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31.08.2021

DSM and SABIC: Creating recycled-based Dyneema®

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, and SABIC, a global leader in the chemical industry, announced a collaboration to create recycled-based Dyneema®. Through a joint pilot with multiple CirculariTeam® members, the manufacturing and usage of Dyneema® using mixed plastic waste as feedstock (via mass balance approach) will be successfully demonstrated. It is an important step toward the future goal of fully closing the loop by delivering Dyneema® made from ultra-high molecular weight polyethylene (UHMwPE) waste. This collaboration underlines DSM’s and SABIC’s efforts to accelerate a circular economy for materials.

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, and SABIC, a global leader in the chemical industry, announced a collaboration to create recycled-based Dyneema®. Through a joint pilot with multiple CirculariTeam® members, the manufacturing and usage of Dyneema® using mixed plastic waste as feedstock (via mass balance approach) will be successfully demonstrated. It is an important step toward the future goal of fully closing the loop by delivering Dyneema® made from ultra-high molecular weight polyethylene (UHMwPE) waste. This collaboration underlines DSM’s and SABIC’s efforts to accelerate a circular economy for materials.

By working together with members of CirculariTeam®, DSM will produce recycled-based Dyneema® made using SABIC’s certified circular ethylene as a pilot project in both a sailing rope and a pelagic trawl net application. The circular ethylene, from SABIC’s TRUCIRCLE™ portfolio, uses mixed plastic waste as feedstock (mass balance approach), which not only contributes to preventing valuable plastic from becoming waste and the avoidance of carbon emissions compared to incineration, but it will also help preserve fossil resources. These pilots are an important early-stage milestone in the journey toward making fully circular Dyneema® from HMPE post-production and post-consumer waste.

Jon Mitchell, Managing Director at Marlow Ropes: “We’re proud to be one of the first manufacturers to integrate recycled-based Dyneema® within our products and demonstrate the material’s feasibility. By collaborating with materials science pioneers such as DSM and SABIC, we are able to create products that not only deliver superlative functional performance but also have a lower environmental impact. Our products are trialed and tested by professional offshore sailing teams including 11th Hour Racing Team, a proud partner of ours at Marlow, with whom we share a progressive approach to seeking sustainable solutions: no more business as usual."

Klaus Walther, Managing Director at Gleistein: “Warm congratulations to DSM and SABIC for pushing the boundaries of science to deliver a truly unique product. We’re proud that our ropes can be produced from what once was typical household plastic waste. This is an important stepping stone towards becoming circular. It will enable our customer Maritiem BV to further develop high-tech fishing gear whilst contributing to the circular economy. Not to forget Cornelis Vrolijk Fishing Company, who again illustrate their commitment to Corporate Social Responsibility by introducing this concept in fishery.”

More information:
DSM Dyneema SABIC plastic waste
Source:

EMG for DSM

30.08.2021

Changes in the Rieter Board of Directors

  • Luc Tack und Stefaan Haspeslagh resign with immediate effect

The two members of the Board of Directors Luc Tack und Stefaan Haspeslagh announced on August 30, 2021, that they are resigning from the Board of Directors with immediate effect.

Rieter will inform the law enforcement authorities that there is no interest in continuing the criminal proceedings any further.

The Board of Directors welcomes the fact that a joint solution was found that is in the best interests of Rieter and Picanol, both of which are among the world’s leading textile machinery manufacturers.

According to Luc Tack, the Picanol Group (Belgium) will remain a shareholder of Rieter.

 

  • Luc Tack und Stefaan Haspeslagh resign with immediate effect

The two members of the Board of Directors Luc Tack und Stefaan Haspeslagh announced on August 30, 2021, that they are resigning from the Board of Directors with immediate effect.

Rieter will inform the law enforcement authorities that there is no interest in continuing the criminal proceedings any further.

The Board of Directors welcomes the fact that a joint solution was found that is in the best interests of Rieter and Picanol, both of which are among the world’s leading textile machinery manufacturers.

According to Luc Tack, the Picanol Group (Belgium) will remain a shareholder of Rieter.

 

Source:

Rieter Management AG

(c) Autoneum
Claudia Güntert
27.08.2021

Autoneum appoints new Head of Corporate Communications

Claudia Güntert has been appointed Head of Corporate Communications at Autoneum as of November 1, 2021. She succeeds the Corporate Communications Head, Dr. Anahid Rickmann, who will be leaving the company per end of August 2021.

Claudia Güntert studied Jurisprudence at the University of Basel, Switzerland, as well as German and Eastern European Literature at the Universities of Basel and Zurich, Switzerland.

From 2008 to 2013, she was Marketing & Product Communications Manager at Von Roll Management AG in Wädenswil, Switzerland. She thereby gained broad experience in marketing and customer communications in the industry and a deep understanding of the industrial relations between suppliers and their customers. From 2013 until 2021, she was Head of Corporate Communications & Investor Relations at Von Roll Holding AG in Wädenswil and Breitenbach, Switzerland. In this leading position, she expanded her expertise in internal and external communication with a focus on company vision and strategy, branding, global change management, and social media presence. Claudia Güntert will report to Matthias Holzammer, CEO.

Claudia Güntert has been appointed Head of Corporate Communications at Autoneum as of November 1, 2021. She succeeds the Corporate Communications Head, Dr. Anahid Rickmann, who will be leaving the company per end of August 2021.

Claudia Güntert studied Jurisprudence at the University of Basel, Switzerland, as well as German and Eastern European Literature at the Universities of Basel and Zurich, Switzerland.

From 2008 to 2013, she was Marketing & Product Communications Manager at Von Roll Management AG in Wädenswil, Switzerland. She thereby gained broad experience in marketing and customer communications in the industry and a deep understanding of the industrial relations between suppliers and their customers. From 2013 until 2021, she was Head of Corporate Communications & Investor Relations at Von Roll Holding AG in Wädenswil and Breitenbach, Switzerland. In this leading position, she expanded her expertise in internal and external communication with a focus on company vision and strategy, branding, global change management, and social media presence. Claudia Güntert will report to Matthias Holzammer, CEO.

