JEC Composites Startup Booster 2024: The Twenty Finalists Revealed

PARIS — January 25, 2024 — In just seven years, JEC Startup Booster has established itself as a global reference for entrepreneurship in the composites industry. More than 100 entrepreneurs, SMEs, startups, and university spin-offs submitted their applications, with 20 selected as finalists. March 5-7, these finalists will have the opportunity to present their projects before an expert jury on the JEC World stage.

Initiated in 2017, JEC Startup Booster provides an exceptional networking opportunity, offering increased visibility into the future of the composites industry. Held in three regions (Europe, the United States, and Asia), the competition has already fostered the emergence of over 900 innovative projects from more than 60 countries. It has become an essential springboard for participants seeking international opportunities!

This year, the competition is organized with the sponsorship of Airbus and Owens Corning as the main innovation partners, and the Mercedes-Benz Group as the innovation partner:

On the day of the selection of the 20 finalists, Jelle Bloemhof, head of Composites Manufacturing Technologies at Airbus, stated: “Supporting this competition gives us the ability to identify innovations early in the key area of composites that we would not otherwise discover. JEC Startup Booster is just the first step toward broader collaboration opportunities. It facilitates an introduction between participants and industry end-users, providing the opportunity to engage directly and discuss. The diversity of ideas is inspiring, and we look forward to continuing our partnership.”

“Once again this year, the list is exciting and covers a wide range of technologies. Observing the constant improvement and innovation in both technologies and applications is fascinating. They not only reflect industry trends but also play a major role in shaping them. This is significant for us as partners and for JEC World, as it is a rich source of inspiration and opportunities,” said Chris Skinner, vice president of Strategic Marketing and R&D at OWENS CORNING.

Three winners will be designated by the jury, along with one winner for the sustainable dimension of the project.
The award ceremony will take place on Wednesday, March 6, at 3:30 PM in Agora 6.

The 2024 Jury:
• Jelle BLOEMHOF, Head of Composites Manufacturing Technologies, AIRBUS
• Karl-Heinz FUELLER, Manager Future Exterior & Materials, MERCEDES-BENZ
• Rebecca RAVENNI, Program Manager and Investment Analyst, TECHSTARS SUSTAINBAILITY PARIS
• Florent ILLAT, Head of Safran Corporate Ventures, SAFRAN
• Chris SKINNER, Vice-President of Strategic Marketing and R&D, OWENS CORNING

Category “Products & Materials”

BioHalo (Denmark) – The Biohalogenation Company
Our mission is to introduce bio-based materials that serve as safe, eco-friendly and high-performance replacements for harmful PFAS.

BioTwin (UK) – Designing and developing low carbon construction materials
BioTwin’s vision is to revolutionise construction and build zero carbon villages and cities for a sustainable world. We want to innovate, collaborate and make a difference in sustainable building materials. We are proud to present our first innovation, a low carbon wall stud made of hemp and resin, which will help the construction sector meet embodied carbon demands.

CARBOCON (Germany) – Leading service provider when it comes to carbon-reinforced concrete
CARBOCON is an independent service provider in the field of the innovative building material carbon-reinforced concrete. We operate in different areas of business, ranging from civil engineering services to introducing new products and processes to the market. In this way, we advocate progress and sustainability in the building industry.

Cellexcel (UK)-Unlocking the use of biomaterials through chemistry
As a chemistry-based technology company, Cellexcel provides the key to unlock the use of biomaterials and radically change industry’s carbon footprint. It does this through molecular modification and not a coating. The Cellexcel™ process chemically modifies the cellulose by delivering and then attaching a compound related to the targeted performance property. By attaching a hydrophobic compound, the resistance to moisture can be positively impacted enabling biomaterials to be used in more demanding applications, that can then lead to the replacement of high embedded emission materials.’

High Temperature Material Systems (UK)-Revolutionizing the high temperature composite materials market
Our core mission is to develop bespoke Ceramic Matrix Composite (CMC) materials and to push the boundaries of innovation. Through our cutting-edge research and development capabilities, we strive to pioneer novel matrix chemistries that yield improved performance, durability, and functionality.

Nano Electronics (South Korea)-3D Nano Heater utilizing high-conductivity nanowires enables a 90% reduction in electric energy compared to conventional heating wires
By utilizing ultra-fine nano threads through electrospinning, we create copper nanofiber films with high electrical conductivity, resulting in efficient conductive heating elements with exceptional heat transfer capabilities. As a result, we have achieved a nano-surface heating element with up to 89% power efficiency compared to traditional heating wires, providing three times greater heat generation efficiency and instantaneous heating.

RECARBON (Italy)-One-stop Solution in Circular Economy for Carbon Fiber
RECARBON gives new value to carbon fiber wastes, creating, producing, and offering innovative ready-to-use intermediate products based on recycled carbon fiber. RECARBON has developed a functional approach for manufacturing products in the form of both thermoplastic Organosheets, thermoset Prepregs, and sandwich panels, with different combination of skins and cores.

Sargassum Eco Lumber (USA)-Solving the Sargassum and Plastic Crisis Creating High-Quality Eco Lumber for a Cleaner and Greener Future
The proliferation of Sargassum, has become a global concern, notably affecting countries in the Caribbean, the Gulf of Mexico, and the Atlantic coasts of Africa and South America. The issue is compounded by the persistent pollution of polyethylene plastics, primarily MDPE and HDPE, which degrade over decades and release micro plastics that affect marine life and human health. In response, our project, Sargassum Eco Lumber, proposes a novel approach that leverages this environmental challenge by repurposing Sargassum and polyethylene waste into a commercially viable, sustainable building material.

