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Bend it like PU – Plastics in Sport

Bend it like PU – Plastics in Sport

“Plastics have revolutionised sport!”

Today, no one can imagine leather balls, wooden rackets, bamboo poles or cinder tracks in sporting competition. Natural materials have now been almost completely replaced by other materials: plastics. They are light, robust and highly functional. Thanks to intensive research, they are also becoming more and more efficient – and ultimately lead to new world records.

Today, sport and plastics are inextricably linked. But that was not always the case: billiard balls used to be made of ivory. To meet the demand, about 120,000 elephants were killed every year. Then, in 1863, Michael Phelan offered a prize of $10,000 for an alternative to ivory. A few years later, John Wesley Hyatt developed one of the first plastics: celluloid. Billiard balls were never made of celluloid, but of phenolic resin, but table tennis balls were.

 

The serve of today’s tennis pro is about 28 km/h faster than that of a tennis pro of the past – thanks to plastic.

A world record with plastic

Even though plastics have long since found their way into our everyday lives, they were far from being commonplace in sport. In the 1980s, the Swede Björn Borg was still an ace on the tennis court with his wooden racket with strings made of natural gut. Today’s tennis rackets are made of carbon fibre reinforced plastics (CFRP). They are lighter, more manoeuvrable and at the same time more robust than their predecessors – and are partly responsible for the fact that the serve of today’s tennis professional is about 28 km/h faster than that of a tennis professional of that time. The fastest measured serve was achieved by the Australian Sam Groth in May 2021 and amounted to 263 km/h.

Many sporting world records would not have been possible without plastic. At the 1952 Olympic Games, the American Bob Richards jumped 4.55 metres with a bamboo pole. In 2021, the Swede Armand Duplantis reached over 6 metres – with a pole made of CFRP. Also at the 1952 Olympics, a wooden javelin flew 73.78 metres, which won American Cy Young a gold medal. Today’s world records are just under 100 metres – set with javelins made of glass-fibre reinforced plastics (GRP).

 

A football for official competitions is no longer made of leather, but of polyurethane (PU).

Balls, boats and pools – durable thanks to plastic
A famous example of a piece of sports equipment made of plastic is the football. In the past, people played with a ball made of sewn-together leather honeycombs filled with a rubber bladder. Today, that is hardly conceivable. For fair competition, it is important that the ball does not absorb rainwater and that it returns to its original shape after a kick, which enables a precise trajectory. This is achieved thanks to polyurethane (PU), the material from which official match balls are made today. In most cases, nothing is sewn any more, but is heat-bonded in a special process called thermal bonding. This makes the ball not only durable but also highly symmetrical.

Plastics reinforced with carbon fibre or glass fibre make today’s sailing yachts extremely light and robust.

Natural materials have now also been replaced by plastics in water sports. Today, sailing yachts are largely made of CFRP or GRP. The hulls of the yachts can thus be made particularly light and robust at the same time. Special antifouling films made of silicone protect the hull from algae and mussel deposits.

In swimming pools, the material – in addition to contact with water – is exposed to chlorine for a long time. Plastics such as the copolymer Polystone from Röchling not only withstand this over the long term, but are also easy to clean and UV-resistant.

 

Today’s athletes are dressed in plastics from head to toe – from functional shirts to running shoes.

Plastics from head to toe
Today, sportsmen and sportswomen are dressed in plastic almost from head to toe. This is because functional clothing made of plastic fulfils an elementary requirement: it is warming in the cold and cooling in the heat. In addition, the breathable, lightweight synthetic fibres ensure that perspiration is not absorbed but released to the outside. Friction is also reduced thanks to functional clothing. They fit the body like a second skin and provide optimal freedom of movement.

For winter sportsmen and women, the head is also made of plastic: professional helmets are usually made of the very light material carbon on the outside. On the inside, expanded polystyrene (EPS), for example Styrofoam, is used. This can deform in the event of a fall and compensate for the impact forces.

