportion of floating hard plastics (i.e., not only the fishing nets themselves) in the GPGP derive from fishing activities at sea, and were not emitted directly from land.

The fishing source scenario also gave insights into the dominant fishing techniques that contribute to plastic in the GPGP. Trawler activity made up 48% of fishing activities that contributed to model particles found in the GPGP, while fixed gear and drifting longlines totaled 18% and 14% respectively. For 16% of modeled fishing activities contributing to model particle emissions, the technique was unidentified and may have been representative of any one of these three gear categories.

As such, trawlers, fixed gear, and drifting longlines accounted for more than 95% of identified fishing activities that may account for emissions of floating plastic debris into the GPGP. Trawling and fixed gear activities contributing to the GPGP generally occurred near the Asian and North American continental shelves, while drifting longlines activities were distributed throughout the oceanic zone of the whole North Pacific Ocean.

In order to create effective and efficient mitigation strategies against ocean plastic pollution, it is necessary to discover the precise entry points of plastic debris persisting in the offshore waters, where that plastic is produced, and what practices (commercial, cultural, or industrial) are contributing to its accumulation at sea. Monitoring the composition of our offshore catch further provides the observational baseline to evaluate the efficiency of various mitigation measures on the accumulation of specific type of debris at the ocean surface.

What does this mean for our cleanup strategy ?

At The Ocean Cleanup, our mission is to rid the world’s oceans of plastic. These results reinforce our two-pronged approach to achieving this mission: stemming plastic in rivers and removing legacy pollution in oceans. While plastic accumulating in the GPGP itself mostly comes from marine-based activities, it is land-based emissions that contribute the majority of plastic in the oceans globally. Thus, by intercepting plastic in rivers, we can stop plastic from entering the ocean in the first place, and largely eliminate plastic pollution in the world’s coastal waters.

However, this research confirms that cleaning up the GPGP and keeping it clean will require more. The identification of this other source of plastic to the GPGP reveals a simple truth for our cleaning strategy: while it remains essential to continue intercepting riverine plastic and cleaning up the legacy plastic in order to clean the global ocean, the GPGP itself requires an additional step. To sustainably clean the GPGP, the other source – fishing activities – must also be addressed.

Whether The Ocean Cleanup can play a role in the prevention of fishing gear losses is to be seen, based on further research. In any case, we hope this study provides valuable observational data for other organizations working to tackle this other source of ocean plastics. Identifying the provenance of ocean plastic will also help formulate strategies and better inform states in addressing the ocean plastic pollution issue, including in the context of the ongoing negotiation of a new United Nations Plastics Treaty.

 

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ICMA San Giorgio at K Show 2022

ICMA San Giorgio at K Show 2022

ICMA will attend the show with the green space for Advanced Mechanical Recycling and the orange space for its Compounding plants and Extruders.

In the green space ICMA will present:

  • The innovative “one-step” up-cycling line for flexible packaging in its latest patented version where one co-rotating extruder can produce, at the highest productivity level, top quality recycled compounds with the best energy saving performances and with a minimal and easy-to-manage lay-out.
  • New technics and solutions applied to ICMA’s established compounding/upcycling systems, like stripping, optimal design simulation and integration of devices, to maximize quality outcome even from the most challenging waste.
  • The latest track record of turnkey lines, also for direct extrusion/recycling (e.g.,Ecosheet technology), where ICMA’s technology and execution expertise is well proven by facts.

In the orange space focus we will be on:

  • Advanced compounding & direct extrusion in dynamic areas like engineering compound,TPE, HFFR, Green Polymer and other materials tied to megatrends.
  • Latest lines installed, with embedded innovations, for Biopolymer, watersolubel and natural fiber compounds.

Finally, we are excited to invite and welcome in our innovation center, the many European start-ups and early-stage ventures that need industrial compounding or extrusion lines to develop new products and formulation and achieve the deserved success.

 

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Matthews International Acquires Olbrich Gmbh and R+S Automotive Gmbh, Extends Engineering Capabilities for Energy

Matthews International Acquires Olbrich Gmbh and R+S Automotive Gmbh, Extends Engineering Capabilities for Energy

Matthews International Corporation (NASDAQ GSM: MATW) announced today that the Company has closed on the previously-announced acquisitions of German based engineering firms, Olbrich GmbH (“OLBRICH”) and R+S Automotive GmbH (“R+S Automotive”),for EUR €43 million (approximately U.S. $45 million).