SpacEngineer (Portugal)-Your Partner in green and impact protective composites
In 2018, the problem of small Space debris was presented to SpacEngineer team. Due to the previous experience of the team in the ballistic, in 2019 SpacEngineer was created. The goal of the SpacEngineer was to develop composites, with a high amount of green materials, flexible, and the capability to dissipate a high amount of impact energy. With this objective, Impact2Space was born. Currently, the technology is under validation for aeronautic and aerospace applications.

ZILA BioWorks (USA)-Industrial Bioplastics for a Circular Carbon Economy
ZILA has developed a patented bio-epoxy resin for use in industrial composites, coatings, and adhesives. We have identified clear steps to a 60% reduction in carbon footprint compared to petroleum-based epoxies. And our vitrimer technology can help manufacturers deal with the end of life of their products. ZILA formulates our bio-resin systems so manufacturers can adopt without any retooling.

Category “Process, Manufacturing & Equipment”

CarboScreen (Germany)-Enhancing Carbon Fiber Production with AI-based Online Monitoring
CarboScreen offers cutting-edge sensor technology in combination with AI-based online monitoring to significantly reduce production cost while increasing product quality of carbon fibers and reliability of oven equipment.

Componous (Greece)-Democratizing Photonics
Componous specializes in embedding optical fiber sensors in composite structures. These sensors can monitor multiple analytes with proven field capabilities. Componous revolutionizes the market with cost-effective, in-house-developed sensor readout units with state-of-the-art specifications.

Eddytec (Netherlands)-Defect Detection in Carbon Fiber Composites Made Simple
Eddytec is a spin-out from the University of Amsterdam and the Amsterdam University of Applied Sciences. Eddytec’s ambition is to transform defect detection in carbon fibre composites making it fast, simple and affordable. The technology is based on eddy currents and allows for easy detection of cracks and imperfections in a variety of applications including manufacture and maintenance of aircraft, wind turbines and cars. Eddytec’s sensor and software solution reduces measurement time and complexity of data collection and enables technical personnel with various levels of experience to interpret the results increasing usability. The benefits of Eddytec’s product is that it can reduce waste during manufacturing, simplify maintenance and safely extend the lifetime of materials. With that it will contribute to an efficient use of our resources while reducing cost and complexity.

Elementag (Italy)-Nanomarker that blends into any material or product, to make it traceable, authentic and to fight against its counterfeiting
Elementag is the latest technology developed by Particular Materials. It represents a radical innovation for supply chain traceability and anticounterfeiting. By using nanoparticles as inorganic fingerprints that can be applied to virtually any product or material, we can guarantee its authenticity in a quick and reliable way by scanning it with a portable device. Elementag overcomes the main limitations of traditional technologies (QR/barcodes, NFC, RFID): invisible, processing-resistant, hard to replicate and fully embedded.

fiberior (Germany)-Cost Efficient Manufacturing of Hydrogen Pipeline Systems
fiberior – The sustainable solution to the energy transport problem! Through our innovative manufacturing process, we are able to produce a cost-effective pipeline system for the transport and storage of hydrogen. Compared to conventional steel pipelines our system is made of fiber-reinforced thermoplastics. In addition to numerous advantages, they can also be utilized for hydrogen storage in the pipeline grid. This unique feature is a key aspect in enabling the transformation of the energy industry towards renewable energy sources.

Holy Technologies (Germany)-Sustainable lightweight production systems for the 21st century
Holy Technologies is on a mission to lightweight the future of mobility, by designing sustainable production systems that are extremely scalable. Holy is the developer of a machine learning-enhanced additive manufacturing system for composite components. The company helps innovation leaders across industries to make their structural carbon fiber components up to 30% lighter, 50% cheaper and 100% recyclable. The technology addresses 80% of component types, ranging from automotive, medical, and sports equipment, to aerospace and wind turbine blades.

MOB-E-SCRAP (France)-Breakthrough Mechanical Delamination Technology to Recycle Composites
MOB-E-SCRAP is a French startup founded in 2021 to deploy our breakthrough patented delamination technology on various markets: electronic scrap, composites, solar panels, batteries … By submitting composites to high intensity and high frequency impacts, we can separate the fibers (glass, carbon) which keep a length up to 50mm and resin which is pulverized. We have built a demonstrator at industrial scale in France, and we are now looking for partners to deploy our technology on the composite recycling market.

REINFORCE3D (Spain)-Enabling the reinforcement of highly optimized 3D parts with continuous carbon fibres. Let’s go beyond shell-like structures!
Reinforce3D is a start-up aimed to further develop and commercialize the Continuous Fibre Injection Process (CFIP) technology. CFIP is a completely new composite processing method which unlocks new capabilities unimaginable before, such as the ability of to place continuous fibres in all directions following complex trajectories, to reinforce any material including plastics, metals and ceramics, or to integrally join different parts. “Delta” is the first ever commercial CFIP machine, enabling the efficient manufacturing of highly optimized 3D composite structures at industrial scale.

TechnoCarbon Technologies (France)-Building the future of sustainable high performance composites materials with its patended innovation: CarbonFibreStone
TechnoCarbon designs, develops, manufactures and sells components and systems made of the first sustainable, ultra-low-carbon composite material to outperform steel and reinforced concrete. Our patented technologies enable deep decarbonization, lifetime extension, weight and environmental footprint reduction.