Today, sports shoes hardly contain any natural fibres or leather. Upper materials, soles, insoles – all components of a sports shoe must be light, durable and efficient. Plastics meet all these requirements. Silica technology, which also helps car tyres to grip better, provides a firm hold. And thanks to the cushioning properties of certain rubbers, joints are relieved and protected.

Material research: faster, higher, greener
Research is constantly being conducted into new plastics and technologies to provide even more comfort and performance for the wearers of shoes. BASF has developed a foam made of a new expanded thermoplastic polyurethane (E-TPU). According to the manufacturer, Infinergy is elastic like rubber, but resiliently light. The material is used in the adidas Boost. The midsole of the running shoe consists of 2,500 E-TPU capsules, which pop up like corn kernels when you run and increase their volume tenfold. With the help of this technology, the runner receives an energy recovery and thus a boost.

Sustainability also plays a role in the new developments. Adidas, for example, spent almost a decade researching to finally bring a running shoe to market with the UltraBoost DNA Loop that is completely recyclable for the first time – true to the motto “Made to be remade”. It consists entirely of TPU – from the sole to the laces. By the way: BASF’s Infinergy material is also used in this model.

Innovative materials and technologies ensure that athletes can enjoy ever more comfort – and that they also become ever more efficient.

Plastic – a material that is revolutionising sport
The list of sports equipment made of plastic is, of course, much longer. Whether in tennis, football, water sports or athletics – today’s sports equipment has very little in common with what it used to be. Thanks to plastics, rackets, balls, clothing and co. are becoming lighter, more flexible and at the same time more robust. This increases the performance and comfort of the athletes. Plastics have made today’s world records possible in the first place.

Or as the German 400-metre hurdler Harald Schmid aptly summarises: “Plastics have revolutionised sport!”

www.mag.k-online.com

 

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Wonderfully Versatile: Plastics Shape the Car of the Future

Wonderfully Versatile: Plastics Shape the Car of the Future

Interview with Alex Horisberger, Senior Specialist Product Design, BASF

The versatility of plastic is one of its strongest characteristics, and it makes it particularly popular amongst designers. Once you have found the right plastic for a project, you have endless design possibilities. Plastic is also a favored material for BASF’s design team: in collaboration with Citroën, the chemical company rethought the classic car – with plastic as the central building block that made the implementation of the innovative concept possible in the first place.

Mr. Horisberger, you developed the oli concept car with Citroën. How can we imagine it?

Alex Horisberger: In many aspects, the concept car answers questions that are directed at the mobility of tomorrow: How can I simplify my commute? Can a vehicle save resources and be fun at the same time? How can it look good at the same time? The result is a particularly lightweight yet robust and durable automobile – without frills, unnecessary luxuries and well thought out down to the smallest detail.

What challenges arise in such a development? What requirements have to be met?

Horisberger: Durability, recyclability and simplicity play a crucial role in the novel concept. At the same time, the aim was to make sustainability look good. And in terms of production technology, the simplification principle was also consistently implemented; for example, the driver and passenger doors are identical. During development and design, we worked closely with Citroën to select the right materials from BASF’s broad portfolio.

To what extent can plastics help meet these challenges?

Horisberger: Plastics are incredibly versatile and can therefore contribute to the functionality and functional integration of many vehicle components. Our polyamides have also proven their long-term durability many times over under typical automotive conditions without aging or corrosion. Of course, the sustainability aspect is also crucial: BASF is developing plastics that enable both mechanical and chemical recycling to support the industry in its transition from a linear to a circular economy. In addition, these engineering plastics can be made from renewable or recycled raw materials.

As a company, how do you find the right material to implement the designs?

Horisberger: We are dealing here with the reversal of the normal approach to a product, because often the prevailing principle is ‘form follows function’. But when we look at a car from a sustainability perspective, materials and manufacturing technologies have to come first. In this project, the boundaries were pushed further and further, whether by using materials in unusual ways or by fundamentally rethinking the design of a component.