Dr. Anahid Rickmann leaves Autoneum at the end of August at her own request. After almost nine years of service, she has decided to take on a new professional challenge. Anahid Rickmann strategically realigned the Company's communications after it became independent in 2011 and significantly shaped Autoneum's external perception and reputation. Her particular achievements include the measurable success of external communications, brand positioning and the launch of Autoneum's corporate responsibility strategy. CEO Matthias Holzammer and the Board of Directors would like to thank Anahid Rickmann sincerely for her successful, always dedicated and loyal service to Autoneum and wish her the best for her personal and professional future.

For September and October 2021, Luzia Schoeck, Communications Manager, will act as interim Head of Corporate Communications.

More information:
Autoneum Autoneum Management AG
Source:

Autoneum

(c) Autefa
25.08.2021

Swiss Textile Machinery: Top Technology for Nonwovens

Originally conceived as a low-cost, high-volume alternative to knitting and weaving, nonwovens was already expanding its market boundaries by the 1970s with new applications in ‘disposables’ such as diapers, hygiene and teabags.

In the past five decades, the nonwovens business has exploded in all directions, reaching a global market worth USD 40.5 billion in 2020, projected to grow to USD 53.5 billion by 2025. This annual growth rate of 5.7% (MarketsandMarkets, Nonwoven Fabric Market Report) is based on countless new applications and expansion into durable, as well as additional disposable, products.

Major growth drivers include the hygiene sector, and filtration media for power plants and air conditioning systems. Especially during the peak of the COVID pandemic in 2020 and 2021, demand in the hygiene sector multiplied. Worldwide capacities for both meltblown and spunlace production rocketed compared to a normal business year. Swiss Autefa Solutions, for example, significantly benefited from this trend, notably with the launch of a fully-automatic machine for producing face masks.

Originally conceived as a low-cost, high-volume alternative to knitting and weaving, nonwovens was already expanding its market boundaries by the 1970s with new applications in ‘disposables’ such as diapers, hygiene and teabags.

In the past five decades, the nonwovens business has exploded in all directions, reaching a global market worth USD 40.5 billion in 2020, projected to grow to USD 53.5 billion by 2025. This annual growth rate of 5.7% (MarketsandMarkets, Nonwoven Fabric Market Report) is based on countless new applications and expansion into durable, as well as additional disposable, products.

Major growth drivers include the hygiene sector, and filtration media for power plants and air conditioning systems. Especially during the peak of the COVID pandemic in 2020 and 2021, demand in the hygiene sector multiplied. Worldwide capacities for both meltblown and spunlace production rocketed compared to a normal business year. Swiss Autefa Solutions, for example, significantly benefited from this trend, notably with the launch of a fully-automatic machine for producing face masks.

The automotive industry is the second big growth area, with many new applications being pioneered. The trend to electric and hybrid vehicles has helped this, as nonwovens reinforced with carbon fibres are widely used as battery housings.

Swiss nonwovens competence
Innovative applications across all sectors have driven the rapid evolution of sophisticated nonwovens machinery. Today’s trends demand higher productivity, sustainability and Industry 4.0 compatibility – demonstrated by the full equipment portfolio of Swiss Textile Machinery member Autefa Solutions. With V-Jet Futura, the company recently sealed the link in its product range between web forming and drying technology. This latest Hydroentanglement Machine, together with the SQ-V Square Drum Dryer, embodies advanced technology combined with significant reductions in energy consumption compared to other process solutions.

A vital contribution to nonwovens production is offered by Rieter subsidiary Graf, a leading supplier of clothing and combs for carding and combing processes in spinning and nonwovens. Graf's Hipro card clothings – suitable for any man-made fibres in the nonwovens sector – are focussing on higher productivity. Their superior performance delivers up to 10% higher throughput and greater carding efficiency compared to conventional clothings. These reliable card clothing elements also ensure a consistently reproducible high web quality, as well as 20% fewer failures in the web, thanks to the precise fibre transfer to and from the cylinder.

Another constant trend in nonwovens today is the drive for better quality. Manufacturers want to take charge of contamination levels in their processes, as well as eradicating defects which may arise during production. Uster Technologies, a leading provider of quality management solutions from fibre to fabric, offers a combined solution to achieve both these required quality standards. At the fibre preparation stage, Uster Jossi Vision Shield N ensures the best possible initial inspection and removal of contamination. Then, at the end of the production sequence, Uster EVS Fabriq Vision N handles automated detection and marking of all the main defects caused during production. This combined solution avoids material waste and takes full advantage of the potential for process optimization.

Source:

Swiss Textile Machinery Association

GRAFE: Plagiarism Protection with Marking Substances in the Plastic Matrix (c) GRAFE Advanced Polymers GmbH
23.08.2021

GRAFE: Plagiarism Protection with Marking Substances in the Plastic Matrix

To ensure product protection and prevent brand piracy, GRAFE has developed a simple and elegant solution that also offers a high level of security. The basis is special markers. "The highly complex pigments with special physical properties designed for this purpose are used in minute quantities within the plastic matrix. With an appropriately calibrated detector, products equipped with them can thus be read and authenticated," explains Business Development Manager Florian Ludwig. At the same time no changes in properties can usually be observed. The detectors can use an LED display to check within seconds whether the unique marker is contained in the product and whether this item is the original product.

To ensure product protection and prevent brand piracy, GRAFE has developed a simple and elegant solution that also offers a high level of security. The basis is special markers. "The highly complex pigments with special physical properties designed for this purpose are used in minute quantities within the plastic matrix. With an appropriately calibrated detector, products equipped with them can thus be read and authenticated," explains Business Development Manager Florian Ludwig. At the same time no changes in properties can usually be observed. The detectors can use an LED display to check within seconds whether the unique marker is contained in the product and whether this item is the original product.