3P.COM (South Korea)-Recyclable, Affordable Hydrogen Storage Tanks
3P.COM designs, develops recyclable and affordable hydrogen tanks according to customers’ requirement and specification using a new optimization design methodology and in-house design tools, transfers the technology license and provide prototype hydrogen tanks meeting performing industrial standard safety requirement. 3P.COM has now customers in India, Taiwan, Japan, Brazil and China.

Posted: January 25, 2024

Source: JEC Group

Oerlikon Expands Intralogistics Offering Through Strategic Partnership With Irico Gualchierani Handling S.r.l.

In the future, Oerlikon will offer intralogistics solutions for modern chemical fiber spinning mills through its new strategic partnership with IGH through IG Automation GmbH

REMSCHEID & BERNKASTEL-KUES, Germany/FIRENZE, Italy — January 25, 2024 — At the turn of the year, the Polymer Processing Solutions Division of the Switzerland-based Oerlikon Group realigned its offering in the field of intralogistics for large chemical fiber spinning mills. To this end, the unit integrated in 2018 and since then managed under the name Oerlikon Barmag Automation (OBAA) was sold on to the Italy-based company (IGH) Irico Gualchierani Handling S.r.l. The closing officially took place on December 20, 2023. Both parties agreed not to disclose the sales price.

Thanks to this strategic realignment, Oerlikon will be able to focus more on its core competence “From Melt to Yarn, Fibers and Nonwovens” within spinning and texturing in the new 2024 fiscal year. This will also include automation solutions that are integrated close to or even directly in the product. Solutions for the transport and packaging of bobbins, for example, are to be realized with the new partner in the future. The new unit of the IGH Group will operate under the name IG Automation GmbH.

“With IGH, we have found a strategic partner who will further develop the intralogistics business of Oerlikon Barmag Automation with its 55 employees at the German sites in Bernkastel-Kues and Augsburg,” explained Oerlikon Polymer Processing Solutions CEO Georg Stausberg. IGH already offers complete solutions for the handling of fiber bobbins including integrated quality control systems engineered and realized by Thema System, another company of the IGH Group. IGH has many years of experience in the planning, design, manufacturing and installation of flexible, high-performance, and reliable automatic bobbin handling systems. “We are very pleased about this step and especially about the new highly qualified employees, whom I would like to welcome. Besides, this puts us in a position to significantly expand our business for intralogistics solutions for the textile industry in one fell swoop,” said Niccolò Paoli, CEO of IGH.

Yarn manufacturers continue to be supported in cooperation

Existing Oerlikon customer contracts will in principle remain unaffected by the new ownership structure. In future, the two partners will work together very closely and in partnership for the benefit of their customers. “The takeover of the workforce ensures that the specialist expertise remains within the company. This is crucial for us if we are to develop the business area intensively,” says Paoli.

Posted: January 25, 2024

Source: Oerlikon Textile GmbH & Co. KG

Black Swan Graphene Expands Global Reach Through Distribution And Sales Agreement With Thomas Swan

TORONTO — January 24, 2024 — Black Swan Graphene Inc.  is pleased to announce the establishment of a Distribution and Sales Agreement with Thomas Swan & Co. Ltd., effective January 23, 2024. This agreement leverages the existing strategic partnership and positions Thomas Swan as a value-added non-exclusive distributor and reseller of Black Swan’s innovative Graphene Enhanced Masterbatch (GEM) products in the polymer additive market.

Black Swan’s recently achieved groundbreaking advancement in polymer composites using GEMs. Thomas Swan will now distribute and significantly broaden the market presence of these GEM products through its Polymer Performance Solutions division where it possesses proven expertise in delivering value-add solutions to both the rubber and polymer markets, in addition to its chemical formulation expertise. The agreement outlines the terms and conditions of the partnership, fostering collaboration and growth in the global market whilst embracing Black Swan’s approach to avoid supply chain disruption.

Harry Swan, CEO of Thomas Swan and chairman of Black Swan, commented: “Our journey in graphene commenced over a decade ago. After dedicated years of investing in graphene processing development, we established Black Swan to champion commercialization and downstream ventures. The efforts invested by Black Swan from its inception have now culminated in the creation of products ready for immediate commercial deployment, where they can be adopted without any supply chain disruption. Armed with this achievement, I am genuinely thrilled that Thomas Swan is now poised to harness its distribution channels and market access.”

This partnership has the potential to introduce a paradigm shift in sustainability through the innovative use of bio-based and recycled polymers using GEM as the enabler of features such as improved strength, impact resistance and barrier properties. These features will allow major companies to reduce their carbon footprint through the use of compostable consumer packaging materials. Thomas Swan has been distributing, as well as manufacturing chemicals and advanced materials since 1926, and is today a supplier to a substantial customer base in over 80 countries globally.

Distribution and Sales Agreement

Thomas Swan is appointed as non-exclusive distributor and reseller of Black Swan’s GEM Products within the polymer additive market, leveraging its extensive global network. The Agreement shall remain in force until the fifth anniversary of its effective date. Both parties have the option to renew the Agreement upon mutual agreement. The terms include the establishment of a framework for transparent pricing, shipment logistics, documentation provision, invoicing, payment terms, and other respective responsibilities.

Posted: January 24, 2024

Source: Black Swan Graphene Inc.

Tranzonic Names Joe Vitale Chief Corporate Development Officer

CLEVELAND — January 23, 2024 — The Tranzonic Companies, a respected manufacturer of personal care and protection, contamination control, and cleaning products, has named Joe Vitale to the newly created role of chief corporate development officer. Vitale will provide strategic direction and leadership as the business expands through acquisitions, investments, and partnerships, and will collaborate with executive leadership on company strategy.