Headquartered in Bocholt, Germany, Olbrich is a production and intelligent equipment manufacturer, specializing in purpose-built rotary processing equipment, including equipment used in the manufacturing of dry and wet electrodes for lithium-ion batteries uses in electric vehicles and components for hydrogen fuel cells and electrolyzers, with additional strong positions in Specialty & Pharma, Packaging and Home & Décor. R+S Automotive is a specialty engineering services provider of automation, plant and tooling concepts for automotive manufacturing companies around the world. The Company plans to integrate Olbrich and R+S Automotive with its Saueressig Engineering and Energy business, part of its Industrial  Technologies segment focused on high-precision engineering for a broad range of industrial automation applications including high-tech custom energy solutions, surfaces, marking, and coding systems.

Joseph C. Bartolacci, President and Chief Executive Officer of Matthews International, stated, “We are extremely excited to acquire Olbrich and R+S Automotive as part of our long-term strategy to offer an extended portfolio of purpose-built engineered equipment and services for the burgeoning electric vehicle and broader green energy market. Our combined capabilities offer innovative solutions to accelerate development of an end-to-end solution for dry-electrode battery production and other energy solutions.Together, our offering will have significant impact on the mass market adoption of electric vehicles and benefit the entire energy solutions industry. This strategic acquisition continues our investment in technologies and accelerates commercializing new innovations across multiple industrial automation applications.”

“Matthews is the right partner for our future,” said Bastian Kuhl, CEO of Olbrich and R+S Automotive.“Olbrich, like Matthews, is making great strides in helping to scale up the manufacturing of hydrogen fuel cell components. With Olbrich’s recent order for a mass production line for gas diffusion layers (GDL), and Matthews’ strength in the field of bipolar plates, our combined portfolio is well positioned to create a market force not only as a supplier to OEMs but also as a key production partner across Energy, Specialty & Pharma, Packaging and Home Décor.”

With the acquisition of Olbrich and R+S Automotive, Matthews International expands its global presence and solidifies itself as a key player in the energy solutions sector.

About Matthews International Corporation

Matthews International Corporation is a global provider of industrial technologies, memorialization products and brand solutions. The Industrial Technologies segment designs, manufactures, services and distributeshigh-tech custom energy storage, marking, coding and industrial automation technologies and solutions.The Memorialization segment is a leading provider of memorialization products, including memorials,caskets and cremation and incineration equipment, primarily to cemetery and funeral home customers thathelp families move from grief to remembrance. The SGK Brand Solutions segment is a leading provider of packaging solutions and brand experiences, helping companies simplify their marketing, amplify their brands and provide value. The Company has approximately 11,000 employees in more than 26 countries on six continents that are committed to delivering the highest quality products and services.

About Saueressig Group

Saueressig Group brings together the business units packaging, elastomers, surfaces, engineering, rollers and e.GEN under a common umbrella brand. As a leading international supplier along the pre-press stage as well as of rotary tools for gravure and flexographic printing processes, embossing rollers and cutting and creasing tools, Saueressig Group offers a comprehensive expertise. Saueressig works on forward-looking research projects and invests in the development of intelligent workflows and digital solutions. As an innovator for special machine construction in the field of future oriented battery and energy storage technology, individual solutions are developed for pioneers of tomorrow. Brand manufacturer, printers and converters as well as renowned manufacturers of modern energy storage technologies benefit  from solution-oriented innovations, decades of experience and maximum flexibility. Within currently 13 production sites Saueressig Group has a strong global network. Worldwide presence enables an optimal development, implementation and support of international projects at any time.

Saueressig Group is part of Matthews International Corporation (NASDAQ GSM: MATW). For more information please visit: www.saueressig.com

About Olbrich

Olbrich GmbH was founded in 1949 and together with its brand Polytype Converting, the machine builder has today become one of the world’s leading companies in the field of production machinery and equipment for the manufacture of web-shaped products. Battery foils, labels, release materials, sustainable paper and packaging materials as well as wallcoverings, floorcoverings, adhesive tapes and technical textiles are exemplary products manufactured on the lines. Olbrich has a full value chain including engineering and manufacturing as well as state-of-the-art technical centers in Bocholt (DE) and Fribourg (CH). Today, Olbrich has approximately 450 employees. Olbrich is headquartered in Bocholt (DE) and has additional locations in Hamburg (DE), Fribourg (CH) and Jiangyin City (CN).