In general, there are two options: x ray and light fluorescence, i.e. fluorescent X-rays or light. With the first option, the base color has no influence (not even black) and the customer benefits from low addition dosage and batch price, but this method requires higher investment. "With light fluorescence, on the other hand, detection is done by a measuring device, which is preconfigured by our partner or by us directly. Different types are available, from handy hand-held measuring devices to stationary office solutions to inline spectrometers, in order to have a control take place directly during production," Ludwig explains. With this method, the masterbatch dosage is based on the base color, among otherv things. The method of operation is fast and simple, and the necessary investment is also manageable.

From injection molding and extrusion to transparent and fiber applications, almost all areas of plastics processing come into question.

Source:

GRAFE Advanced Polymers GmbH

(c) Brückner Trockentechnik GmbH & Co. KG
BRÜCKNER ECO-HEAT and ECO-AIR system on the stenter at FEINJERSEY
19.08.2021

Sustainable production technology from BRÜCKNER

  • Long-term partnership between the Austrian textile producer FEINJERSEY and the German textile machinery manufacturer BRÜCKNER

The Feinjersey Group is an internationally operating textile company and supplies the "global players" of the textile industry worldwide. The value chain of the company, which is based in Götzis, Austria, ranges from yarn processing to the finished product.

As a fully integrated production company, the internationally active textile company Feinjersey attaches great importance to a high quality standard and guarantees care at every step in the process chain. With approx. 250 employees and annual sales of around 45 million euros, the company knits, dyes and finishes top-quality knitted fabrics as well as elastic woven fabrics for a wide range of applications.

Products are made for the fashion, sports, workwear and technical textiles sectors. Among other things, fabrics for the automotive industry, laminating backings and coating substrate for artificial leather or foils, construction textiles or fabrics for medical technology are all produced.

  • Long-term partnership between the Austrian textile producer FEINJERSEY and the German textile machinery manufacturer BRÜCKNER

The Feinjersey Group is an internationally operating textile company and supplies the "global players" of the textile industry worldwide. The value chain of the company, which is based in Götzis, Austria, ranges from yarn processing to the finished product.

As a fully integrated production company, the internationally active textile company Feinjersey attaches great importance to a high quality standard and guarantees care at every step in the process chain. With approx. 250 employees and annual sales of around 45 million euros, the company knits, dyes and finishes top-quality knitted fabrics as well as elastic woven fabrics for a wide range of applications.

Products are made for the fashion, sports, workwear and technical textiles sectors. Among other things, fabrics for the automotive industry, laminating backings and coating substrate for artificial leather or foils, construction textiles or fabrics for medical technology are all produced.

The Austrian textile manufacturer has been certified with the Bluesign textile seal and ensures efficient use of resources with modern machinery. Water and energy consumption as well as pollutant emissions are to be reduced to a minimum.

In textile finishing in particular, the focus is on minimising energy consumption as this process is the most energy-intensive in the entire process chain. Feinjersey uses its own photovoltaic system for this purpose, as well as the heat recovery and exhaust air purification systems on the stenter frames. By using the waste heat from production, the company's buildings are heated. All six stenter frames at Feinjersey are made by BRÜCKNER and produce with three-stage heat recovery and exhaust air purification systems.

The latest BRÜCKNER line has a working width of 4.20 m and is mainly used for the finishing of high-ly elastic and extremely sensitive knitted fabric. In order to avoid yellowing on the fabric, the stenter is equipped with an indirect gas heating system. The knitting oil vapours coming from the fabric during the heat-setting process are extracted from the dryer and cleaned in a BRÜCK-NER ECO-AIR exhaust air cleaning system before being extracted to atmosphere. The complete exhaust air treat-ment on the newest stenter is carried out by a multistage BRÜCKNER ECO-HEAT and ECO-AIR system.

Source:

Brückner Trockentechnik GmbH & Co. KG

16.08.2021

Rieter Board of Directors: Dismissals and Criminal Complaint

As the Rieter Holding Ltd. Announced, during the course of the acquisition of three Saurer businesses’, it came to serious violations of the statutory duty of loyalty, the obligation to maintain business secrets and the Rieter Code of Conduct by two members of the Board of Directors. They are said to have misused information internal to the Board of Directors in order to compete with Rieter through an offer of their own.

The Board of Directors considers this to be a strong violation of Rieter’s interests, to the detriment of all of its stakeholders, and a sustained breach of the relationship of trust within the Board of Directors which makes further cooperation impossible.

Therefore, the Board of Directors of Rieter Holding Ltd. intends to convene an Extraordinary General Meeting to dismiss these members. Furthermore, to protect Rieter’s interests, the Board of Directors will file a criminal complaint against them.

As the Rieter Holding Ltd. Announced, during the course of the acquisition of three Saurer businesses’, it came to serious violations of the statutory duty of loyalty, the obligation to maintain business secrets and the Rieter Code of Conduct by two members of the Board of Directors. They are said to have misused information internal to the Board of Directors in order to compete with Rieter through an offer of their own.

The Board of Directors considers this to be a strong violation of Rieter’s interests, to the detriment of all of its stakeholders, and a sustained breach of the relationship of trust within the Board of Directors which makes further cooperation impossible.

Therefore, the Board of Directors of Rieter Holding Ltd. intends to convene an Extraordinary General Meeting to dismiss these members. Furthermore, to protect Rieter’s interests, the Board of Directors will file a criminal complaint against them.

Source:

Rieter Holding AG

(c) Brückner Trockentechnik GmbH & Co. KG
12.08.2021

BRÜCKNER successful in Turkey with stenters

The Turkish company ARIKAN Mensucat Industry and Trade Inc. was founded in 1993 and is located in Kahramanmaraş, one of the southernmost cities of the country. Today, the family-owned company employs around 1,500 people and finishes around 55 tons of knitwear every day. In addition to many well-known Turkish fashion manufacturers, ARIKAN also supplies international manufacturers in Europe, Russia, the Gulf States and other leading international markets.

