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UFlex Introduces New Products Driven by Innovation and Sustainability in Q1 FY24

UFlex Introduces New Products Driven by Innovation and Sustainability in Q1 FY24

The research and development and business teams at UFlex Limited continued the momentum of progressive and path-breaking innovations across business verticals in Q1 FY24. The focus on continuous innovation and development has enabled the company to win several awards and patents in the quarter ended June 30, 2023.

Packaging Films

1. High Barrier Alox (F-PSX) Film: F-PSX is a high-barrier transparent BOPET film. The film has a protective printable layer atop a high barrier vacuum deposit on one side and primer coated or untreated on the other side. The critical attributes of F-PSX include excellent moisture and oxygen barrier properties, higher yield over PVDC coated films, PVDC/EVOH (PE) coated film replacement, environmentally friendly, high clarity, and product visibility. The superior high-barrier application and striking packaging make the film the go-to option for packaging items like dried meat snacks, confectionaries, and other microwavable food items. Other than this, it is also suitable for hot fill, sterilization, pasteurization, report applications (125 degrees C/45 min), and other industrial packaging.

 

Chemicals Business

1. Flex Beam Shrink Sleeve Matt Opaque White: Flex Beam Shrink Sleeve Matt Opaque White is an electron beam (EB) curable flexo white for shrink sleeves films developed by the UFlex Chemicals business. EB Shrink exhibits high opacity matt finish, tailored adhesion properties, and shrink characteristics that are formulated to print on a variety of shrink films as well as coated papers, films, and label stock on latest generations machines like Comexi Ci8 and other EB Flexo machines. It offers excellent rheology and flexibility with a shrink property of more than 70%. It provides enhanced opacity and adhesion to all types of sleeve material like PVC, PET, PET-G, OPS, OPP, etc.

 

2. FLEXSEAL HSL OGR (HV): It is an environment-friendly aqueous dispersion coating by UFlex Chemicals specially designed as oil and grease resistant, heat-sealable coating for paper and paper board applications. It is suitable for direct food contact applications as per FDA regulations. This product is approved and commercialized for paper board food tray applications.

 

3. FLEXSEAL HSL 1025(G): FLEXSEAL HSL 1025(G) is an environment-friendly aqueous dispersion by UFlex Chemicals specially designed as a heat-sealable coating for Kraft papers used in e-commerce paper bag applications. This coating is primarily used on paper for coating-to-coating side sealing on registered areas via the rotogravure process.

 

 

4. Flexcote HSLV 1170/ HF 200: Flexcote HSLV 1170/HF 200 is a 2K PU solvent-based adhesive developed by UFlex Chemicals that involves the development of high solids with medium to high-performance for lamination for ketchup, hand wash, and sauce (applications). This product can run at a high solid 45-50%, against the conventional product which runs at 30-35% on a gravure cylinder. Hence, leads to a saving of solvent by 10 – 15%.

 

Holography Business

1. Dhoop-Chaav, is a cutting-edge, multicolour petrol effect design film developed by UFlex Holography. Designed for decorative applications, this film is specially designed for sequins application in textiles. It imbibes a unique effect where, unlike the typical imported iridescent rainbow films, the Dhoop-Chaav film stands out with its distinctive effect, showcasing a visual appeal that’s both captivating and unparalleled. With this new Dhoop-Chhav film, the business is offering an elevated alternative that will replace imported shimmery rainbow film and take textile designs to greater heights.

Flexible Packaging Business

1. Large format liquid pouches with spout, developed by UFlex Flexible Packaging, demonstrates technological advancement and material science expertise. Pouch capacity ranges from 3 to 5 litres with innovative, ergonomically suited carry handles, and integrated spouts for enhanced user experience and easy dispensation. This breakthrough packaging is designed to allow at least 70% less usage of plastic material unlike rigids. UFlex portable pouches go through a rigorous testing protocol and thus showcases excellent durability for distribution. It stands out on retail and home shelves with beautiful graphics for applications ranging from beverages to cleaning and laundry liquids. Equally importantly it enables brand owners to make it affordable.

 

2. 3-D Pouch with slider for 1kg Albikr Alleppey Green Cardamom is a UFlex developed product that comes with ultra-user-friendly zip closures that provide an assurance of complete fastening and reliable product freshness. The BOPP matt finish film gives a neat and softer look to the packaging, making it look more natural.

3. DeHaat 5-paneled pouch for Green Agrevolution is another product developed by UFlex Flexible Packaging for a startup in Agri space. This is a 5-paneled pouch that is designed with registered tactile coating and a dynamic QR code. These features not only make the packaging stand out but also enable consumer connect.

 

Engineering Business

1. Rotary Horizontal High-Speed Form Fill and Seal Machine with Gripper: Over the last decade, the flexible packaging industry has grown to astonishing heights. Among the increasing competition, manufacturers must practice continual innovation and development to stay ahead of the curve. There is a constant need for businesses to evolve to adapt to the needs of customers around the globe. A revolutionary new design of a Rotary Horizontal High-Speed Form Fill and Seal machine with a gripper by UFlex Engineering enables output pouches to be held into the grippers to make them free from career belts. This ensures the quality of the pouch and controls leaks.

Awards and Accolades:

  • UFlex was recognized as “The Economic Times Sustainable Organization 2023” for its contribution toward sustainable development in the country.
  • Flex Films, UAE, has been recognized as “The Economic Times Sustainable Organisation 2023” for its contribution toward sustainable development in the GCC region.