Which plastics are used in the concept car and why exactly these?

Horisberger: To make Citroën’s vision of reusability and simplicity a reality, BASF relied on the material of a single TPU product family for the interior, for example, thereby facilitating mechanical recycling at the end of the product life cycle. Thanks to their versatility, our TPU grades enable different functions in the process. One visionary highlight of the concept, for example, was the production of a 3D-printed seat made of TPU material that is both highly flexible and functional. The iconic storage compartment (Elastollan) and the vehicle floor (Infinergy) are made from the same product family.

The exterior features lightweight yet robust plastic components that on the one hand reduce energy consumption while driving, but on the other hand leave design managers with all the design options they need. The hood, roof and pickup-like trunk made of Elastoflex are strong enough to be used as ladders, roof tent bases or for transporting Christmas trees.

How do you assess future developments as far as the use of plastics in design objects is concerned?

Horisberger: In the numerous customer projects we carry out as BASF Creation Center, we see that the versatility of plastics, combined with the right sustainability concepts, offer designers endless possibilities to design clever products that really make consumers want to act sustainably. Just as oli impressively demonstrates: Modesty and sustainability can look good!

www.mag.k-online.com

 

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Perfect De-Flashing and Dedusting of Duroplast and Thermoplast Components at the Production Rate of the Injection Molding Machine

Perfect De-Flashing and Dedusting of Duroplast and Thermoplast Components at the Production Rate of the Injection Molding Machine

Less weight, compact design and improved sustainability – a producer of injection molded components has proven that these goals can be achieved economically with high-performance plastic materials. The company is increasingly producing work pieces from duroplast and thermoplast materials that were previously made from metal. Therefore, the capacity for de-flashing these components had to be increased. For this purpose, the customer chose a shot blasting solution from Rösler. The wire mesh belt machine RSAB 470 ensures fast and efficient processing in continuous flow. The swing satellite table machine RWS 1200 is utilized for high-quality, consistent de-flashing of single work pieces. The special dual chamber design of this machine practically eliminates any unproductive idle equipment times.

Ever since ROS GmbH & Co KG was founded in 1926 the processing of plastic materials was always at the center of the company’s activities. Initially named Press plant ROS, the company now has a nearly 100 years old tradition in this field. Today the private business, managed by third generation family members, is a high-end partner for technically demanding injection molded components made from duroplast and thermoplast materials including polyphenylene sulfide (PPS). Product development, tool making, and production take place at the company’s headquarters in Coburg, Germany. An additional manufacturing plant is located in Ummerstadt in the German state of Thuringia. For removing the flashes on the components created by the manufacturing process the company has been working with Rösler shot blast equipment since 2006.

Increase of the de-flashing shot blasting capacity

Jürgen Bär, responsible for planning in the industrial engineering department at ROS in Coburg explains: „The demand for plastic components substituting metal parts, for example in thermo management systems for the automobile industry, has been rapidly growing. In 2021 this forced us to increase our shot blasting capacity at both our manufacturing locations. The plastic components reduce the overall weight of the cars and, therefore, helpto reduce CO2 emissions. In addition, we received large orders for duroplast pre-formed components, among others from a leading manufacturer of garden tools“. After discussions with four suppliers of shot blast equipment the customer chose the wire mesh belt machine RSAB 470 and the swing satellite table machine RWS 1200 from Rösler. Jürgen Bär continues: „Deciding factors for choosing Rösler were our good experience with the shot blast machines we have been using for a long time, the compact, space-saving and sturdy equipment design and Rösler’s comprehensive knowledge in the field of plastic de-flashing. Moreover, we needed the continuous flow shot blast machine quickly. Rösler generously supplied a machine from their customer experience center within a few days“.