M&A is central to the growth strategy of Tranzonic, which has increased sales five-fold in the past decade via acquisitions of diverse companies including Monarch Brands, Acute Care, Adenna, Chemcor, NILodor, Innocore, High-Tech Conversions, and others. Each investment has strengthened Tranzonic’s position as a leader in helping businesses protect, clean, and care for shared spaces where we work, stay, and gather — businesses across manufacturing, food service, healthcare, retail, transportation, hospitality, and other target industries.

Joe Vitale, Tranzonic Chief Corporate Development Officer Photo: Business Wire

Vitale’s mission is to optimize Tranzonic’s origination, acquisition, and integration processes to more efficiently identify and partner with new companies to achieve greater growth. He is well-suited to lead the company’s growth efforts, with more than 25 years of professional experience in corporate banking, large and mid-cap industrial, and sponsor-backed portfolio companies.

Vitale most recently led M&A and Treasury for Brook + Whittle, before which he spent over a decade with Ferro Corporation, where he helped transform the company through M&A to outperform peer group public companies. He has successfully completed acquisition, partnership, and carveout transactions in the U.S. and across the world, and his collaborative approach allows for efficient transactions that minimize disruption to the business and preserve value for all stakeholders.

“Joe’s values and the engaged culture he creates are well-aligned with Tranzonic and what we plan to achieve as we grow,” said Tom Friedl, CEO of The Tranzonic Companies. “We already have exciting new investments planned for 2024, and Joe’s energy and focus will further our goals as we look to the next decade and beyond.”

Vitale earned his MBA in finance from UCLA Anderson and his bachelor’s degree from Vanderbilt University.

The Tranzonic Companies is the hub for a strategic collection of manufacturing and sales companies that lead the way in multiple categories — from personal care and protection to textiles, from cleaning products to contamination control — to empower its distributor partners into the future. Their cohesive approach promotes operational efficiency and fuels innovation, while equipping their varied businesses to tackle the toughest challenges across industrial and manufacturing, healthcare and life sciences, food service, hospitality, transportation, and many other dynamic market segments.

Posted: January 24, 2024

Source: The Tranzonic Companies

National Inventors Hall of Fame Announces DNA Sequencing and Fire-Resistant Fibers And Fabrics Innovators Among 2024 Class

GLENDALE, Calif. — January 24, 2024 — Fifteen innovation pioneers whose inventions range from cancer treatments to theatrical technologies and special effects will be honored in the 2024 class of National Inventors Hall of Fame® Inductees. The class was announced Wednesday evening at the Walt Disney Imagineering campus in Glendale.

In partnership with the United States Patent and Trademark Office (USPTO), the Hall of Fame will honor these Inductees on May 9 at one of the innovation industry’s most highly anticipated events — “The Greatest Celebration of American Innovation®.”

Alice Stoll Honored for her work in Fire-Resistant Fibers and Fabrics Photo – National Inventors Hall Fame

“Every year, I am impressed and inspired by the accomplishments of the newest Inductees in the National Inventors Hall of Fame,” said Kathi Vidal, Under Secretary of Commerce for Intellectual Property and Director of the USPTO. “We are proud to honor these world-changing inventors in the class of 2024, who show us the power of turning ideas into realities and participating in our intellectual property system to make a positive impact on our society and our future.”

THE CLASS OF 2024

• James Allison: Immune Checkpoint Blockade Therapy

James Allison invented immune checkpoint blockade therapy. His pioneering work in the field of immunology brought immunotherapy into mainstream medicine as an effective treatment for cancer.

• Shankar Balasubramanian and David Klenerman: Sequencing-by-Synthesis (SBS)

Shankar Balasubramanian and David Klenerman co-invented Sequencing-by-Synthesis (SBS), a Next Generation DNA Sequencing (NGS) method that made possible efficient, low-cost and large-scale genome sequencing. Enhancing our understanding of life, SBS has enabled applications in genomics, medicine and biology.

• Eric Betzig and Harald Hess: Photoactivated Localization Microscopy (PALM)

Eric Betzig and Harald Hess co-invented a super-resolution imaging technology called photoactivated localization microscopy (PALM), enabling scientists to distinguish individual molecules, and study biological structures and processes with unprecedented resolution.

• Andrea Goldsmith: Adaptive Beamforming for Multi-Antenna Wi-Fi

Andrea Goldsmith created technical innovations including adaptive beamforming for multi-antenna Wi-Fi, which have shaped the performance of wireless networking and enabled fast, reliable wireless service around the world.

• Asad Madni: MEMS Gyroscope for Aerospace and Automotive Safety

Asad Madni led the development and commercialization of the MEMS gyroscope for aerospace and automotive safety. Commercialized as the GyroChip and first applied in the aerospace and defense industries, the technology has saved lives around the world through its use in aircraft and passenger vehicles.

• Lanny Smoot: Theatrical Technologies and Special Effects

Disney Imagineer Lanny Smoot is the patent leader, with over 100 patents, at The Walt Disney Company. He has developed many special effects, interactive experiences, new ride vehicle and robotic concepts, and other technological advancements for Disney’s theme parks, attractions, resorts hotels and cruise ships, creating magical guest experiences and driving innovation for future attractions.