Patents:

  • The UFlex Packaging Films business has been granted a patent for its innovative research methodology to develop thermoformable films used for packaging medicines and pharma/edible products (Patent No.: 431242).
  • The UFlex Engineering business has been granted a patent for a new innovative product, ‘Blister Forming Film from PET’ (Patent No.: 431432).

For more details, please visit: www.uflexltd.com

 

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Optical Component Manufacturing – A Lesson in Timing, Trust, Partnership, & Experience

Optical Component Manufacturing – A Lesson in Timing, Trust, Partnership, & Experience

Paul Townley-Smith, Director of Design & Prototyping, Zygo

In today’s competitive landscape, industrial manufacturers are realizing that delivering excellent products alone is no longer sufficient. Every organization is now striving to find ways to shorten their development cycles in order to stay ahead of their competitors. While many manufacturers prefer to keep most of their product development steps in-house, this approach may not be ideal when it comes to fabricating optical devices. It is important to carefully analyze whether making or buying optical parts and components is the best approach for your team, budget, and business goals before deciding.

QUESTIONS IF CONSIDERING IN-HOUSE OPTICS MANUFACTURING

When it comes to in-house optics fabrication and assembly, while it offers more control over the product development process, it can be both costly and time-consuming. Finding personnel with the necessary experience in this specialized field can be challenging, and acquiring the required equipment alone can take months. Furthermore, developing the expertise to master the intricate processes involved in optics fabrication can take years. Unless the predicted volume of production is high, the reduced cost of internally produced optics may not outweigh the fixed costs associated with implementing and maintaining the infrastructure.

Moreover, the infrastructure required for optics fabrication and assembly is highly specialized and cannot be easily adapted for alternative uses. Precision is crucial in optics manufacturing, with tolerances measured in microns and nanometers. This level of precision requires a unique set of skills and expertise that is not commonly found in traditional machine shops. Additionally, working with brittle and fragile materials introduces the need for meticulous handling to prevent costly fractures or cosmetic defects. With optical devices we are working with the physics of light, the math can be difficult, and conclusions reached are often seemingly counter-intuitive.

QUESTIONS IF CONSIDERING OUTSOURCING

In contrast, when buying optics from established vendors, certain factors come into play. These include the desire to avoid the margins added by optics vendors, a long-term need for high volumes of optics, concerns about loss of control over schedules when outsourcing production, or the need to maintain intellectual property within the company. While in some cases, the high investment required for in-house production may pay off, in the majority of cases, the advantages of buying from a reputable vendor outweigh the benefits of making optics internally.

Choosing to buy optics from a vendor eliminates the need for substantial upfront investments in infrastructure, equipment, and personnel. This is particularly advantageous when future volumes and demand for optics are uncertain. Additionally, outsourcing provides bounded and predictable costs, with vendors shouldering any overruns. Even when the demand is for low volumes, vendors geared up for high-volume production across various products can leverage their efficiency to offer cost-effective solutions. Continuous technological advancements in optics fabrication and metrology also lead to rapid depreciation of investments, making buying optics from vendors who regularly invest in improving their tools a more attractive proposition.

Scheduling advantages also favor buying optics from vendors. By outsourcing to specialists who have extensive experience in the field, time to market is reduced as there is no need to navigate a steep learning curve. Vendors’ expertise allows them to design and develop products efficiently, minimizing costly mistakes and speeding up the process, particularly in cases where the design sophistication is high. Working with vendors who already have the necessary equipment and experienced teams in place saves significant time compared to building the required optics manufacturing infrastructure from scratch.

Strategically, outsourcing optics manufacturing makes sense especially if the optical part being purchased is not a critical enabling technology for the customer’s final product. This allows time and resources to be focused on other crucial areas of the business. Vendors become risk mitigators, reliable and efficient partners that complement the efforts of internal teams focused on the core aspects of the business.

WHEN TO ENGAGE AN OPTICS PARTNER

When deciding to buy optics, it is essential to engage with a competent vendor at the right stage of the product development process. Early product development requires agility, quick iterations, and cost-effectiveness, which can be efficiently handled by internal resources and dedicated consultants who don’t carry the overhead costs of a production vendor. During this phase, the focus is on getting the technical specifications right and defining the operating window through prototype testing.

However, when transitioning to the product implementation phase, it is advisable to engage with a vendor such as Zygo. This is the stage where proof of concept is complete, the final product concept is ready, and the technical performance window is well understood. The system-level specifications, including size, weight, power, and optical requirements (such as field of view, image or beam quality, numerical aperture, and radiometry), are defined, and environmental requirements are established.

Working with vendors like Zygo during the product implementation phase allows for optimized designs that are fit for purpose. They can provide accurate specifications, predictable schedules for prototypes, and initial low-rate production. These vendors have the expertise and knowledge gained from making similar devices, ensuring quicker fulfilment, and minimizing mistakes and costs. Additionally, competent vendors have a well-established supply chain ready to accommodate your product requirements.

VENDOR SELECTION QUESTIONS

When selecting a vendor during the product implementation phase, there are a few factors to consider. Look for vendors who develop their own machines for optics fabrication, assembly, and testing. They have a deeper understanding of the product and can achieve compounding returns through continuous improvement. Assess the vendor’s track record in making devices similar to what you need, as this indicates their ability to deliver efficiently and adhere to schedules. Lastly, choose a vendor that can leverage their existing infrastructure to manufacture your parts, reducing your capital investment costs and ensuring more efficient production with lower costs.

PARTNERSHIP & TRUST

Finally, let’s talk about the importance of partnership when working with a sub-contract specialist company for the design, development, and manufacture of optical components. The term “partnership” is often thrown around, but not always lived up to. Many supplier-customer relationships end up being mere transactions, lacking the true collaboration that makes for an efficient product development process. However, a well-functioning partnership can make a significant difference.