Consistent and energy-efficient de-flashing in the tempering frame The flexible high-capacity shot blast machine RSAB 470 at the Coburg location is used for de-flashing of components made from duroplast and the high-performance thermoplast PPS-GF materials. After de-flashing the components undergo a tempering treatment. For this purpose, the components are placed on special frames. Normally the work pieces are placed individually on the wire mesh belt. To streamline the material handling operation and eliminate this time-consuming step, Rösler adapted the standard work piece transport system of the shot blast machine to the workflow at ROS. This re-design now allows placing the raw components on the tempering frames immediately after the injection molding process. The work pieces on the frames are then passing through the shot blast machine for the de-flashing operation and can, thus, be directly transferred to the tempering station. Four turbines, specially designed for plastic de-flashing and placed above and below the wire mesh belt, ensure consistent shot blasting results. This turbine arrangement allows throwing the media consisting of polyamide grains with a diameter of 1 mm onto the work pieces from above and below. Compared to the normally utilized suction air blast systems the turbines, equipped with electric drives, are considerably more energy efficient. Jürgen Bär adds: „Not only our certification per DIN EN 50001 demands a reduction of our energy consumption, but energy savings are also necessary to save costs and for reasons of sustainability“. A blast media flow control with automatic media replenishment ensures that there is always sufficient blast media available in optimal quality. The shot blast machine is equipped with numerous technical features such as the anti-static compound dosing system with automatic compound replenishment, the efficient air extraction from the blast chamber, the dual step parts cleaning system in the outlet zone and the effective blast media cleaning system with screen and air wash separator. All these features guarantee that the components coming out of the shot blast machine are perfectly de-flashed and absolutely clean. Since the plastic materials used at ROS and the polyamide blast media can causeexplosive dust, the shot blast machines were equipped with special, ATEX-compliant filter systems.

Fully automatic and sustainable de-flashing of single work pieces

The swing satellite table machine RWS 1200 was installed to increase the shot blasting capacity at the plant in Ummerstadt. It is used for de-flashing components made from PPS-GF and outer dimensions of up to 163 mm. In line with the production cycle of the injection molding machine up to four work pieces are de-flashed simultaneously within a processing time of 40 seconds. The RWS 1200 has two chambers, equipped with four rotary satellite stations per chamber and each satellite holding one work piece. This clever design allows to unload/load work pieces in one chamber, while the work pieces in the other chamber are processed. Unproductive idle times are, therefore, minimized. One energy-efficient blast turbine throws the media onto the work pieces placed on the rotary satellite stations arranged in the shape of a diamond. The satellites are not only rotating but, depending on the work piece geometry, can also be stopped at a certain angle. Work piece areas that cannot be reached by the media thrown by the turbine, are cleaned with special air blast nozzles. This suction air blast system is equipped with pressure control and a vertically moveable nozzle holder ensuring precise de-flashing. In addition to the vertical movement a linear positioning system allows to place the nozzles precisely in front of the work pieces. The nozzles are working in either oscillating or static mode. „To minimize the usage of compressed air, we are working with work piece specific PLC processing programs“, concludes Jürgen Bär.

The RWS 1200 is also equipped with automatic replenishment devices for the blast media and the anti-static compound, an air extraction unit for the blast chamber and a blast media cleaning system.

www.rosler.com

 

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MAAG Pump System AG acquires Witte Pumps & Technology GmbH

MAAG Pump System AG acquires Witte Pumps & Technology GmbH

MAAG Pump Systems AG (“MAAG”) announced today that it has acquired Witte Pumps & Technology GmbH (“Witte”). Founded in 1984 and based in Tornesch, Germany, Witte Pumps & Technology GmbH develops and manufactures gear pumps and provides aftermarket parts and services for the chemical, plastic and polymer processing, food and beverage, and pharmaceutical industries. Witte’s deep experience, know-how and broad-ranging advanced technical knowledge allow it to deliver world-class customized solutions to its blue-chip customers across the globe.