• Xiaowei Zhuang: Stochastic Optical Reconstruction Microscopy (STORM)

Xiaowei Zhuang introduced one of the most widely used methods of super-resolution imaging — stochastic optical reconstruction microscopy, or STORM. This technique, which overcomes the diffraction limit of light microscopy to produce images with higher resolution, is used to investigate biological systems and processes.

• Joseph-Armand Bombardier: Snowmobile (Posthumous)

Joseph-Armand Bombardier invented the Ski-Doo® snowmobile. The first mass-produced snow machine, it set industry standards and launched snowmobiling as a sport and recreational activity.

• George Washington Murray: Agricultural Machinery (Posthumous)

George Washington Murray invented agricultural machinery designed to accelerate planting and harvesting processes. He also served in the U.S. Congress and advocated for greater recognition of his fellow Black inventors.

• Mary Florence Potts: Cold-Handle Sad Iron (Posthumous)

Mary Florence Potts invented an improved sad iron, which was lighter and offered a cooler, more ergonomic handle. It was widely commercialized as an easier, safer solution for ironing clothing and linens.

• Alice Stoll: Fire-Resistant Fibers and Fabrics (Posthumous)

Alice Stoll, a research physiologist and pioneer in aerospace medicine, led the development of fire-resistant fabrics. Her work made it possible to rate materials by their ability to protect from thermal burns and demonstrated that fabric could be constructed with fire-resistant fibers.

• Jokichi Takamine: Adrenaline (Adrenalin®) (Posthumous)

Chemist and entrepreneur Jokichi Takamine was a biotechnology pioneer whose research led to the use of adrenaline in medicine. Also known as epinephrine, adrenaline is widely used for many applications, including the treatment of anaphylaxis and cardiac arrest.

• Ralph Teetor: Cruise Control (Posthumous)

Automotive engineer Ralph Teetor invented cruise control. Originally limited to luxury vehicles, this speed control technology has become a standard feature providing greater ease in driving, safety, as well as fuel efficiency benefits.

For biographies of each Inductee, visit https://www.invent.org/inductees/new-inductees.

The Celebration

The 15 Inductees in the class of 2024 will be honored at “The Greatest Celebration of American Innovation,” held in our nation’s capital. Humorist, journalist and podcast host Mo Rocca will serve as emcee for the event.

May 8 – Illumination Ceremony at the National Inventors Hall of Fame Museum at the USPTO Headquarters in Alexandria, Virginia, where new Inductees will place their names on illuminated hexagons in the museum’s Gallery of Icons™.

May 9 – The 2024 National Inventors Hall of Fame Induction Ceremony will be held at The Anthem in Washington, D.C., where the new Inductee class will be honored for its contributions to society during an evening event including a black-tie dinner and ceremony. To learn more about the event, visit https://www.invent.org/induction.

“For more than 50 years, the National Inventors Hall of Fame has proudly recognized extraordinary creators and innovators,” said CEO Michael Oister. “The stories of our class of 2024 — and their world-changing inventions as diverse as cancer treatments, imaging technology, agricultural machinery and the snowmobile — will be incorporated into our children’s invention education programs such as our summer and afterschool programs Camp Invention and Invention Project. These programs tap into innate problem-solving skills of educators and students through high-energy, interactive STEM experiences.”

Posted: January 24, 2024

Source: National Inventors Hall of Fame

Lindauer DORNIER GmbH: Succession Plan In Place

(left to right): Dipl.-Ing. Andreas Kueckelmann, Dipl.-Ing. Peter D. Dornier, Dipl.-Wirtsch.-Ing. Franz-Peter Matheis

LINDAU, Germany — January 24, 2024 — After 35 years in the company, including 25 years as managing director, Peter D. Dornier will hand over the operational management of Lindauer DORNIER GmbH on July 1, 2024, to join the Supervisory Board of the family-owned company. His successor as chairman of the board of management will be Andreas Kueckelmann, previously technical managing director at DORNIER. He will be supported by commercial managing director Franz-Peter Matheis.

The planned change at the top is part of a rejuvenation of the operational level aiming to make the traditional family business fit for the future. “By handing over the operational management and making the planned move to the Supervisory Board, I am following DORNIER’s tradition of interweaving the established with the new,” says Peter D. Dornier.” As a member of the Supervisory Board, I will do everything in my power to ensure that Lindauer DORNIER remains an independent, internationally active family business and continues to operate successfully.”

Clear commitment to production in Germany

In 1989, after studying mechanical engineering in Esslingen and completing his diploma thesis in gas turbine design at mtu in Munich, Peter D. Dornier joined the family business, which his father Peter Dornier had founded in Lindau-Rickenbach in the summer of 1949 with engineers from Dornier’s former aircraft building division.

Taking over as speaker of the board of management in 1999 later on promoted to CEO, he continues to drive forward the technological development of DORNIER, already an internationally renowned mechanical and plant engineering company at the time. He is supported in this endeavour by longstanding employees. “The fact that Lindauer DORNIER has grown from a small sapling to a stately tree in the 75 years of its existence is due above all to the commitment and good ideas of our workforce,” said Peter D. Dornier.

Today, around 1,000 “Dornianers” work at the company, 63 of whom are trainees. Peter D. Dornier also remains true to the company’s clear commitment to producing all of its machines and systems exclusively in Germany. Basis for this are the “Seven Commandments”, principles of Lindauer DORNIER GmbH, which he developed with a group of leading employees after joining the company in the early 1990s and which still guide the company today.