Sometimes, customers are hesitant about the idea of partnership. There’s a fear of being locked into a relationship once the project progresses from design and development to manufacturing. But if you find a supplier that demonstrates an open, honest, and trustworthy approach to the relationship and pricing, you can overcome those concerns. A genuine partnership means having clear expectations and open communication, finding the right experience for your specific application, and strong program management and processes to keep everything on track.

Trust is the foundation of a successful supplier-customer relationship. It brings obvious benefits, but the absence of trust can result in wasted time and difficulties. A good relationship allows both parties to focus on the end goal rather than getting lost in contractual details aimed at protecting against every possible challenge. Lack of trust often leads to a transaction-oriented relationship, where the customer retains internal ownership of the design (without the necessary skills to support it) and treats the supplier as a mere job shop, seeking to reduce dependency. In such a relationship, there’s no commitment or buy-in, and both sides constantly struggle to come out on top in future contract negotiations.

When it comes to trust, it can be helpful to view your chosen optical component supplier as a consulting business rather than just a manufacturing business. This mindset shifts the initial interactions towards discussions about ways of working, expertise, and trust. If you approach the supplier purely as a manufacturing business, the focus immediately turns to technical parameters, capabilities, and specifications, which can be challenging for customers to assess accurately.

Therefore, customers should ask themselves two important questions:

First, can I trust that my partner will protect my interests, even when I’m not closely monitoring them? This aspect of trust is about values. Customers should be concerned about long-term inter-dependency because of the manufacturing relationship. Will the supplier be honest and transparent when they make mistakes? Will they promptly inform you about any issues that may impact you before it’s too late to take action?

Second, can I trust my partner to deliver excellent results? This question revolves around competence. Does the partner have the necessary skills, capabilities, and experience to provide the solutions you need? Can they assure you that no matter how challenging the problems may be, they have a talented team capable of solving them efficiently? Will they create designs that are appropriate for your requirements, without being unnecessarily expensive or prone to failure in the field? And do they have the necessary processes and discipline to meet established schedules?

SUMMARY

Building a partnership based on trust and competence with your optical component supplier is essential for a successful collaboration. Prioritize open communication, shared values, and the supplier’s ability to deliver exceptional results. By doing so, you can establish a reliable and efficient relationship that drives your project forward.

www.zygo.com

 

 

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Sustainable Practices, Education and Collaboration Key for the Future of Agri-Nutrients

Sustainable Practices, Education and Collaboration Key for the Future of Agri-Nutrients

Adopting sustainable practices, educating the farming community, and fostering collaboration will be at the heart of shaping a sustainable future for agri-nutrients between now and 2050, said speakers at the 13 th annual edition of the Gulf Petrochemicals and Chemicals Association (GPCA) Agri-Nutrients Conference. The conference is taking place this week from at the Ritz-Carlton, Doha, Qatar, under the theme “Sustainable Transformation in Practice – The Future of Agri-Nutrients”.

According to GPCA analysis, in 2022 GCC agri-nutrient production amounted to 34.6million metric tons (mMT), which represents 16.2%of global production. As global demand for agri- nutrients continues to increase exponentially, the agri-nutrient industry must develop accurate, effective and practically waste-free agri-nutrients to help support global food production and contribute to food security, speakers said.

Abdulrahman Al-Suwaidi, CEO, QAFCO and Chairman, Agri-Nutrients Committee, GPCA, delivered the opening remarks on day one, 18 September, in which he highlighted the essential role of agri-nutrients. His remarks were followed by an opening keynote entitled ‘Looking ahead – Envisioning the world of agri-nutrients in 2050’ by Federico Zardi, CEO, Casale SA. In his opening keynote, Zardi called upon the agri-nutrient value chain to engage in “a cooperative competitive scenario” where healthy competition continues to be the driving force behind innovation and progress, and cooperation among stakeholders contributes to “the greater good”.

Abdulrahman Shamsaddin, CEO, SABIC Agri-Nutrients, and Vice-chair, Agri-Nutrients Committee, GPCA, presented the keynote address, in which he described SABIC’s 26 years of agri-nutrient innovation. In a plenary session, Prof. Robert Stavins, AJ Meyer Professor of Energy and Economic Development, Harvard University, discussed the challenges and opportunities of climate change and energy transition. The opening remarks on day two, 19 September will be delivered by Eng. Yasser A. Rahim Alabbasi, CEO, GPIC and Board Member, International Fertilizer Association (IFA). He will be followed on stage by John Baffes, Senior Economist, Macroeconomics, Trade & Investment, World Bank Group, who will present the keynote address.

Dr. Abdulwahab Al-Sadoun, Secretary General, GPCA, commented: “With the world population projected to exceed 9.8 billion people in 2050 and 11.2 billion in 2100, more pressure is being added on our finite natural resources. Agri-nutrients play an essential role in helping to grow more food with less resources. As major producers and exporters of agri-nutrients globally, our region alone helps to feed over 200 million people globally. Therefore, our role in the global food chain is essential. He added: “The future of agri-nutrients will require us to adapt food security strategies to meet mounting demand. It will require us to consider the impact of climate change and strike a balance between the health of our environment and sustainable, profitable business. We must also optimize the agri-nutrients value chain, while reducing carbon emissions, and play an active role in mitigating the climate impact of agriculture through the implementation of sustainable practices, education and collaboration.”About the Gulf Petrochemicals Chemicals Association:
The Gulf Petrochemicals and Chemicals Association (GPCA) was established in 2006 to represent the downstream hydrocarbon industry in the Arabian Gulf. Today, the association voices the common interests of more than 250 member companies from the chemical and allied industries, accounting for over 95 percent of chemical output in the GCC. The industry makes up the second largest manufacturing sector in the region, producing over US$ 107.8 billion worth of products in 2022. GPCA supports the petrochemical and chemical industry in the Arabian Gulf through advocacy, networking and thought leadership initiatives aimed at helping member companies to connect, share and advance knowledge, contribute to international dialogue, and become prime influencers in shaping the future of the global petrochemicals industry. Committed to providing a regional platform for stakeholders from around the world, GPCA manages six working committees – Plastics, Supply Chain, Fertilizers, International Trade, Research and Innovation, and Responsible Care – and organizes six world-class events each year. The association also publishes an annual report, regular newsletters and various other industry reports.
www.gpcaagrinutrients.com