About R+S Automotive

R+S Automotive GmbH is an important manufacturer of machines and tools for the production of interior and exterior components for the automotive industry, such as door panels, dashboards or rear shelves.R+S Automotive has a fully integrated value chain including engineering and production as well as a technical center on an area of 1,100 sqm designed to support comprehensive technical services and customer-oriented development. Today, R+S Automotive has approximately 350 employees. R+S Automotive is headquartered in Bocholt (DE) and has additional subsidiaries in Holoubkov (CZ), Jiangyin (CN), and Comstock Park, MI (USA).

 

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Taipeiplas 2022’s Forum Opens for Registration

Taipeiplas 2022’s Forum Opens for Registration

A “Sustainability Forum: Plastics in a Circular Economy” will be highlighted on September 28, the second day of the Taipei International Plastics & Rubber Industry Show, better known as TaipeiPLAS. The biennial trade show is Taiwan’s largest plastics and rubber machinery event of the industry, a time for companies and manufacturers to display their latest and greatest ideas at Taipei Nangang Exhibition Center, Hall 1, September 27 – October 1, 2022.

The forum will present a special exhibit area about "plastic and rubber sustainable development" at the entrance on the first floor of the venue. With innovative technologies and practical cases, it will be showcasing a circular model to extend the life cycle of a product value chain, which visualizes the meaning and spirit of circular economy, in a hope to enlighten participants in the forum and trade show attendees.

A number of heavyweight lecturers are invited. Lecturers for its morning session: "Zero-Carbon Future – Smart Manufacturing for Green Production" include Aditya Ramkrishna, President of Siemens Taiwan; Larry Wei, Chairman of Fong Kee, and Alan Wang, CEO of FCS Group. They will talk about the digital transformation of the machinery industry and the trend of carbon reduction.

For its afternoon, "Sustainability Vision – New Generation Plastic and Rubber Materials,"lecturers are BASF Taiwan, LCY Chemical, Far Eastern New Century, and ZwickRoell. Added to that, Yao-Kuei Hsiao, President of Plastics Industry Development Center will also join the Forum to convey his insights on how the plastics and rubber industry can seek ESG transformation all the way from materials to production.

This year’s forum will be conducted in a hybrid format, providing opportunities for speakers and attendees to communicate face-to-face, while an online English live broadcast will be offered for overseas attendees to watch. It will be held on September 28 from 10 am to4:30 pm in Conference Room 401 of Taipei Nangang Exhibition Center, Hall 1. The registration is now available at https://sustainabilityforum.com.tw/en .

On the other hand, the pre-registration for both the Taipei PLAS and the concurrent ShoeTech Taipei has also been launched. Industry professionals are encouraged to pre-register at the official website www.taipeiplas.com.tw.

 

 

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Covestro Invests in the Production of More Sustainable Polycarbonates in Asia Pacific

Covestro Invests in the Production of More Sustainable Polycarbonates in Asia Pacific

  • Capability to deliver over 60,000 tons per year of recycled polycarbonates annually by 2026 in region amid strong demand
  • Groundbreaking on company’s first dedicated mechanical recycling production line in Shanghai
  • Repurposing of an existing production line in Thailand

Recycling plastic waste through mechanical processes such as sorting, grinding, re-granulating and compounding is an essential part of the circular economy. Covestro has now announced plans to set up its first dedicated line for the mechanical recycling (MCR) of polycarbonates at its integrated site in Shanghai. The new MCR line will address the growing demand for more sustainable solutions, in particular with Post-Consumer-Recycled (PCR) products, to be used primarily for the compounding step in the manufacture of electrical and electronic products, automotive applications, and consumer goods.

The line, which represents an investment of more than EUR 27 million, will be capable of delivering more than 25,000 tons of high-quality polycarbonates and blends containing mechanically recycled content annually when it is planned to be commissioned in 2023. Overall, the company aims to be capable to deliver more than 60,000 tons of polycarbonates with recycled content in Asia Pacific per year until 2026.