The Turkish company ARIKAN Mensucat Industry and Trade Inc. was founded in 1993 and is located in Kahramanmaraş, one of the southernmost cities of the country. Today, the family-owned company employs around 1,500 people and finishes around 55 tons of knitwear every day. In addition to many well-known Turkish fashion manufacturers, ARIKAN also supplies international manufacturers in Europe, Russia, the Gulf States and other leading international markets.

The German machinery manufacturer BRÜCKNER supported the Turkish company from the very beginning. From the foundation of the dyeing and finishing plant, BRÜCKNER supplied three stenters for the finishing of the high-quality knitted fabric in 2014. Two more lines followed in 2016. For decades, BRÜCKNER has been the market leader for the finishing of knitted fabric. Especially for very fine and elastic fabric, special line configurations and technological know-how are necessary to be able to produce a high-quality end product. During the drying and heat-setting process, for example, extremely accurate and uniform temperature distribution over the entire length and width of the dryer is essential. In the BRÜCKNER stenter this is achieved, among other things, by the alternating arrangement of the thermal zones every 1.5 meters and by the proven split-flow air system.

The machine operators at ARIKAN appreciate the easy control of BRÜCKNER lines. The visualization is intuitively designed and offers many auxiliary systems for an optimized production process. In addition, significant energy savings can be achieved with just a few changes to the machine parameters.

The management at ARIKAN attaches great importance to energy saving, especially in the fabric finishing department. The drying process is one of the most energy-intensive in the entire process chain, therefore the biggest savings can be made here. These have a direct impact on the manufacturing costs of the textiles and thus on competitiveness in the market. In the meantime, talks are already in progress for another BRÜCKNER line which will include a very special feature: a combined heating system for the dryer. For many customers - and so also for ARIKAN in Turkey - e.g. steam energy is available free or very cheap. With the combined heating system developed by BRÜCKNER it is possible to use this steam energy for heating up the dryer and thus to achieve significant savings. If the available steam is not sufficient for a running process, it is automatically switched over to gas heating. This mode of operation does not only have an effect on the energy costs, but also makes a considerable contribution to environmental protection.

10.08.2021

Kornit Digital acquires Voxel8

  • Expanding additive manufacturing technology portfolio for next generation of sustainable on-demand textile production

Kornit Digital Ltd. (NASDAQ: KRNT), a worldwide market leader in digital textile production technologies, announced the acquisition of all associated assets of Somerville, Massachusetts-based Voxel8.  

Voxel8’s advanced additive manufacturing technology for textiles allows for digital fabrication of functional features with zonal control of material properties, in addition to utilizing high-performance elastomers adhering to inkjet technology.

  • Expanding additive manufacturing technology portfolio for next generation of sustainable on-demand textile production

Kornit Digital Ltd. (NASDAQ: KRNT), a worldwide market leader in digital textile production technologies, announced the acquisition of all associated assets of Somerville, Massachusetts-based Voxel8.  

Voxel8’s advanced additive manufacturing technology for textiles allows for digital fabrication of functional features with zonal control of material properties, in addition to utilizing high-performance elastomers adhering to inkjet technology.

"By integrating Voxel8’s technology into Kornit’s product roadmap, we will be able to transform numerous market segments and verticals, accelerating our collective visions and technology advancements," . “Voxel8 offers direct 3D print-on-part capabilities, advanced design software that can be easily integrated with any production floor software workflow, and versatile chemistry enabling on-the-fly formulation of high-performance elastomers to change the material properties of the resulting printed structures by multiple orders of magnitude. This means reflective, high-density, silicone and metallics, as well as compression elements for sports and therapeutics, protection elements like cushioning and impact resistance, and functionality applications like anti-slip, waterproofing, and other qualities combining form and function that are key to Kornit’s vision of digitizing production in every conceivable manner,” explained Kobi Mann, Kornit Digital Chief Technology Officer

Source:

pr4u for Kornit

Thomas Reutter new Vice President Product Asset Management and Supply Chain (c) Borealis
05.08.2021

Borealis: Thomas Reutter new Vice President Product Asset Management and Supply Chain

Borealis announces the appointment of Thomas Reutter as Vice President Product Asset Management and Supply Chain, effective 1 August 2021.
He holds a Master’s in Business Administration degree from the Martin-Luther University Halle, Germany, with a specialisation in Controlling and Supply Chain.

Thomas Reutter joins Borealis from Dow and brings extensive product asset management and supply chain experience. Since joining Dow in 2008, he has held various positions with increasing responsibilities in product management, supply chain management and sales in the Netherlands, Mexico and Switzerland. Most recently he has served as Senior Product Director for Linear Low Density Polyethylene, based in Switzerland.

 

Borealis announces the appointment of Thomas Reutter as Vice President Product Asset Management and Supply Chain, effective 1 August 2021.
He holds a Master’s in Business Administration degree from the Martin-Luther University Halle, Germany, with a specialisation in Controlling and Supply Chain.

Thomas Reutter joins Borealis from Dow and brings extensive product asset management and supply chain experience. Since joining Dow in 2008, he has held various positions with increasing responsibilities in product management, supply chain management and sales in the Netherlands, Mexico and Switzerland. Most recently he has served as Senior Product Director for Linear Low Density Polyethylene, based in Switzerland.

 

More information:
Borealis
Source:

Borealis

powerribs with inset bonnet (c) Composites Evolution
04.08.2021

Composites Evolution: New range of flax-epoxy prepreg materials

Composites Evolution Ltd has teamed up with leading natural fibre reinforcement specialists Bcomp to launch a new range of flax-epoxy prepreg materials, designed to offer enhanced sustainability without compromising on performance.

Evopreg ampliTex™ prepregs combine Composites Evolution’s high-performance Evopreg epoxy resin systems with Bcomp’s award-winning ampliTex™ flax reinforcements, to deliver a family of materials which offer outstanding performance for component applications.

To reach the full performance of natural fibres, Evopreg ampliTex™ prepregs have been tailored to be compatible with Bcomp’s powerRibs™ reinforcement grid, enabling the same stiffness and weight as thin-walled monolithic carbon fibre parts while decreasing the CO2 footprint by 85% and improving safety thanks to a blunt braking behaviour without dangerous debris or sharp edges.