With the acquisition of Witte, MAAG will establish a new integrated Gear Pumps business unit, which will be led by the Managing Director and former owner of Witte Pumps & Technology GmbH, Dr. Sven Wieczorek. Creating the Gear Pumps business unit will enable MAAG to serve its customers even more effectively by leveraging an expanded and integrated footprint, delivering an enhanced product portfolio and offering complete solutions to a wider range of customer needs. MAAG has production sites in Switzerland, Germany, Italy, the USA and China, as well as service centers and sales offices in France, Taiwan, Malaysia, India, Thailand and Brazil. Witte Pumps & Technology GmbH manufactures in Germany and has sales offices and service centers in the USA and China.

Commenting on the acquisition, MAAG President Ueli Thürig said, “The acquisition of Witte represents a major step in making MAAG the go-to partner for our customers’ most critical and demanding gear pump needs. MAAG’s advanced and vertically integrated manufacturing capabilities will increase the availability and supply security of gear pumps to Witte’s customers. Combining Witte and MAAG’s gear pump businesses into a new integrated business unit will amplify the attractiveness of our technological solutions and product offerings to our customers, and our worldwide footprint will allow us to better serve our global customer base.”

The CEO of Witte Pumps & Technology GmbH Dr. Sven Wieczorek commented, “MAAG and Witte complement each other perfectly. This is a unique opportunity to expand our product portfolio, and enhance our technical and manufacturing capabilities and offer complete solutions for our customers. At the same time, we will be able to extend our geographical reach, enabling us to further enhance our global customer service.”

For more information visit www.maag.com

 

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Borealis and Verbund Sign First Long-term Hydropower PPA to Supply Borealis Operations in Schwechat, Austria as of January 2023

Borealis and Verbund Sign First Long-term Hydropower PPA to Supply Borealis Operations in Schwechat, Austria as of January 2023

  • Ten-year power purchase agreement (PPA) to deliver power generated by two VERBUND hydropower plants on the Danube River
  • Borealis moves ever closer to goal of using renewable energy to power 100% of production in Polyolefins and Hydrocarbons by 2030
  • Borealis and VERBUND are driving decarbonisation efforts in Austria with their cross-sector partnerships in hydropower and solar energy generation and supply

Borealis, one of the world’s leading providers of advanced and sustainable polyolefin solutions, and a European front-runner in polyolefins recycling; and VERBUND, Austria’s leading energy company, announce that they have signed a ten-year power purchase agreement (PPA) to supply hydropower to Borealis operations in Schwechat, Austria, starting in January of 2023. The annual supply of around 220 gigawatt hours (GWh) of electricity from renewable sources is comparable to the amount of energy required to power 50,000 Austrian households for one year. VERBUND will supply power generated from two of its own Austrian hydropower plants on the Danube River, in Aschach and Abwinden-Asten. VERBUND, as one of the largest producers of hydroelectricity in Europe, generates around 97% of its electricity from renewable energy sources, and primarily from hydro.

The long-term agreement comes on the heels of the partners’ recently announced joint installation of a photovoltaic facility, also in Schwechat. The new PPA thus moves Borealis even closer to its goal of sourcing 100% renewable electricity for use in production in its major business areas of Polyolefins and Hydrocarbons by 2030. It is also a significant step towards decarbonisation: the renewable electricity generated within the framework of the new PPA will reduce Scope 2 emissions generated by Borealis at its Schwechat site by approximately 75,000 tons/year. As defined by the Greenhouse Gas Protocol, Scope 2 emissions are greenhouse gas (GHG) emissions generated on site using electricity purchased or otherwise acquired, as well as emissions generated by steam, heat, and cooling.

“The ambitious sustainability targets set forth in our Borealis Strategy 2030 are rapidly coming into reach, thanks in great part to our cross-sector partnership with VERBUND,” says Thomas Gangl, Borealis CEO. “Thanks to the around 2,200 GWh to be delivered by way of this PPA to our Schwechat operations over the next ten years, we are on track to achieve our 2030 goal of using 100% of electricity from renewable sources. These efforts are core components in our aim to re-invent essentials for sustainable living.”