“The MCR production line is another exciting step we have taken to fulfill our commitment toward a circular economy and achieve our goal to become operational climate neutral by 2035,” said Sucheta Govil, Chief Commercial Officer of Covestro. “Recycling plastic waste is absolutely essential to the circular economy, and addresses one of the major global challenges we face together as a society. We will continue to invest in expanding and improving our capacity for recycled plastics, and leading the industry to create materials with higher recycled content.”

“To meet the rapid growth in demand for more sustainable and circular solutions from our downstream customers, we will continue to invest in expanding our capabilities,” said Lily Wang, Head of Covestro’s Engineering Plastics segment, at the groundbreaking event. “This MCR production line is the latest example of our efforts in this regard and signals our commitment to driving the transition to more sustainable products in this region, especially in China.”

Repurposing a compounding facility in Thailand for the ASEAN market

Covestro will also be repurposing an existing compounding line at its Map Ta Phut site in Thailand to a plant for mechanical recycling. The conversion of the plant is scheduled to be accomplished by the end of 2022 and continue to pave the way and meet market demand for polycarbonates from post-consumer recycled (PCR) content across multiple industries in the ASEAN region. Based on the current forecast, the unit will supply up to 10 percent PCR based product of its annual production volume by 2030.

Dr. Nicolas Stoeckel, Head of Operations in the Engineering Plastics segment, said: “The new developments in China and Thailand are not only about investing in capacity increase, but also about improving our capability to produce more products with higher recycled content and more consistent quality. These developments will further strengthen Asia’s reputation as the world’s leading producer of polycarbonate PCR grades.”

The two facilities in Shanghai and Map Ta Phut will boost Covestro’s output of PCR polycarbonates Makrolon R and Bayblend R, which contain up to 75 percent recycled content and can contribute to a carbon footprint reduction of up to 50 percent while meeting performance and eco-labels’ requirements.

 

 

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TPE: the Trusted Material for Medical Diagnostic Equipment

TPE: the Trusted Material for Medical Diagnostic Equipment

Kraiburg TPE’s thermolast H TPE HC/AP series enhances design and functionality of medical diagnostic equipment.

Medical diagnostic equipment features a variety of diagnostic tools and equipment for accurate testing, tracking, measurements, and evaluations. These include ophthalmoscopes, electrocardiographs, thermometers, digital sphygmomanometers, dopplers, ultrasonography, echocardiography, and other instruments used by clinicians to screen and accurately assess a patient’s health.
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Sustainability successes of our TPE

Besides the materials for medical diagnostic equipment applications, KRAIBURG TPE’s recent sustainability innovations include a specially developed material solution for automotive, consumer, and industry applications comprising post-consumer recycled (PCR) and post-industrial recycled (PIR) content.

Are you looking for a sustainable TPE solution? Our experts are happy to answer any questions you have, as well as to offer the right solution for your application.

 

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WM to Acquire Controlling Interest in Avangard Innovative’s U.S. Business

WM to Acquire Controlling Interest in Avangard Innovative’s U.S. Business

WM announced that it has agreed to acquire a controlling interest in Avangard Innovative’s U.S. business, which will operate as Natura PCR – an independent company expected to scale and grow recycling capacity to produce an estimated 400 million pounds per year of post-consumer resin (PCR) in five years. Through Natura PCR, WM expects to deliver new recycling capabilities for its customers and provide circular solutions for films and clear plastic wrap used commercially, such as plastic stretch wrap for pallets, furniture film, grocery bags and potentially shrink wrap around food and beverage containers.

“WM’s controlling interest in Natura PCR positions us to grow and scale rapidly in the emerging PCR space,” said Jim Fish, president and CEO, WM. “WM’s core material supply capabilities, with the head start and knowledge provided by Avangard’s U.S. business, will help Natura PCR quickly deliver circular options to WM’s customers as an important component of our continued growth strategy in recycling. Today, there is so much untapped potential to reuse film – which impacts many of our commercial customers. We can help our customers close the loop and bring more recycled materials to the store shelf.”

Leading materials science company, Dow (NYSE: DOW) has been working with WM to help increase the recycling rate of plastics and create sustainable solutions in packaging, infrastructure and consumer applications. Dow has also been working with Avangard Innovative since early 2020, purchasing the company’s PCR pellets to produce REVOLOOP™, Dow’s product line with PCR content.