Composites Evolution Ltd has teamed up with leading natural fibre reinforcement specialists Bcomp to launch a new range of flax-epoxy prepreg materials, designed to offer enhanced sustainability without compromising on performance.

Evopreg ampliTex™ prepregs combine Composites Evolution’s high-performance Evopreg epoxy resin systems with Bcomp’s award-winning ampliTex™ flax reinforcements, to deliver a family of materials which offer outstanding performance for component applications.

To reach the full performance of natural fibres, Evopreg ampliTex™ prepregs have been tailored to be compatible with Bcomp’s powerRibs™ reinforcement grid, enabling the same stiffness and weight as thin-walled monolithic carbon fibre parts while decreasing the CO2 footprint by 85% and improving safety thanks to a blunt braking behaviour without dangerous debris or sharp edges.

Composites Evolution’s Sales & Marketing Director, Ben Hargreaves, explains further.
“Sustainability is an increasingly important factor for many of our customers - particularly those involved in motorsports and high-performance automotive applications. As you’d expect in these sectors though, sustainability can’t come at the expense of performance the two must go hand-in-hand. This is something that other prepreggers can struggle with, as natural fibres behave very differently to carbon or glass, for example.”

Customers would be able to understand the strengths and weaknesses of natural fibre composites, and to show where and how they can be adopted without the need for significant changes to existing composite component production processes.

One such customer is Retrac Group, whose composites division is one of the UK’s most experienced composites engineering companies across motorsports, automotive and aerospace. It recently used Evopreg ampliTex™ + powerRibs™ to produce a demonstrator bonnet panel for a race-bred supercar. Project Manager Alan Purves explains.


“We’re seeing a growing interest in flax fibre composites, particularly in the motorsports and niche vehicle sectors. It is therefore essential that we have developed an in-depth understanding of the processing requirements and performance capabilities of these materials, and are ready to respond to our customers' requirements. Being able to tap into the combined expertise and experience of both Composites Evolution and Bcomp is proving invaluable.”

Source:

Composites Evolution

Foto: Pixabay
26.07.2021

Lenzing invests GBP 20 mn in wastewater treatment at Grimsby site

  • Full utilization of production capacity possible at the site
  • New EU environmental requirements will be fully and promptly satisfied starting in 2024

The Lenzing Group, a global provider of wood-based specialty fibers for the textile and nonwoven industries, is investing GBP 20 mn (equal to EUR 23.3 mn) to build a new, state-of-the-art wastewater treatment plant at its site in Grimsby, United Kingdom. The investment is part of the company’s plans to reduce wastewater emissions by 2022.

Once it has implemented this project, Lenzing will have biological wastewater treatment plants that meet the best available techniques (BAT) quality standard at all its production sites. The plant design, which will employ a new technology developed as part of a research project, is fully aligned with the UK regulator and supported by the local authorities.

  • Full utilization of production capacity possible at the site
  • New EU environmental requirements will be fully and promptly satisfied starting in 2024

The Lenzing Group, a global provider of wood-based specialty fibers for the textile and nonwoven industries, is investing GBP 20 mn (equal to EUR 23.3 mn) to build a new, state-of-the-art wastewater treatment plant at its site in Grimsby, United Kingdom. The investment is part of the company’s plans to reduce wastewater emissions by 2022.

Once it has implemented this project, Lenzing will have biological wastewater treatment plants that meet the best available techniques (BAT) quality standard at all its production sites. The plant design, which will employ a new technology developed as part of a research project, is fully aligned with the UK regulator and supported by the local authorities.

The site’s current wastewater situation complies fully with the EU Water Framework Directive as well as all local laws and regulations. The investment has been approved by the Supervisory Board, ensuring that construction can start this year and the plant will be commissioned well before the UK-ratified EU directive1 goes into effect. This will be the largest investment since opening this lyocell site, which manufactures premium products for technical and innovative market segments, among other things.

Responsible water use
After modernizing the wastewater treatment plant at the company’s Purwakarta site in Indonesia, the construction of the new plant in Grimsby marks another big step toward reducing the Group’s wastewater emissions 20 percent by 2022 (against a 2014 baseline). Responsible water use is one of the core elements of Lenzing’s “Naturally positive” sustainability strategy and is largely executed by using water efficiently in manufacturing and employing state-of-the-art water treatment technologies.

INDA: RISE® - Virtual Conference opens and Speakers announced (c) INDA
26.07.2021

INDA: RISE® - Virtual Conference and Speakers announced

The 11th edition of RISE®, Research, Innovation & Science for Engineered Fabrics Conference will be presented virtually on Sept. 28-30 with more than 150 professionals in product development, materials science, and new technologies.

The conference will culminate on Sept. 30 with the presentation of the 2021 RISE® Innovation Award recognizing problem-solving innovations that advance the nonwovens industry.

The program includes presentations from industry leaders, round-table discussions and question-and-answer sessions on the key themes of material science developments for sustainable nonwovens, sustainability, increasing circularity in nonwovens, and promising innovations in nonwovens, processes and materials:

The 11th edition of RISE®, Research, Innovation & Science for Engineered Fabrics Conference will be presented virtually on Sept. 28-30 with more than 150 professionals in product development, materials science, and new technologies.

The conference will culminate on Sept. 30 with the presentation of the 2021 RISE® Innovation Award recognizing problem-solving innovations that advance the nonwovens industry.