DORNIER is currently realizing the largest investments in its recent company history in order to make the Lindau and Esseratsweiler sites fit for the future. In addition to modernizing the machinery, this also includes new photovoltaic systems on the roofs of the production halls. In the long term, DORNIER aims to cover most of its electricity requirements from renewable sources.

The investments in the new training center at the headquarters in Lindau also show that the family business is serious about rejuvenation. From 2024, up to 75 young people will be trained here on 1,000 square meters as mechatronics engineers, industrial mechanics, machine and plant operators as well as commercial employees and dual university students.

Strategic focus on flexibility and quality

During Peter D. Dornier’s tenure as CEO, the weaving machine division has been characterized by the increasing demand for technical textiles. While the manufacture of clothing and home textiles, which are also produced on DORNIER weaving machines, is mainly about mass, the focus for technical textiles for the chemical, automotive and aerospace industries is on precision, quality and maximum production reliability. Under his leadership, the engineering-driven company therefore consistently follows the new credo “Quality creates value” and positions itself as a reliable partner working closely together with manufacturers of high-quality, technically sophisticated fabrics.

These manufacturers also appreciate the durability and flexibility of DORNIER weaving machines, which achieve running times of over 40 years. To enable fabric manufacturers to convert DORNIER air-jet and rapier weaving machines more quickly, Peter D. Dornier is driving forward the platform concept. A milestone in this strategy was the market launch of the P2 rapier weaving machine in 2019. Thanks to its modular design, fabric manufacturers can easily adapt it and thus react quickly and flexibly to market fluctuations. “Anything that can be wound onto a yarn spool can be processed on a weaving machine from DORNIER,” says Peter D. Dornier, “whether airbags, protective clothing, vehicle tires or high-quality textiles made from silk, wool and linen — all these convenient and necessary companions of our modern life are produced worldwide every day using technology from Lindau on Lake Constance.”

Part of fast-growing future fields

When Peter D. Dornier took over the business of Lindauer DORNIER in 1999, smartphones, photovoltaic systems and electric cars in large quantities were still visions of the future. Today, DORNIER’s Special Machines division designs, develops and builds plants on which the company’s customers produce e.g. special films for smartphones, PV systems and lithium-ion batteries for electric vehicles.

Peter D. Dornier has thus “interwoven” the traditional family business from Lake Constance with three important and fast-growing future fields. Films for packaging food and medicines are also produced on these plants. Lindauer DORNIER GmbH is the market and technology leader in the field of machines for the production of biaxially oriented polyester film (BOPET).

As the company is heavily dependent on the global economy, with an export ratio of over 90 per cent, the special machines division has proven its worth, especially in difficult times. For example, while fewer textiles were woven during the COVID-19 pandemic, the demand for packaging rose sharply due to the higher hygiene requirements worldwide.

Fibre composite components in series production

Peter D. Dornier demonstrated his pioneering spirit by founding the Composite Systems (CS) division in 2014, in which DORNIER bundles its decades of experience in the construction of weaving machines and film stretching systems. Here, the company develops state-of-the-art systems for the scalable series production of high-quality yet cost-effective composite semi-finished products made of carbon, glass and aramid for the growing fibre composite industry – an industry that is also on the rise due to increasing sustainability requirements and the associated demand for weight and CO2 savings. Highly specialised suppliers use CS systems to produce lightweight components for sports equipment, high-performance vehicles and aircraft.

In a way, Claude Dornier’s grandson is taking the company back to its roots: while the knowledge of the former aircraft engineers around founder Peter Dornier was used in the construction of weaving machines when Lindauer DORNIER was founded, the expertise of DORNIER engineers now flows into the production of components for the latest aircraft.

Posted: January 24, 2024

Source: Lindauer DORNIER GmbH

Advance Denim Launches Matte Denim Collection Leveraging Matte TENCEL™ Lyocell Fibers

LENZING, Austria — January 24, 2024 — Lenzing Group, a global producer of wood-based specialty fibers, announced an exciting collaboration with China’s internationally recognized denim mill, Advance Denim, to use matte TENCEL™ Lyocell fibers for its latest Denim Collection. As a long term partner for more than 15 years, this collaboration marks a significant milestone in the pursuit of bringing planet-conscious denim solutions that combine style and comfort to consumers.

Advance Denim was found in 1987 and has the distinction of being the longest-standing denim mill in China. It supplies denim to renowned brands around the globe. The company built its reputation by creating beautiful, inventive denim styles that incorporate groundbreaking technologies with timeless indigo dye techniques. Denim styles created by Advance Denim continue to evolve based on the mill’s understanding of the global market trends, with sustainability and innovation being the centre of the business.

Addressing the need for advanced fiber offerings in the denim sector

Amy Wang, General Manager of Advance Denim

“Sustainability and innovation have always been one of Advance Denim’s core beliefs. We continue to work closely with our suppliers to apply the latest sustainable fiber technology to fabrics and bring denim products that meet the demand for environmental protection practices while being stylish and comfortable at the same time. Our long-term partner Lenzing shares the same values as us. Denim products that incorporate TENCEL branded fibers have a specific hand feel and sustainability edge that meet current market needs and have been well received by consumers,” said Amy Wang, general manager of Advance Denim.

The TENCEL brand has long been recognized for its commitment to offering innovative and planet-friendly fiber solutions1 that strive to enhance the adoption of responsible production2 within the textile industry. Leveraging resource-saving, closed-loop production process3, TENCEL fibers are naturally soft and smooth to the touch and support a natural dry feeling through moisture control. The rollout of matte TENCEL Lyocell fibers in 2021 provided denim manufacturers with a solution that enabled them to enjoy the ample tactile and environmental benefits of TENCEL fibers, while also maintaining a matte finish on the end product.