“We have been working with both companies to increase the use of recycled plastic in Dow’s products, and Natura PCR brings together capabilities that will unlock more options for hard-to-recycle plastics for the industry,” said Nestor de Mattos, North America commercial vice president, Packaging & Specialty Plastics, Dow. “Natura PCR further expands at scale, waste-to-market solutions across North America and advances our goal to help divert plastics from landfills to circular solutions.”

Natura PCR will focus on the mechanical recycling of film and flexible plastics – some of the most complex plastics in the recycling stream today – and converts these materials to PCR that can be used to manufacture new products replacing virgin materials. These streams make up almost a quarter of today’s plastic generation, but only about 5 percent is recycled today.

Demand for PCR is expected to grow in response to consumer-packaged goods companies’ commitments to use recycled content and pressures from consumers and regulators to increase the PCR content in the packaging materials the companies manufacture. WM has demonstrated a track record of collecting materials from commercial streams for the feedstock needed to produce PCR content and expects its materials sourcing expertise will enable the increased volume of PCR pellets that Natura PCR can produce for use in new products.

“This transaction helps the business quickly scale operations, maximize source feedstock and meet the continued rise in demand for environmental additives, such as recycled plastic resin,” said Rick Perez, CEO, Avangard Innovative. “After 30 years in the recycling business, WM’s significant involvement, coupled with the strong relationship with Dow and other customers, will set Natura PCR up to offer the most innovative end-to-end circular economy solution in the market.”

Natura PCR plans to grow recycling capabilities at Avangard’s existing plant in Waller, Texas, and build new plant capacity in the Midwest. Natura PCR will be primarily owned and controlled by WM. Avangard and affiliated entities will hold a collective minority equity position in Natura PCR. WM expects to receive investment returns comparable to its previously announced automation investments in single-stream recycling. The transaction is expected to close in late 2022, subject to the satisfaction of customary closing conditions, including regulatory approvals.

 

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Researchers Develop Plastic Film That Can Kill Viruses Using Room Lights

Researchers Develop Plastic Film That Can Kill Viruses Using Room Lights

The self-sterilising film is the first of its kind – it is low cost to produce, can be readily scaled and could be used for disposable aprons, tablecloths, and curtains in hospitals.

It is coated with a thin layer of particles that absorb UV light and produce reactive oxygen species – ROS. These kill viruses, including SARS2.

The technology used to create the film also ensures it is degradable – unlike the current disposable plastic films it would replace, which is much more environmentally friendly.

The breakthrough could lead to a significant reduction in the transmission of viruses in healthcare environments but also in other settings that uses plastic films – for example, food production factories.

The Queen’s researchers tested the film for anti-viral activity using four different viruses – two strains of influenza A virus, a highly-stable picornavirus called EMCV and SARS2 – exposing it to either UVA radiation or with light from a cool white light fluorescent lamp.

They found that the film is effective at killing all of the viruses – even in a room lit with just white fluorescent tubes.

The research was carried out by Professor Andrew Mills, Dr Ri Han and Dr Christopher O’Rourke in the School of Chemistry and Chemical Engineering at Queen’s University Belfast and Dr Connor Bamford and Dr Jonathon D. Coey at the Wellcome-Wolfson Institute for Experimental Medicine in the School of Medicine, Dentistry and Biomedical Sciences at Queen’s.

Professor Andrew Mills comments: “This film could replace many of the disposable plastic films used in the healthcare industry as it has the added value of being self-sterilising at no real extra cost. Through rigorous testing we have found that it is effective at killing viruses with just room light – this is the first time that anything like this has been developed and we hope that it will be a huge benefit to society.”

Dr Connor Bamford says: “Pathogenic viruses like SARS2 and influenza will continue to be global problem for years to come. In developing self-sterilising thin plastic films, we have created a low-cost technology that could have a significant impact on the transmission of such concerning viruses in a healthcare environment and other sectors where they are used.”

The project was funded by the Engineering and Physical Research Council, which is part of UK Research and Innovation.

EPSRC Director for Cross Council Programmes, Dr Kedar Pandya, comments: “This is a hugely exciting development which has the potential to dramatically reduce the transmission of viruses across a wide range of settings while being environmentally sustainable.

“It is an excellent example of adventurous, innovative research which has the potential to improve the lives of millions of people.”

 

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