The program includes presentations from industry leaders, round-table discussions and question-and-answer sessions on the key themes of material science developments for sustainable nonwovens, sustainability, increasing circularity in nonwovens, and promising innovations in nonwovens, processes and materials:

  • Promising Materials Development Using PLA
    presented by Behnam Pourdeyhimi, Ph.D., William A. Klopman Distinguished Professor and Executive Director, North Carolina State University, The Nonwovens Institute
  • Phantom Platform: The Polyolefin-cellulose Coformed Substrates Technology at Its Best, featuring insights from Fabio Zampollo, CEO, Teknoweb Materials S.r.l.
  • Biotransformation Technology in Polyolefin Fibers and Nonwoven Fabrics, Focus on Fugitive Used Articles
    with speakers, DeeAnn Nelson, Ph.D., Development Program Manager, and Nick Carter, Vice-President of Marketing and Business Intelligence, both from Avgol Nonwovens
  • High-Loft, Ultra-Soft Hygiene Solutions,
    presented by Paul Rollin, Ph.D., Global Team Lead – Nonwovens, ExxonMobil Chemical Company
  • Innovating a Sustainable Future for Nonwovens; A European Perspective
    given by Matthew Tipper, Ph.D., Operations Director, Nonwovens Innovation & Research Institute Ltd., (NIRI), UK
  • Filtration Media Functionalized with Zinc Oxide
    by Wai-shing Yung, Ph.D., Technical Director, Ascend Performance Materials
20.07.2021

Hexcel: Speeding up new Product Development Cycles for Rassini

Hexcel, a global leader in advanced composites technologies, confirms that its HexPly® M901 prepreg system has been selected by Rassini, a Mexico-based technology leader in composite vehicle suspension systems, to speed up prototype and new product development cycles, reducing overall time to market with an easy to process material solution that enables effective early-stage design screening and cost-effective production.  

As a specialist in the mass production of composite helper leaf springs for various leading OEMs, Rassini continuously develops innovative new suspension component designs. Due to cost and timing, however, these new products cannot easily be prototyped using conventional high-pressure resin transfer molding (HP-RTM) technology.

Hexcel, a global leader in advanced composites technologies, confirms that its HexPly® M901 prepreg system has been selected by Rassini, a Mexico-based technology leader in composite vehicle suspension systems, to speed up prototype and new product development cycles, reducing overall time to market with an easy to process material solution that enables effective early-stage design screening and cost-effective production.  

As a specialist in the mass production of composite helper leaf springs for various leading OEMs, Rassini continuously develops innovative new suspension component designs. Due to cost and timing, however, these new products cannot easily be prototyped using conventional high-pressure resin transfer molding (HP-RTM) technology.

With more than 15 years of experience in delivering glass fiber prepregs for the serial production of composite leaf springs, Hexcel developed its high-performance HexPly M901 prepreg system specifically for this type of application. HexPly M901 combines the right level of structural performance required with simple processing, providing Rassini with a reliable material solution optimized for rapid development and fine-tuning iterations.

HexPly M901 is a high Tg epoxy resin prepreg system specifically developed for structural components that will be exposed to harsh thermal and environmental conditions.  With short cure cycles of 10 minutes and below producing excellent green, or handling, strength of the composite part for demolding and unidirectional glass fiber aerial weights up to 1,600gsm, HexPly M901 delivers a powerful combination of benefits for suspension component applications.

More information:
Hexcel’s HexPly® Hexcel
Source:

Hexcel Corporation

Dibella's initiative to reduce carbon dioxide emissions (c) Heppner
16.07.2021

Dibella's initiative to reduce carbon dioxide emissions

Dibella's long-standing forwarding partner Hamacher was taken over by the sustainably committed logistics specialist Heppner at the end of 2018. The new constellation takes Dibella another step further in terms of climate-neutral transport: the logistics company, which originates from France, focuses on the environmentally friendly transport of goods and is investing heavily in a carbon dioxide-neutral vehicle fleet.

Dibella's long-standing forwarding partner Hamacher was taken over by the sustainably committed logistics specialist Heppner at the end of 2018. The new constellation takes Dibella another step further in terms of climate-neutral transport: the logistics company, which originates from France, focuses on the environmentally friendly transport of goods and is investing heavily in a carbon dioxide-neutral vehicle fleet.

"With our first sustainability report, we introduced the monitoring of our carbon dioxide emissions. It turned out that the transport of our textiles produces the most climate gases. We have therefore consistently switched to sea freight and almost without exception do not ship goods by air. However, we still see a need for optimisation from the port of Rotterdam to the customer or to our warehouse. After the takeover of our long-standing forwarding partner Hamacher by the logistics specialist Heppner, there is now a breath of fresh air in our climate-friendly delivery initiative. The company is committed to environmentally friendly transports and a low-emission vehicle fleet. Together we now want to look for solutions to make the "last miles" of our deliveries climate gas neutral," says Ralf Hellmann, Managing Director of Dibella.

Departure into a clean future
Spedition Heppner, with its origins in Alsace, is a family-owned company with worldwide operations and 3,320 employees handling more than 72 million freight items annually. More than a decade ago, the logistics specialist began recording the carbon dioxide emissions released by its fleet of vehicles and steadily reducing them by switching to environmentally friendly energy sources. With a mix of gas, bio-fuel and electric drive, the discharge of greenhouse gases caused by the company's trucks is to be reduced by twenty percent by the year 2025. By 2050, the entire fleet should be diesel-free. To achieve a carbon dioxide-neutral footprint, Heppner is also testing hybrid forms of transport (rail, inland waterways, truck) as well as alternative delivery options (cargo bike).

Source:

Dibella GmbH

15.07.2021

Rieter: First half of 2021

  • Order intake of CHF 975.3 million (first half of 2020: CHF 250.7 million).
  • Sales of CHF 400.5 million (first half of 2020: CHF 254.9 million).
  • EBIT of CHF 9.0 million and net profit of CHF 5.3 million

The first half of 2021 has been characterized by a strong market recovery in combination with a regional shift in demand for new machinery and systems. Rieter anticipates a normalization of the demand for new systems in the coming months. The company assumes that spinning mills will continue to work at high-capacity levels.

For the full year, Rieter expects sales to be above CHF 900 million.

The realization of sales from the order backlog continues to be associated with risks in light of bottlenecks in material deliveries and freight capacities as well as the ongoing pandemic in key markets for Rieter.

In recent years, Rieter has implemented its strategy based on the cornerstones of innovation leadership, strengthening the components, spare parts and services businesses, and adjusting cost structures.