 

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KRAIBURG TPE Targets Sustainable TPE and Innovative Automotive TPE Solutions at T-PLAS 2023

KRAIBURG TPE Targets Sustainable TPE and Innovative Automotive TPE Solutions at T-PLAS 2023

KRAIBURG TPE has launched its new sustainable TPEs comprising of up to 48% PCR and 50% PIR recycled content. Together with its latest automotive TPE solutions, the company is set to impress in the T-PLAS 2023 Exhibition from 20 until 23 September at Hall 102, Booth no. Q15, BITEC Bangkok.

KRAIBURG TPE, a global TPE manufacturer of thermoplastic elastomer products and custom-engineered TPE solutions for a wide range of industries and applications, is set to present its sustainable TPE series and automotive innovative TPE series for the Asia Pacific market at the show.

High demand for more sustainable materials

More manufacturers are now incorporating sustainable materials into their products to meet increasing consumer demand for sustainable products. These have recycled content, are recyclable, or are produced with renewable materials. In a market saturated with new materials, thermoplastic elastomers (TPE) excel in meeting both the high-performance and sustainability criteria of manufacturers in contributing towards a more circular and sustainable economy.

Additionally, the rapid development of the automotive market has driven higher demand for new innovative materials, specifically in performance and vehicle aesthetics – providing solid support to automotive manufacturers via the latest TPE innovations in this competitive market.

New Sustainable TPE for food contact, consumer electronics and industrial applications

KRAIBURG TPE’s latest sustainable TPE series for the Asia Pacific targets the consumer electronics, wearable, consumer, and industry markets. The sustainable TPE series comprise up to 48% post-consumer recycled (PCR) and 50% post-industrial recycled (PIR) contents.

Furthermore, the series feature good adhesion to PP, PC and ABS with non-sticky surface, good mechanical properties, and temperature stability up to 80°C. It also complies with multiple global standards such as FDA raw material compliance, RoHS and REACH SVHC requirements. It is ideal for applications such as electric and electronic components, wearables, functional and design elements, connectors, cable clips, household articles, grip applications, toothbrushes, and more.

Innovative TPE for Automotive interior and new sustainable TPE for Automotive exterior market.

KRAIBURG TPE will showcase its latest Asia Pacific targeted TPE innovations for both interior and exterior automotive applications. The innovative sustainable automotive exterior TPE has a post-consumer recycled content of up to 20%, while the automotive interior TPE delivers good surface appearance and more.

Both TPEs series feature good adhesion to PP, low density, weather resistant, good flowability, controlled level of emission and odor, and more. This innovative automotive TPE series is ideal for applications such as cowl gaskets, window encapsulations, underbody applications, handles, functional and design elements, car mats, seals, grommet and more.

TPEs for diverse markets

KRAIBURG TPE’s comprehensive TPE portfolio offers innovative and customized solutions that meet the unique demands and specifications of each market. It provides reliable, high-performance materials to enhance products and experiences for numerous applications such as medical, healthcare, packaging, sports, and so forth.

Their commitment to quality, innovation, and customer satisfaction has established them as a trusted partner in delivering high-performance thermoplastic elastomer for a wide range of applications.

www.kraiburg-tpe.com

 

 

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SABIC Offers Bio-Based Versions of All NORYL Resin Grades to Further Advance the Bioeconomy of Plastics

SABIC Offers Bio-Based Versions of All NORYL Resin Grades to Further Advance the Bioeconomy of Plastics

SABIC, a global leader in the chemical industry, is now offering bio-based versions of all NORYL, Flexible NORYL, NORYL GTX and NORYL PPX resin grades to help customers meet increasingly rigorous sustainability goals. The bio-based versions, formulated with polyphenylene ether (PPE) resin feedstocks certified under International Sustainability & Carbon Certification (ISCC) PLUS, provide properties similar to those of fossil-based grades. Customers may select from multiple levels of bio-based content for their chosen NORYL product.

To demonstrate the feasibility of this bio-based approach, SABIC has proactively commercialized three popular NORYL grades; however, these example materials represent only a small percentage of the full offering. The availability of bio-based versions broadens the choice of environmentally responsible NORYL resins beyond the company’s recently introduced post-consumer recycled (PCR)-based materials containing more than 25 percent PCR content.

“We’re pleased to provide customers with new choices to reduce the global warming potential of both existing and new applications made with NORYL materials,” said Joshua Chiaw, director, Business Management, LNP & NORYL, Specialties, SABIC. “Bio-based PPE feedstocks enable SABIC to efficiently produce sustainable NORYL materials that can serve as drop-in replacements for traditional grades – with equivalent performance and processability. Expansion of our NORYL resin portfolio with bio-based versions is a key part of our strategy for helping brands, OEMs, tier suppliers and molders achieve their sustainability goals.”