“We are delighted to have entered into this long-term strategic agreement with Borealis. At VERBUND, our aim is to use our renewables know-how and experience to accompany our partners on the decarbonisation journey,” says Michael Strugl, VERBUND CEO. “The only way to reach ambitious climate and energy targets is through innovation, close collaboration, and perseverance. Together with our partner Borealis, we are driving the energy transition in Austria and all of Europe.”

www.borealisgroup.com

 

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From Waste to Value – Nordson’s EDI Die Business Supports the Circular Economy

From Waste to Value – Nordson’s EDI Die Business Supports the Circular Economy

Nordson to supply a FastGap extrusion die for the production of panels made from recycling textile fibers and plastics. CHIPPEWA FALLS, WI, USA, December 20, 2022: Circular economy is a concept that requires innovative ideas with strong partnerships to tackle the global challenge. Nordson has partnered with the European-based company, Greenful Group, to develop a system for the production of construction materials made from recycled waste.

The Greenful Group is a leader in the innovative recycling of textile, plastic, and other waste into new value-added building products that outperform traditional materials while at the same time improving the environment. Greenful targets to recycle 15% of Europe’s textile waste within the next 8 years.

“Greenful’s mission is to help solve the environmental waste crisis by transforming waste streams into products useful to society that also have an impact. We are proud to partner with Nordson, who is bringing circular solutions to the market that address these issues. Both our companies make sustainability a top priority and I believe that by working together we can make a big impact,” said Toomas Allikas, CEO of Greenful Group.

Nordson’s EDI business will support this goal by providing an Ultraflex FastGap restrictor bar die to produce construction panels made from textile fibers and composite material. “The very high content of recycled material is a challenge,” says Sam Iuliano, Chief Technologist. “We need larger than normal clearance areas within the die so the fibers are not trapped, which can lead to blockage and sheet defects.”

Nordson has worked with Greenful to develop an engineered solution utilizing the company’s Multiflow I-R distribution manifold to ensure maximum streamlining. The extrusion die will include a series of lips to cover the desired product thickness range. “We are using extensiveNordson’s EDI business will support this goal by providing an Ultraflex FastGap restrictor bar die to produce construction panels made from textile fibers and composite material. “The very high content of recycled material is a challenge,” says Sam Iuliano, Chief Technologist. “We need larger than normal clearance areas within the die so the fibers are not trapped, which can lead to blockage and sheet defects.”

Nordson has worked with Greenful to develop an engineered solution utilizing the company’s Multiflow I-R distribution manifold to ensure maximum streamlining. The extrusion die will include a series of lips to cover the desired product thickness range. “We are using extensive

www.nordson.com

 

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UBQ Materials Joins SME Climate Hub

UBQ Materials Joins SME Climate Hub

Great news! UBQ Materials joins SME Climate Hub and commits to halve greenhouse gas emissions before 2030 towards net zero before 2050.

UBQ Materials announced today that they have become one of the first companies to join the SME Climate Hub, a new groundbreaking one-stop-shop climate action platform for small and medium-sized enterprises (SMEs) to curb carbon emissions, build business resilience and take climate leadership.

The SME Climate Hub is co-hosted by the International Chamber of Commerce (ICC), the Exponential Roadmap Initiative, the We Mean Business coalition and the United Nations Race to Zero campaign, and has received support from several supply chain leaders, including BT Group, Ericsson, IKEA, Telia and Unilever, as well as funding support from Amazon and Verizon.

UBQ Materials has become one of the first signatories to the UN-recognized “SME Climate Commitment”, which forms part of the SME Climate Hub. In making this commitment, UBQ has pledged to halve its carbon emissions by 2030, achieve net-zero emissions by 2050 and to regularly report on progress towards these aims.