  • Order intake of CHF 975.3 million (first half of 2020: CHF 250.7 million).
  • Sales of CHF 400.5 million (first half of 2020: CHF 254.9 million).
  • EBIT of CHF 9.0 million and net profit of CHF 5.3 million

The first half of 2021 has been characterized by a strong market recovery in combination with a regional shift in demand for new machinery and systems. Rieter anticipates a normalization of the demand for new systems in the coming months. The company assumes that spinning mills will continue to work at high-capacity levels.

For the full year, Rieter expects sales to be above CHF 900 million.

The realization of sales from the order backlog continues to be associated with risks in light of bottlenecks in material deliveries and freight capacities as well as the ongoing pandemic in key markets for Rieter.

In recent years, Rieter has implemented its strategy based on the cornerstones of innovation leadership, strengthening the components, spare parts and services businesses, and adjusting cost structures.

Crisis management in the pandemic year of 2020 was aimed at protecting employees, fulfilling customer commitments, ensuring liquidity, and also strengthening the market position for the time after the pandemic as well as retaining the ability to benefit from the incipient market recovery.

The focus for 2021 remains on the implementation of this strategy. The measures for crisis management relating to the protection of employees and fulfilling customer commitments are still in effect in countries that continue to be affected by the pandemic.

The Rieter Board of Directors has approved the implementation of the CAMPUS project. The Rieter CAMPUS comprises a customer and technology center as well as an administration building at the Winterthur location. It will make an important contribution to the implementation of the innovation strategy and to the enhancement of Rieter’s technology leadership position.

Source:

Rieter

Hexcel showcases Carbon Fiber Prepreg Capability for UAV Applications (c) Hexcel Corporation
07.07.2021

Hexcel showcases Carbon Fiber Prepreg Capability for UAV Applications

Hexcel, a global leader in advanced composites technologies, announces the successful maiden flight of a lightweight camera drone, developed using Hexcel HexPly® carbon fiber prepregs. The composite drone was developed by a team of students from the University of Applied Sciences Upper Austria in Wels with composite materials supplied by Hexcel Neumarkt in Austria.

A team of six students in the university’s lightweight construction and composite materials course was responsible for the complete design, engineering, and manufacture of the camera drone over a period of 18 months. Hexcel materials and optimization of the composite engineering enabled the team to reduce the composite structural mass by an impressive 42% compared to similar drones.

Hexcel, a global leader in advanced composites technologies, announces the successful maiden flight of a lightweight camera drone, developed using Hexcel HexPly® carbon fiber prepregs. The composite drone was developed by a team of students from the University of Applied Sciences Upper Austria in Wels with composite materials supplied by Hexcel Neumarkt in Austria.

A team of six students in the university’s lightweight construction and composite materials course was responsible for the complete design, engineering, and manufacture of the camera drone over a period of 18 months. Hexcel materials and optimization of the composite engineering enabled the team to reduce the composite structural mass by an impressive 42% compared to similar drones.

Hexcel Neumarkt was one of eight industrial partners supporting the university team throughout the project, providing all carbon fiber prepreg materials used for the drone’s landing gear as well as the fuselage. The ultra-lightweight 32g landing gear was laid up and cured in the press, whereas the fuselage was autoclave cured by the student team using Hexcel HexPly M901 and HexPly M78.1 prepreg resin systems with a combination of woven and unidirectional carbon fiber reinforcements.

With the development of Unmanned Aerial Vehicles (UAV) as a key emerging market and innovation space in the transportation sector, Hexcel’s collaboration with the University of Applied Sciences Upper Austria team not only creates an important link with the next generation of lightweight composite engineers but also highlights the weight saving and structural benefits of Hexcel composite material solutions.

"The massive weight saving achieved with their updated version of the camera drone is a fantastic achievement by the student team," said Michael Rabl, Dean of FH Wels of the Upper Austria University of Applied Sciences. "The joint study not only illustrates the wide range of complex and innovative composite techniques present in the drone sector but also presents the opportunities that exist for further development in the wider Urban Air Mobility (UAM) and aerospace composites markets.”

Hexcel congratulates the project team which includes Lukas Weninger, Karl-Heinz Schneider, Jakob Schlosser, Matthias Thon, Marla Unter, and Simone Hartl on an exceptional piece of lightweight composite design and thanks them for showcasing the contribution of Hexcel materials with a presentation and drone flight. Johanna Arndt, research and technology group leader at Hexcel Neumarkt, said, “It was a great pleasure to work with the team who were very cooperative and self-motivated to succeed. Watching the drone just fly around the Neumarkt plant was just great.”

Hexcel manufactures a complete range of carbon fibers, dry carbon UD tapes, specialty reinforcements, prepregs, and honeycomb core materials, providing customized manufacturing options for new UAM applications that combine aerospace reliability with the high-rate production required. Hexcel composite materials are the ideal solution for the lightest and most efficient cost-competitive transportation vehicles of the future.

Source:

Hexcel Corporation / 100% Marketing

05.07.2021

Sateri continues its collaboration with Infinited Fiber Company

Sateri, one of the world’s largest viscose producers and a member of the RGE group of companies, continues its collaboration with Infinited Fiber Company, a textile fibre technology group based out of Finland, and participated in the company’s latest EUR30 million funding round completed on 30 June 2021. In addition to existing investors like Sateri, Infinited Fiber Company has attracted new investors including adidas and BESTSELLER.

Sateri, one of the world’s largest viscose producers and a member of the RGE group of companies, continues its collaboration with Infinited Fiber Company, a textile fibre technology group based out of Finland, and participated in the company’s latest EUR30 million funding round completed on 30 June 2021. In addition to existing investors like Sateri, Infinited Fiber Company has attracted new investors including adidas and BESTSELLER.