Example Bio-based NORYL Grades

The following bio-based products are available now. Customers wishing to order bio-based versions of other NORYL, NORYL GTX, Flex NORYL or NORYL PPX materials should contact their SABIC representative.

NORYL NH5120BIO4 resin is well suited for evaluation in housings and enclosures, heating/ventilation/air conditioning (HVAC) components and photovoltaic/solar junction boxes. It is a bio-based, non-brominated/non-chlorinated flame-retardant resin with a UL flame rating of V1 at 1.5mm with no intentionally added per- and polyfluorinated substances (PFAS). NORYL NH5120BIO4 resin delivers a balance of heat resistance, flow, hydrolytic and dimensional stability, and creep performance, and retains its good mechanical properties in harsh outdoor environments.

NORYL GFN2BIO3 resin features high strength, hydrolytic and dimensional stability, low warpage and low specific gravity. This bio-based material carries a UL746C outdoor suitability rating of F1 and is an excellent candidate for indoor and outdoor applications in the building & construction and lawn & garden industries.

NORYL GTX902BIO3 resin is a bio-based PPE alloy that provides excellent chemical resistance and paintability for potential use in applications such as automotive wheel covers, automotive electrical components and painted automotive trim.

ISCC PLUS Certification of Feedstock Production Facility and NORYL Materials

“Our Selkirk, New York, facility was one of the first production and compounding facilities to receive ISCC PLUS accreditation for the production of PPE resin and compounds based on renewable, bio-circular sources,” said Evelyn Pearson, senior manager, Process Technology, Technology & Innovation, Specialties, SABIC. “We plan for NORYL grades formulated with these bio-based feedstocks to be certified under ISCC PLUS at Selkirk and other global NORYL compounding plants. This achievement underscores SABIC’s commitment to building a circular plastics industry.”

www.sabic.com

 

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Unifi Inc. USA Transforms Plastic Waste into High-Tech Fiber, Thanks to Lindner Micromats

Unifi Inc. USA Transforms Plastic Waste into High-Tech Fiber, Thanks to Lindner Micromats

Of the 400 million tons of plastics produced worldwide each year, too much still ends up in our waterways and landfills. Unifi, Inc., one of the world’s leading manufacturers of high-performance synthetic and recycled fibers, has decided to tackle this global problem. They collect used plastics, including PET bottles, especially near the coasts of developing countries and regions, ensuring that plastics do not end up in the ocean in the first place. Three shredders from Lindner’s Micromat series work 24/7/365 to ensure that these are optimally shredded for the downstream processes.

The topic of plastics recycling has received a tremendous amount of media attention recently. Higher recycling rates, improved collection systems and more efficient processing facilities ensure that plastic waste is recycled and repurposed. Yet there are regions where environmental protection and recycling have not advanced and waste, including plastic waste and plastic bottles, is still being sent to landfills or ending up in our oceans. Unifi, the world’s leading manufacturer of recycled high-performance fibers, has decided to make a difference. From plastic collected within 50 km of waterways or coastal areas, mainly in developing countries, the company produces Repreve Our Ocean recycled fiber. This process ensures that plastics are returned to the cycle as a valuable raw material, thus avoiding the islands of rubbish from growing in our oceans and reducing their dramatic impacts on humans and animals.

When Unifi was looking for a reliable partner to set up an efficient shredding process in 2018, they chose shredding solutions from Lindner. Today a total of three Lindner Micromat 2000 prepare plastic and textile waste for its journey to extrusion, spinning and finally winding the fibers used by some of the world’s best-known brands, such as Pottery Barn, Levi’s, and Tom’s Shoes. Scott Trivette, Operations Manager of the Repreve Recycling Centre and Future Innovation Centre in Yadkinville, NC, describes the relationship with Lindner as “a great partnership, which we require because of our 24/7/365 operating model. A provider who can only be there for us between 9 a.m. and 5 p.m. just doesn’t work for us. We need answers within hours, not days, and Lindner with its hub in Statesville, NC is always there for us.”

A Question of Performance

The Lindner shredders from the Micromat series are specially designed for the requirements of post-commercial and post-consumer plastics recycling. They have strong, high-torque motors for powerful shredding and are designed and built to optimize uptime and streamline maintenance tasks. “The lightning-fast safety coupling offers optimum machine protection and easy access to the rotor means that non-shreddables can be removed quickly and easily,” Trivette states. He goes on to comment that, they found the perfect solution in Lindner’s technology and service: “Lindner’s machines have enabled us to minimize downtime and maximize the throughput of the entire plant, which is essential with an average production of 1.5 million pounds of resin per week.”

As a sustainable company, Lindner emphasizes the use of recycled materials for employee benefits such as the Lindner backpack or the Lindner west. The recycled fibre Repreve has a unique status – not least due to the fact that Lindner technology is used during the production process.

www.lindner.com

 

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“Chemical Recycling is Competing With Incineration, Not Mechanical Recycling”

“Chemical Recycling is Competing With Incineration, Not Mechanical Recycling”

Industry-Interview with Ingemar Bühler, Managing Director PlasticsEurope Germany

Mr. Bühler, how long will it be before chemical recycling can take place on a large industrial scale?

At present, there are about 140 chemical recycling projects worldwide. Most of the active plants are currently in pilot operation. Some companies, however, are already one step ahead. In Enningerloh, Westphalia, for example, the Carboliq company has a plant that produces an industrially usable pyrolysis oil from the input of an adjacent recycling yard. Other plant projects are also on the verge of reaching a new scale of between 40,000 and 150,000 tonnes of processed material per year. Two plants are currently planned on a large industrial scale. Lyondell Basell is planning a large plant in Belgium, and Dow Chemical is looking to build a large plant together with its partner Mura in Saxony. The prerequisite, however, is the approval of chemical recycling within EU law.