On the logic behind the company’s decision to join the initiative, Tato Bigio, Co-CEO and Co-Founder of UBQ Materials said, “UBQ is a bio-based thermoplastic converted entirely of unsorted household waste, including all the organics. By diverting waste from landfills, UBQ carries a climate-positive footprint and promotes circularity. We empower businesses, large and small, to substitute oil-based plastics across their supply chains and advance the race to net zero. By joining the SME Climate Hub, we commit to holding ourselves to the highest standards we hope to see from rest of the industry.”

The SME Climate Hub was launched at the start of the UN General Assembly Week and New York Climate Week by the High Level Climate Action Champion for the United Kingdom, Nigel Topping and has received initial financial support from Amazon and Verizon, through their partnership with theWe Mean Business coalition.

The SME Climate Hub will provide SMEs with a range of accessible tools and resources to help them reduce emissions and build business resilience. The platform will couple these tailored resources with opportunities for businesses to unlock direct commercial incentives – from government tax breaks to procurement preferences provided by major businesses such as BT Group, Ericsson, Ikea, Telia and Unilever, who have all agreed to work with their SME suppliers to improve climate performance and also provide concrete tools, share knowledge and exchange best practices for implementing robust climate strategies through the SME Climate Hub.

One of the most pressing existential threats to SMEs is climate emergency. It has the potential to slow economic growth by causing material damage; limiting resource availability; causing shifts in demand; leading to business interruptions and production disruptions; causing supply chain interference; and forcing business closures. With 40 to 60 percent of small businesses never reopening after a disaster, curbing carbon emissions and building business resilience is critical.

Learn more by visiting www.ubqmaterials.com

 

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PepsiCo Extends Use of UBQ from Logistics Pallets to Point of Sale in New Effort to Unlock Sustainability Across Supply Chain

PepsiCo Extends Use of UBQ from Logistics Pallets to Point of Sale in New Effort to Unlock Sustainability Across Supply Chain

UBQ Materials, climate tech developer of advanced materials made from waste, announced today that PepsiCo is expanding its use of UBQ across its supply chain with the launch of eco-friendly Lay’s display stands, “Made with UBQ,” throughout Europe.

Following PepsiCo’s successful pilot incorporating UBQ to reduce the carbon footprint of shipping pallets, the company is deepening its collaboration with UBQ in additional categories across the supply chain. The new Lay’s Chips displays will be made in part with UBQ substituting conventional oil-based plastics.

UBQ is a bio-based thermoplastic, made from 100% unsorted household waste, including all organics. Use of UBQ diverts waste from landfills and incineration, preventing emissions from being released into the environment. For every ton of UBQ produced, up to 12 tons of CO₂eq are prevented from polluting the environment.

Beyond the new product extension, PepsiCo has also expanded on the initial logistics pilot, ordering 30 thousand more shipping pallets made with UBQ. These pallets also feature recycled PP resin and recycled BOPP – the plastic film used in the company’s snack packaging – to complete the circular economy cy

“Our goal is to transform our entire supply chain to tackle the sustainability challenges the world faces. UBQ Materials’ waste-based thermoplastic reduces landfill waste, prevents emissions, and takes us towards circularity, which is why we are working towards scaling use of UBQ globally,” said David Schwartz, VP, PepsiCo Labs. “We are putting sustainability and innovation at the heart of our operations. Achieving these goals is integral to the future of our business, our customers, our consumers and the planet.”

PepsiCo’s technology venture arm, Pepsi Labs, identified UBQ Materials as an anchor solution supporting PepsiCo Positive (pep+) transformation, which places sustainability and human capital at the center of how it will create growth and value.

“We are eager to extend implementation of our advanced material into new products and markets,” said Albert Douer, Co-CEO and Chairman of UBQ Materials. “PepsiCo Labs plays a critical role in supporting Pep+, prioritizing innovations that minimize the company’s environmental impact. The climate crisis demands immediate action, and this collaboration is one example of how corporations can make significant change through simple substitutions.”

Following a round of investment led by TPG Climate Rise, UBQ Materials is expanding globally with a large-scale facility and state of the art lab in Bergen Op Zoom, Netherlands, enabling the advanced materials company to further localize waste to production cycles across Europe.