Meeting consumers’ need with products that address their stylistic and sustainability needs

A matte finish is often sought out for denim applications as it is often associated with a sophisticated and versatile aesthetic with the goal of creating a more contemporary look, appealing to consumers looking for fashion-forward and modern denim styles.

“Matte TENCEL fibers are an extremely important innovation for the denim sector as they address the need for responsible denim made with less shine for a more vintage look. Many brands are currently looking for styles that meet this criterion while also providing softness and drapability for wide-leg jeans. Matte TENCEL fibers create the perfect mixture of performance and sustainability without sacrificing that true vintage indigo look,” added Amy. “The matte denim in the ‘Denim Collection’, achieved by using matte TENCEL fibers, not only has exceptional softness to the touch, but its fiber properties also make the denim more like traditional cotton jeans after washing. This will enable the final garments to retain the intended retro style of the fabric.”

Dennis Hui, Global Business Development Manager, Denim at Lenzing

Tapping into market trends to understand the needs of consumers

“Investing in fiber innovation to increase the design versatility of our offerings, such as matte TENCEL fibers, is a top priority for Lenzing, as it helps empower our brand partners in addressing the needs of the growing number of conscious consumers,” said Dennis Hui, Global Business Development manager, Denim at Lenzing. “We are excited to build on our partnership with Advance Denim and combine our fiber solutions with their vast reach in the textile sector to set new benchmarks for eco-conscious denim and drive positive change in the fashion industry.

Amy further added: “The entire denim industry is increasingly paying attention to sustainable and responsible practices, and consumers are looking for products with a lower environmental impact. This includes the use of natural or recycled materials and eco-friendly manufacturing processes. Brands that emphasize sustainability in denim production can capture the attention of environmentally-conscious consumers. The domestic market in China, the United States and Europe will continue to be Advance Denim’s key target markets going forward and considering the rapid growth of the fashion industry in Asia and rising sustainability awareness in Japan and South Korea, for example, we see a lot of potential in these markets as well.”

Advance Denim x matte TENCEL

The “Denim Collection” hopes to redefine the denim landscape by embodying style, functionality, and sustainability, in line with the commitments of both Advance Denim and the TENCEL™ brand. Stay tuned for more updates on how the “Denim Collection” will be brought to market.

1 TENCEL™ Lyocell and Modal fibers are certified with the EU Ecolabel for textile products (license no. AT/016/001) for environmental excellence.

2 The responsible production of TENCEL™ Lyocell and Modal fibers uses at least 50% less water and emits at least 50% less CO2 compared to generic lyocell and modal fibers, according to Higg MSI, thereby saving precious resources for future generations. Results based on LCA standards (ISO 14040/44) and available via Higg MSI (Version 3.7).

3 Savings consider solvent recovery.

Posted: January 24, 2024

Source: The Lenzing Group

Rieter Announces Solid Sales In The Financial Year 2023 Despite Challenging Market Environment

WINTERTHUR, Switzerland — January 24, 2024 — The Rieter Group closed the financial year 2023 with slightly lower sales than in the previous year. According to the first, unaudited figures, total sales of CHF 1 418.6 million were achieved, which is around 6% down on the previous year (2022: CHF 1 510.9 million). In line with expectations, the order intake of CHF 541.8 million was considerably below the previous year (2022: CHF 1 157.3 million). Rieter expects a positive EBIT margin of around 7 percent for the full year 2023 (2022: 2.1 percent).

Sales by business group

The Business Group Machines & Systems recorded sales of CHF 965.0 million, a decrease of 7% compared to the previous year (2022: CHF 1 034.7 million). In the Business Group Components, sales fell to CHF 266.2 million, down 12 percent from the previous year (2022: CHF 303.5 million). The Business Group After Sales recorded sales of CHF 187.4 million, 9 percent higher than the previous year (2022: CHF 172.7 million).

Order intake

In line with expectations, the order intake of CHF 541.8 million in 2023 was considerably below the previous year (2022: CHF 1 157.3 million). As already reported, the market situation is characterized by investment restraint due to geopolitical uncertainties, higher financing costs and consumer reticence in important markets. While Rieter recorded higher demand in the second half of 2023, project commitments have not yet been able to materialize.

Order backlog

At the end of 2023, the company had an order backlog of around CHF 650 million (December 31, 2022: CHF 1 540 million).

EBIT margin

Thanks to the measures taken under the “Next Level” performance program, Rieter improved profitability in the second half of 2023 and expects a positive EBIT margin of around 7 percent for the full year 2023 (2022: 2.1 percent). This puts it at the upper end of the guidance of between 5-7 percent defined in October 2023 and it is mainly attributable to a better operating performance.

Results press conference 2024

Rieter will provide further details on the financial year on March 13, 2024. The Group will also publish its Annual Report 2023 and hold an annual results press conference.

Annual General Meeting of April 17, 2024

The next Annual General Meeting of Rieter Holding Ltd will take place on Wednesday, April 17, 2024. Proposals regarding the agenda must be submitted in writing to Rieter Holding Ltd, Office of the Company Secretary, Klosterstrasse 32, CH-8406 Winterthur, Switzerland, by no later than February 23, 2024, accompanied by information concerning the relevant motions and evidence of the necessary shareholdings (with a par value of CHF 0.5 million as stipulated by §9 of the Articles of Association).