This securement of new funding follows Infinited Fiber Company’s April announcement of plans to build a flagship factory in Finland in response to the strong growth in demand from global fashion and textile brands for its regenerated textile fibre Infinna™. The factory, which will use household textile waste as raw material, is expected to be operational in 2024 and to have an annual production capacity of 30,000 metric tons. The new funding enables Infinited Fiber Company to carry out the work needed to prepare for the flagship factory investment and to increase production at its pilot facilities in the years leading to 2024. The engineering progress supported by the additional funds also accelerates Infinited Fiber Company’s ongoing collaboration and potential technology licensing with Sateri.

Sateri strategically contributes to RGE’s commitment and strategic business direction. Sateri has developed and produced a diverse range of circular and sustainable products including Lyocell and FINEX™, which is made from recycled textile waste. The in-house R&D efforts and the investment in Infinited Fiber Company are part of RGE’s $200 million investment commitment to advance next-generation textile fibre innovation and technology.

Source:

Sateri / Omnicom Public Relations Group

Dibella is the initiator of the "Organic Cotton" pilot project ©Tchibo
The demand for Fairtrade organic cotton is growing rapidly and is supported by a project initiated by Dibella in India.
29.06.2021

Dibella is the initiator of the "Organic Cotton" pilot project

  • Organic cotton project with thriving prospects

Dibella is participating in a joint project to promote organic cotton cultivation in India. The project aims to protect organic cultivation through targeted training measures and by paying premiums to small farmers, to support the conversion from conventional to organic cotton, to increase crop yields and at the same time to achieve better fibre quality.

The demand for organically grown organic cotton is growing rapidly, but crop yields are lagging well behind global demand. The Alliance for Sustainable Textiles (Berlin), initiated by Development Minister Dr. Gerd Müller, therefore wants to increase organic cotton volumes for its member companies with practical solutions. In cooperation with the Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ), it is now promoting a forward-looking project for which Dibella provided the impetus.

  • Organic cotton project with thriving prospects

Dibella is participating in a joint project to promote organic cotton cultivation in India. The project aims to protect organic cultivation through targeted training measures and by paying premiums to small farmers, to support the conversion from conventional to organic cotton, to increase crop yields and at the same time to achieve better fibre quality.

The demand for organically grown organic cotton is growing rapidly, but crop yields are lagging well behind global demand. The Alliance for Sustainable Textiles (Berlin), initiated by Development Minister Dr. Gerd Müller, therefore wants to increase organic cotton volumes for its member companies with practical solutions. In cooperation with the Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ), it is now promoting a forward-looking project for which Dibella provided the impetus.

"In India, it is mainly micro-farms and village cooperatives that are active in organic cotton cultivation. Conversion of additional land and sustainable management could increase yields and fibre quality of organic cotton. The Chetna Organic initiative, with which we have been working successfully for many years, advises the farmers in these processes. It supports the farmers and village communities with targeted education, training and practical assistance in organic farming, thus preparing the ground for better income and living conditions for the families," says Ralf Hellmann, Managing Director of Dibella.

Several alliance partners - Dibella, Fairtrade Germany, GIZ, Organic Cotton Accelerator (OCA) and Tchibo - have taken the exemplary initiative as an opportunity to promote the cultivation and expansion of organic cotton in India. In cooperation with Chetna Organic, they focus on supporting Indian women's cooperatives, women farmers and families in the production of organic cotton as part of the "Organic Cotton Pilot Project". Tchibo and Fairtrade subsidise micro-farms during the conversion phase of the fields (the fibres are only recognised as organic cotton four years after conversion) and contribute to the provision of GMO-free seeds, which have become a scarce commodity in India. Together with Dibella, they finance training courses that teach the optimal use of natural rainfall as well as efficient, ecological cultivation methods, which subsequently lead to improved fibre quality. In addition, they commit to purchasing Fairtrade organic cotton for many years.

Ralf Hellmann: "The pilot project enables us to expand our Dibella Good Textiles collection because it guarantees us long-term access to fair-trade organic cotton. At the same time, it improves the living conditions of the small-scale farmers and their families. We therefore hope that "Organic Cotton" will also set a precedent in other cotton growing regions and bring organic farming forward in India."

(c) German Popp. Dr. Marina Crnoja-Cosic (Kelheim Fibres) and Linda Dengler (Microbify)
28.06.2021

Kelheim Fibres presents award at “Plan B” start-up competition

For the fourth time, the international start-up competition "Plan B - Biobased.Business.Bavaria." organised by BioCampus Straubing honoured the best new business ideas in the field of biobased solutions.

Dr Crnoja-Cosic, Director New Business Development, and Matthew North, Commercial Director, represented Kelheim Fibres at the award ceremony. The manufacturer of special viscose fibres has been working with the BioCampus Straubing for many years and is a supporter of the competition, this year as prize sponsors. In this capacity, Dr. Crnoja-Cosic congratulated the newly founded team of Microbify GmbH on their third place and presented them with a cheque for 3,000 Euros. As a spin-off from the University of Regensburg, Microbify works, among other things, on the use of old natural gas storage facilities for the production of green natural gas using extremophilic microorganisms.

For the fourth time, the international start-up competition "Plan B - Biobased.Business.Bavaria." organised by BioCampus Straubing honoured the best new business ideas in the field of biobased solutions.

Dr Crnoja-Cosic, Director New Business Development, and Matthew North, Commercial Director, represented Kelheim Fibres at the award ceremony. The manufacturer of special viscose fibres has been working with the BioCampus Straubing for many years and is a supporter of the competition, this year as prize sponsors. In this capacity, Dr. Crnoja-Cosic congratulated the newly founded team of Microbify GmbH on their third place and presented them with a cheque for 3,000 Euros. As a spin-off from the University of Regensburg, Microbify works, among other things, on the use of old natural gas storage facilities for the production of green natural gas using extremophilic microorganisms.

Driving the change from a fossil-based to a bio-based economy is a declared goal of Kelheim Fibres - their speciality fibres replacing fossil materials in more and more applications. To this end, the fibre manufacturer seeks inspiration and exchange within its own industry as well as with innovation partners from outside the industry, start-ups and science in an open innovation approach.

More information:
Kelheim Fibres Microbify GmbH
Source:

Kelheim Fibres GmbH