Along with five other solutions innovators, UBQ Materials was recently selected to advance PepsiCo’s sustainability agenda, as the company works to reduce Scope 1 and 2 emissions by 75 percent by 2030, a goal which is on track according to PepsiCo’s ESG Summary released earlier this month.

Learn more by visiting www.ubqmaterials.com

 

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B Corp Best for the World 2022

B Corp Best for the World 2022

Every year, B Lab recognizes the B Corps that have achieved the highest verified scores in the five impact areas evaluated on the B Impact Assessment.

The Best For The World B Corps in Environment are scored based on their action to preserve our finite resources. These companies consider the impact of their everyday footprint, including energy usage, materials, facilities, supply chain, and more.

As proud members of the B Corp Community, it is a real honor to be among the top 10% of B Corporations recognized as #BestForTheWorld in protecting our Environment in the last two impact assessments completed in 2019 and in 2022.

Based on the B Impact assessment, UBQ Materials earned an overall score of 92.5. The median score for ordinary businesses who complete the assessment is currently 50.9.

UBQ Materials has developed an advanced waste conversion technology to produce sustainable, bio-based materials as a substitute for conventional oil-based plastics. By diverting and converting landfill-destined waste, UBQ Materials is not only closing the loop on waste disposal, it is eliminating copious amounts of toxic, waste-related, methane pollution.

For every 1 ton of UBQ produced, the climate impact equivalency is a reduction of up tp 11.7 tons of CO2e. UBQ can replace traditional finite resources in thousands of durable applications, including shipping pallets, bricks, pipes, furniture, and even automotive parts.

When UBQ Materials and our fellow industrial partners hold ourselves to the highest standards of verified positive impact, we have the power to #BtheChange, unlock immense potential and accelerate the transition towards a truly circular economy and a zero-waste future.

Learn more by visiting www.ubqmaterials.com

 

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Crescent Garden Introduces Planters Made with Waste-Based UBQ to Consumer Markets

Crescent Garden Introduces Planters Made with Waste-Based UBQ to Consumer Markets

Crescent Too O+ planters are first in gardening supplies to substitute plastic with climate-positive UBQ

UBQ Materials, climate tech developer of advanced materials, announced today that its novel bio-based thermoplastic is being incorporated into a new range of planters made by Crescent Garden, a premier provider of gardening containers and self-watering solutions.

The new range of planters with UBQ, dubbed Crescent Too O+, are the first and only planters to contain the climate-positive material, and will be available to consumers and commercial gardeners. This is an important breakthrough for those in the horticulture field, where decisions are increasingly focused on what is good for the planet, in addition to what is beneficial in the garden.

“As a company focused on gardening and cultivating a healthier, sustainable environment, we have a deep understanding of why climate change needs to be addressed – and it starts with us, the producer,” said Harry Tchira, President of Crescent Garden. “Through our partnership with UBQ Materials, Crescent Garden is transforming sustainability in both the home and garden spaces with our plant-positive containers that also offer a positive impact on the world.”

A seamless substitute to oil-based plastics, UBQ is converted entirely from unsorted municipal solid waste, including organics such as garden trimmings, soiled cardboard, and food waste, that would have otherwise been directed to landfills. UBQ has already been adopted by leading industry enterprises and is used for manufacturing durable products with reduced or even positive environmental footprints.

This collaboration’s aim is to introduce more planet-positive variety to Crescent Garden’s containers without inhibiting beauty, function or value. The first styles to launch with UBQ inside are the Emma line and TruDrop container inserts, best-sellers that present opportunity for high-volume and high visibility within the portfolio.

The Crescent Too O+ planters will be launched at GAFA in Cologne, Germany, which is taking place from June 19 to June 21, and will be showcasing the UBQ products in its booth, Hall 10.1; Stand #F050 G051

Learn more by visiting www.ubqmaterials.com

 

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