Should this be the case this year, then the plant would probably be ready for operation by 2025.

This approval is by no means certain in Brussels, however.

The reproval by politicians, both in Europe and in Germany, is often that chemical recycling does not work at all. That is simply nonsense. But there is also a fair criticism, namely that despite great progress, the energy input for chemical recycling is much higher than that for mechanical recycling.

Mechanical recycling is highly efficient: PET bottles, for example, can be mechanically recycled several dozen times until the polymer structures can no longer withstand further use.

In today’s legislation, the idea is to burn these polymers that are past their usability stage, and to generate energy from them. However, the cost of incineration is high, and the process releases CO2. Instead of incineration, it would be much better in our view to chemically recycle these polymers. In the best case, no CO2 is released, and the carbon continues to circulate. Chemical recycling is therefore not in competition with mechanical recycling, but with incineration.

Where else does it make sense?

With chemical recycling processes, we can also process waste fractions where mechanical recycling processes reach their limits. A good example is car tyres. We can already recycle parts of tyres mechanically, but we can apply complementary chemical processes to recover the carbon and keep it in the cycle. In our industry, we are therefore convinced that this will definitely happen. If we politically hamper chemical recycling in the EU, it will happen elsewhere in the world, but I am confident that eventually we will have chemical recycling in Europe as well.

What makes you so confident?

The strict separation and interest groups are softening. It is no longer just the plastics manufacturers who are investing in chemical recycling. Increasingly, it is also large mechanical recyclers. In turn, there are also chemical companies building mechanical recycling plants because they want the carbon back in both ways. It is becoming increasingly clear that the combination makes perfect sense if you want to get rid of the big waste mountains and establish a real circular economy.

However, many mechanical recyclers currently still fear competition for input streams.

My fear as a medium-sized mechanical recycler would not be that someone might build large chemical recycling plants and buy waste fractions away from me. My fear would be that someone with sufficient investment power might build mechanical plants that are much more efficient, or that are directly competing with mine, and I’m pretty sure that will happen. I think that’s a worry you can’t take away from any company. Herein lies the task for the political arena to set the right guidelines. Put simply, that would mean that everything that can be mechanically recycled must be mechanically recycled for as long as possible.

Fractions that cannot be mechanically recycled must be fed into other processes in order to keep the carbon within the cycle for as long as possible; then you are actually on the safe side. That’s all politics needs to regulate in the open market.

What should politics do and what should it not do?

It should seize the opportunity to lead the entire plastics system into a climate- neutral circular economy. Many of the technologies necessary for this, which are all already there, are not welcomed by politicians in many quarters. Our political culture – especially in Germany – does not welcome innovation. Instead, people focus on safety, on caution and things they know. But the transformation of the plastics industry, like other transformations, is a large venture. Politics must not slow down this change, it must accelerate it instead. And therefore, it must welcome innovation. The plastics bashing must stop. There is a good reason why plastic consumption continues to rise, namely because we can make many products more sustainable and recyclable. Major mistakes have been made in the past. We allowed plastic waste to be landfilled, and at the same time we have developed waste collection and sorting systems much too slowly. We could and should regret this, but along with that we should now turn the lever towards sustainability. The political rejection of plastic is not the path towards a climate-neutral circular economy.

www.vdma.org

 

 

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Design, Innovation, Sustainability: KURZ Set to Show Pioneering Design Concepts with a “Wow” Factor at the IAA Summit 2023

Design, Innovation, Sustainability: KURZ Set to Show Pioneering Design Concepts with a “Wow” Factor at the IAA Summit 2023

The IAA Summit 2023 is the most important international B2B platform for the automotive industry. The event will take place from September 5 to 8 as part of IAA MOBILITY 2023 at the Munich exhibition center. Leading automobile manufacturers, suppliers, and technology companies come together here to present the next generation of vehicles and mobility concepts.

Electromobility, autonomous driving, networked vehicles, and sustainable mobility – in no other industry is the transformation as great as in the automotive sector. LEONHARD KURZ is helping to shape this change and making innovative, sustainable brand statements tangible at the trade fair. Under the theme ‘empowering beautiful surfaces,’ the thin-film specialist from Fürth will be showing innovative solutions for decorative and functional surfaces from the Exterior and Interior Design, as well as Visionary Design segments, in Hall A2 (Stand C32). A special focus is placed on the aspect of sustainability. At the IAA Summit, KURZ will demonstrate how innovative decoration technologies can reduce the carbon footprint.

RIM Design.

Smart exhibits experienced interactively

An absolute eye-catcher at the KURZ stand is a rear-end cover concept, which consists of an innovative 2K material mix and is equipped (via in-mold electronics) with technical features such as smart touch functionality and Shy Tech design. The rear-end cover not only meets all the requirements that currently determine the market – especially regarding e-mobility – but also illustrates development opportunities. At the same time, the concept sets an example in terms of sustainability, as the large component (dimensions: W 85.29 cm x H 25.27 cm x D 7.7 cm) is manufactured in one production step to save CO2. It can also be recycled as a whole. The concept supports all technologies required for autonomous driving and communicates with other road users using backlighting and 3D light effects. The exhibit, which was developed together with the KURZ subsidiaries BURG DESIGN, PolyIC, and SCHÖFER, is displayed in front of a large screen, and visitors can explore all the highlights such as day/night designs or touch operation live. Haptics, lighting, and optics combine to create an extraordinary mobility experience.