Market remains challenging

Rieter is operating in a challenging market environment due to the economic and geopolitical conditions as well as the continuing weak demand. There are initial signs of a market recovery visible for the financial year 2024. Rieter will present an outlook for the financial year 2024 at the annual results press conference on March 13, 2024.

Posted: January 24, 2024

Source: The Rieter Group

Protein Evolution, Basecamp Research Aim To Make Polyurethane And Nylon Infinitely Recyclable With Expanded Strategic Collaboration 

NEW HAVEN, Conn. — January 24, 2024 — Protein Evolution Inc., a biological recycling company working to decarbonize plastic production, and Basecamp Research, the world leader in mapping biodiversity data for AI biodesign, announced an expanded collaboration around enzyme development to help eliminate global polyurethane and polyamide (nylon) waste.

Protein Evolution’s Biopure™ technology uses AI-designed enzymes to break down polyester waste and transform it into the building blocks of new polyester. By leveraging Basecamp Research’s biodiversity mapping system, Protein Evolution will unlock previously inaccessible enzymes that target polyurethane and polyamide waste. These complex materials significantly hamper the pursuit of circularity in both the fashion industry and several other sectors. Polyurethane, commonly found in products like spandex, mattresses, sofas, car seats, and insulation panels, poses a substantial recycling challenge. Similarly, polyamide is used in athleisure, fishing nets, and various other technical products. Together, these materials account for a notable 10 percent of global plastic production. Their complex composition makes them notoriously difficult to recycle, leading to their accumulation in landfills and incinerators.

“Up until now, the biological recycling of polyamide and polyurethane waste has only been explored in the lab. This collaboration with Basecamp Research will change that,” said Connor Lynn, co-founder and chief business officer of Protein Evolution. “Our Biopure technology provides a viable solution for petrochemical companies, manufacturers and brands as we work to meet global decarbonization goals and lessen the burden of fashion waste on our planet.”

The strategic collaboration between Protein Evolution and Basecamp Research will focus on designing novel enzymes that can break down the long chemical chains of polyurethane and nylon into their constituent precursor molecules. In addition to being fully circular, textile and plastic products made from these recycled ingredients will have a significantly lower carbon footprint, while maintaining the quality and strength of virgin plastic.

“We’re thrilled to be a foundational technology partner for Protein Evolution’s ambitious vision for a decarbonized plastics industry, which has already captured the attention of numerous leading brands,” said Dr. Glen Gowers, co-founder of Basecamp Research. “Our teams share the same belief that nature is our best inspiration for solving our planet’s most pressing challenges. We cannot wait to combine our highly complementary technologies and dive further into Basecamp Research’s unrivaled map of microbial biodiversity to supercharge Protein Evolution’s development and scale-up of enzymatic plastic recycling processes.”

Basecamp Research has a unique advantage when designing enzymes to degrade man-made materials, as their global research team and biodiversity partners are constantly and intentionally sampling in environments that are understudied and industrially relevant, including contaminated soils and waters. With over six billion relationships between genes, genomes, environments, and other biologically relevant data in Basecamp Research’s map of biodiversity, their AI platform draws on comprehensive real-world data to predict the physical and functional properties of their designed proteins.

By combining Basecamp Research’s platform with Protein Evolution’s scale-up expertise, this collaboration will accelerate the development timelines of novel enzymes for biological recycling from years to months.

Posted: January 24, 2024

Source: Protein Evolution, Inc./Basecamp Research

DuPont And Point Blank Enterprises Announce Exclusive Partnership For DuPont™ Kevlar® EXO™

WILMINGTON, Del. — January 22, 2024 — DuPont and Point Blank Enterprises (PBE), a global leader in protective solutions for military and law enforcement professionals today announced an exclusive agreement to offer body armor made with Kevlar® EXO™ aramid fiber for North America State and Local Law Enforcement departments.

Kevlar EXO aramid fiber is the most significant aramid fiber innovation in more than 50 years and an entirely new technology platform developed to serve endless applications where performance and protection is required in intense and demanding conditions. Kevlar EXO offers body armor an unprecedented combination of lightweight, flexibility and protection from an aramid fiber.

DuPont Kevlar has long been the advanced material behind high-performing body armor that helps protect those who serve. Now, with this new body armor crafted by Point Blank using Kevlar EXO, law enforcement officers can experience previously unavailable levels of ballistic protection without compromising on mobility and comfort. With unmatched pliability, Kevlar EXO contours to curves and body lines, helping to provide a more body-inclusive solution while still offering maximum protection. Kevlar EXO technology combined with Point Blank’s body armor design and manufacturing capabilities will answer the demand for lightweight protection without having to sacrifice comfort and mobility.

“We are proud to partner with Point Blank, a leader in law enforcement protection to improve the comfort and mobility for law enforcement personnel by using our combined capabilities to create the most comfortable body armor in the world,” said Steven LaGanke, global business leader, DuPont Life Protection. “This new body armor will meet NIJ standards while providing a flexible and lightweight solution that helps empower law enforcement personnel to operate at peak performance.”

Michael Foreman, executive vice president of Point Blank Enterprises said: “the new NIJ certification standard that was released in November 2023 has higher conditioning and protection level requirements that shall result in improved ballistic protection for law enforcement, now with Kevlar EXO we have been able to create a suite of new offerings that meet and exceed these requirements with a solution more comfortable and flexible than any other option on the market. We cannot wait to start protecting law enforcement officers with this new innovation later this year.”

Posted: January 23, 2024

Source: DuPont

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