With a combination of physical exhibit and screen presentation, KURZ is showing not only the rear-end cover but also an innovative front cover that follows the trend towards closed surfaces. The design concept for e-mobility models demonstrates the design possibilities that arise from laser engraving. The front panel on display was made translucent using a laser, for example. Further decoration options and variants – including day/night designs as well as different colors and animations for actions such as indicating, braking, or recharge – will be demonstrated digitally. Backlighting effects are not only used for brand identification, but also for communication with other road users. The front cover can be equipped with an extremely resistant, self-healing DECOPUR surface. Combined with a crystalline high-gloss finish, this creates a spectacular 3D effect. A special highlight is that the one-of-a-kind creations are backed up on the blockchain via NFT in cooperation with KURZ DIGITAL. A limited number of NFT Design Artworks will be handed out to customers at the stand.

The PC-based front end, which can be recycled as a complete component, was implemented using the most advanced IMD technology and injection molding tools from the specialist for plastic-based modules, Samvardhana Motherson Peguform (SMP).

Ready for the new requirements of e-mobility

Smart touch operation, Shy Tech, and partial backlighting are features that can also be found in KURZ’s innovative wallbox charging station. The charging station for electric vehicles, developed in cooperation with BURG DESIGN and PolyIC, offers a wide variety of customer-specific designs by using various finishing processes. In addition to a functional exhibit customized with laser technology, the KURZ stand will also feature an augmented reality demonstration of the product concept. Visitors can select different designs and finishing techniques live at the stand and then receive a virtual representation of the individualized wallbox in the relevant environment. The e-dispenser can be made from post-consumer recycled material and is, in turn, also 100 percent recyclable.

With the transition to electromobility, the requirements for components such as tires and wheels are also changing. At the IAA Summit 2023, KURZ will be showing a revolutionary project example in cooperation with wheel manufacturer Ronal Group. The aerodynamic rim insert combines art and automotive design and can already be mass produced. Thanks to 3D hot stamping decoration, curved shapes can be perfectly decorated. The (plastic) inlay in combination with the wheel and design ensures lower air resistance. This in turn not only ensures a lower noise level, but also enables more efficient aerodynamics, which leads to a better range especially for e-vehicles.

Collaborative project with Swarovski Mobility

KURZ demonstrates what it can look like when luxurious design and cutting-edge technologies merge, with a futuristic steering wheel concept created in collaboration with Swarovski Mobility. On the side of the centrally positioned display, there are precious real crystals which, thanks to integrated sensors from PolyIC, enable various vehicle functions to be controlled. Despite the integrated sensor technology, the surface is completely transparent, anti-reflective, scratch-resistant, and easy to clean. The high-grade crystals can also be used to create three-dimensional surfaces. They are backlit, can be color-coordinated with the interior of the vehicle, and create breathtaking visual highlights.

Surfaces and light as a unit

The days of unwanted light scattering and blurring in lighting design are finally over. In cooperation with Mentor, the specialist for integrated lighting solutions and HMI components, KURZ is presenting dynamic and true-color lighting design at its stand, which can be adapted to a brand’s Corporate Identity (CI) with full color fidelity. Four interactive light panels, which visitors can control using an iPad, show a variety of design options such as day/night moods, dynamic light, and countless colors and patterns.

Visionary Design: Inspiration and experimentation

Under the umbrella term ‘Visionary Design,’ KURZ will be showcasing extraordinary inspiration in terms of haptics, appearance, and functionality. True to its name, the Spacewood Experiment project merges wood and space and goes beyond anything previously associated with wood. Completely rethinking the natural material is definitely a bold venture. The exhibited designs appear to be from a different world. Their structure is largely reminiscent of wood, but they are made of 100 percent post-consumer and post-industrial recycled materials, and are themselves recyclable.

The ‘Naturals’ project, developed together with BURG DESIGN, takes a very similar line. The material boasts impressive designs inspired by nature. At the same time, it offers significantly greater flexibility in terms of design and functionality. Natural Designs are ideal for creating natural interior designs in vehicles. This can include amazing 3D shapes with backlighting and fascinating touch effects. This decor can also be equipped with KURZ BIOFENSE hygiene protection.

 

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“Chemical Recycling is Still in Its Infancy, But Has Huge Potential”

“Chemical Recycling is Still in Its Infancy, But Has Huge Potential”

Industry Interview with Jochen Schofer, Head of Sales of the Recycling Business Unit at Coperion GmbH

Mr. Schofer, what contribution can chemical recycling make to the circular economy?
In principle, it can make a big contribution. But it only works properly together with mechanical recycling. And it will only work if the circular economy is accepted not just in Germany or Europe, but throughout the world. In many parts of the world however, there are still either only fragmented waste collection systems, depositing systems and similar systems, or none at all, that are able to generate a sufficient waste stream for recycling. At the moment an increasing number of large corporations are jumping on the chemical recycling bandwagon, all of them operating internationally. There is hope that they will contribute considerably towards the implementation of the necessary infrastructure in all parts of the world.

Chemical recycling has huge potential. The results that have been achieved so far are very promising. Nevertheless, chemical recycling is still in its infancy, while mechanical recycling is already established. Chemical recycling has particular potential because there are many plastics that cannot be processed mechanically, and more and more will be added. For example, in the construction sector, think of the many mixed plastics that are released when a house is demolished, or in the automotive industry. That is precisely why chemical recycling has to make a big contribution to the circular economy.

In which areas is chemical recycling superior to mechanical recycling? The major advantage of chemical recycling over mechanical recycling is that it can be used to recycle all types of plastic. You no longer need a single type of material stream, as you do with mechanical recycling – for example, only polyethylene or polypropylene. Chemical recycling can also be used to recycle

composites. However, the prerequisite is that you have a large material stream, because only then can the process be operated economically. Some large plants for chemical recycling with throughputs of up to 25 tonnes per hour are already being planned.

Which recycling method does the machine manufacturer Coperion primarily rely on?
As a machine builder, we have made it our goal to support the plastics industry as best we can on its path to a circular economy. We develop solutions for chemical recycling, mechanical recycling, and even for many other processes, such as solvent-based recycling. Here, two different polymers are separated from each other, and the solvent is degassed in the extruder. We offer technologies for processing all plastic material streams, for well-sorted as well as poorly sorted ones. But the question is whether you put the energy into pre- sorting or, in the case of chemical recycling, into processing the oil quality afterwards. Because the worse the product to come out of the reactor, the more processing it requires. Here, too, it’s all about economic efficiency in the end.
Because the chemical recycling process is very energy-intensive, it is advisable to focus more on the upstream steps in the case of high throughputs. For smaller plants, it may also make economic sense to invest in processing the recovered oil.

Were there any technological challenges?
As pioneers in processing technology for virgin plastics, we have modified our product range in such a way that we can also serve the recycling market with innovative solutions. In recycling, we deal with contaminated materials, low bulk weights or high moisture contents. Therefore, we have made many developments, adjustments and optimisations to our technologies. Especially for chemical recycling, for example, we have developed a new technique that makes it possible to reliably degas chlorides directly in the extruder.

Will the waste problem be solved through the circular economy?
Both systems, mechanical and chemical recycling, are not silver bullets. Both make a great contribution to solving our waste problem, but much more needs to be done. Above all, product design should completely avoid poorly recyclable plastics. Because if more and more poorly recyclable plastics enter the market, they threaten to end up being burned instead of recycled. A great contribution would therefore be to simply not produce and use the poorly recyclable plastics in the first place. That should be our first goal for a functioning circular economy.

www.vdma.org

 

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The Full Range of Advanced Masterbatch Technology

The Full Range of Advanced Masterbatch Technology

Tosaf will be presenting their latest developments in masterbatches for applications ranging from agricultural films to rigid and soft packaging and technical parts on stand B4-4402 in hall B4. For example, Tosaf’s new additives for contour-sharp laser marking are also suitable for transparent plastics in a wide range of applications. Also in focus are a new masterbatch carrier system with approval for direct food contact as well as masterbatches to produce light-diffusing elements, for example for covers of LED lights. Adapted to growing sustainability requirements are blowing agents for foamed plastics that help to reduce the ecological footprint, as well as colour and functional masterbatch solutions for compounds containing recycled materials.

Contour sharp marking with the laser beam

A new laser additive family from Tosaf can be used for transparent applications without affecting the optical properties. It enables contour-sharp, high-contrast markings on thermoplastics that originally show poor or no colour change during laser marking, as well as on compounds with fillers such as calcium carbonate, talcum, titanium dioxide or carbon black. Depending on the substrate, optional settings for marking colours ranging from white to grey to black are possible. Since very low dosages are sufficient and the laser marking process can be fully automated, the new masterbatches help to reduce production costs compared to conventional processes such as labelling or embossing. By eliminating the need for chemicals, varnishes or stickers, their use is also non-critical and more sustainable. Typical applications include pipes, fittings, profiles and irrigation systems as well as, thanks to their suitability for food contact, caps and closures for beverages and other food packaging. Customised combi-masterbatches are also possible.

Food compliant masterbatch carrier system

A new universally applicable masterbatch carrier system from Tosaf Color Service meets all common food contact requirements, including those in Germany, the USA and China. Masterbatches based on this carrier system can thus be used without hesitation across continents for applications ranging from translucent and opaque materials for rigid and flexible packaging, toys and household items to components for food processing machinery and equipment.

Light diffusing Masterbatches

To achieve uniform light distribution even with point-shaped LED light sources, Tosaf Color Service has developed light diffusing (LD) masterbatches that contain microfillers. Even very small amounts in the range of 1 to 2 % result in highly efficient scattering of light in originally transparent material, mainly polymethyl methacrylate (PMMA) and polycarbonate (PC). The light transmission and mechanical properties of the base material are almost completely retained. Both colour-neutral grades and combinations with specific colours and functional additives such as UV stabilisers are available.

Sustainability in mind

In the spirit of the circular economy, Tosaf has developed colour masterbatches specifically for recyclates, with a focus on post-consumer plastics. They compensate for origin-related inconsistencies that are typical for such materials. A special additive masterbatch range from Tosaf is based on biodegradable carriers such as polylactic acid (PLA) and resin (rosin) and gives corresponding agricultural films properties such as increased UV stability, anti-fogging and IR filtering.

Also geared towards sustainability in plastics processing are chemically active blowing agents that Tosaf has developed for the material-saving foaming process. The portfolio includes endothermic and exothermic types for a wide range of thermoplastics. Endothermic grades are considered safe to use, are approved for food contact and generally require relatively low temperatures for activation. Their applications range from thin-walled films and moulded parts with high surface quality as well as PP tapes to XPS and XPE trays for food packaging and large and thick-walled parts. The exothermic grades combine a high foaming effect with very good dispersibility. Exothermic and endothermic blowing agents combined in one concentrate are particularly suitable for PVC applications such as sheets, profiles and pipes.

Beyond colour and foaming agents, Tosaf’s portfolio includes other additives that can contribute to greater sustainability, including antioxidants, moisture and odor absorbers, processing aids and chain extenders.

www.konsens.de

 

 

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