Design, manufacturing processes and material configurations will be sought through three work packages over a 9-month period through the combined efforts of participating engineers and decision-makers.
The ESA project has proven that linerless CFRP tanks for Ariane 6 rocket can handle the extreme temperatures of liquid H2 and O2, and are moving on to testing campaign for 2-meter and 3.5-meter tanks in 2026.
Australian/New Zealand team makes significant step forward in the transition to zero-emission aviation.
The weeks following a trade show like CAMX often demand a bit of catch-up work, leaving room for additional reflection and analysis of the composite industry’s trajectory.
The German Aerospace Center Institute for Lightweight Systems exhibits 1.9-meter autoclave infusion composite structure as part of LUFO UpLift project aiming for LH2 as part of short-haul aircraft propulsion by 2040.
NCAMP documentation lowers barriers for adoption and shortens customer design timelines to enable faster commercial aerospace, defense and AAM qualification.
Greene Tweed examines failure behavior, identifying key factors for improvement and demonstrating sufficient design for complex-shaped aeroengine components.
An update on the CMH-17 Sandwich Disbond Working Group’s sandwich SCB test and two additional sandwich composite fracture mechanics test methods under development.
Lowering cure temperatures without compromising durability, Kaneka Aerospace BMI prepreg TP2230 offers aerospace manufacturers a pathway to reduce tooling costs and lead times while maintaining high-temperature capability.
The Composite Materials Handbook-17 is publishing new data and industry best practices, helping to fill the aerospace industry’s growing knowledge transfer gap and support advanced materials and structures.
CompositesAI integrates with AnalySwift’s VABS and SwiftComp software to streamline the design, simulation and performance evaluation of composite structures — especially rotor blades, shells and panels.
Siemens Xcelerator Platform helps extend racing innovation to production bikes, reduces time for complex composite parts and enables remote design/3D printing at track, digital twin and faster development.
Resilient composite decking includes PRODeck LV for light-duty pedestrian traffic, PRODeck H5 for heavy-duty or harsh environments and Southern Yellow Pine for pedestrian and equestrian bridges.
Envalior was recognized with the Grand Innovation Award and first place in Enabler Technology for a roof cap design and hybrid composite battery cover, respectively.
MiniBars reinforcement is four times stronger than traditional rebar and weighs 30% less, in addition to delivering strength, ductility and greener benefits.
Infinity Recycling has made its first investment in France, embodying the rise of European composites circularity and intensifying Fairmat’s momentum.
Taiwan’s Thermolysis Co. Ltd. has been recognized for its ability to turn rCF into a high-performance building material that enhance durability, extend lifespan and reduce maintenance needs.
Toray Industries process decomposes thermoset CFRP at low temperatures, yielding rCF that retain over 95% of virgin fiber strength, cuts COâ‚‚ emissions by more than half, suppresses thermal damage and better controls resin residue.
Through the Delta system installation, Pantur will integrate continuous fiber injection reinforcement into its additive manufacturing ecosystem, serving to increase the momentum of bringing CFIP to real industrial production.
The ACR 4 builds on the proven reliability of the company’s ACR 3 with enhanced durability, intuitive controls and advanced vacuum technology.
Industry consortium demonstrates a technical and industrial milestone in composites recycling, looking to expand its collaboration for use more widely across U.K. manufacturing.
Plastics processing equipment supplier now offers two LFAM machines to customers and to complement its own production uses, enabling a variety of polymer to fiber-filled application options.
H2 economy is set back by Trump policies, tariffs and funding pivot to defense and AI, but composite tanks remain a key segment with sales in CNG/RNG, growth in New Space and potential for H2-electric aviation.
New players proliferate, increasing CMC materials and manufacturing capacity, novel processes and automation to meet demand for higher part volumes and performance.
Understand the basic science of TPC stamp forming, a manufacturing process steadily gaining momentum in aerospace and mobility applications thanks to its rapid forming, short cycle times and automated methods.
Composites manufacturing intelligence drives circular economy solutions as automotive industry balances technical demands with sustainability mandates.
Choosing the right meter/mix dispensing machine requires careful evaluation of key material and process parameters to develop a precise specification, ensuring key metrics such as accuracy, output, reliability, quality and maintenance efficiency.
Despite political and supply chain challenges, renewable and nuclear energy continue to grow in use. Composite materials enable current and future energy technologies across sectors.
The performance of the final product depends heavily on the degree of cure - making it critical to ensure that the reaction goes to completion for the highest quality and reliability. Achieving this requires both a deep understanding of the resin’s curing behavior and precise control of process parameters. Tools such as differential scanning calorimetry (DSC), dielectric analysis (DEA) and oscillatory rheometry provide powerful ways to characterize thermal transitions, cure progression and flow behavior. Each method delivers distinct insights. In this presentation, NETZSCH will discuss when to use DSC, DEA or oscillatory rheometry. These techniques also serve as the basis for kinetics analysis using Kinetics Neo software. Kinetics modeling allows simulation of resin behavior under any time or temperature conditions. This not only enables process optimization and consistent product performance but also helps reduce manufacturing variability and thus scrap rates by predicting and preventing potential processing issues. Agenda: Comparative use of DSC, DEA and oscillatory rheometry in thermoset cure characterization Kinetic modeling approaches for curing processes The role of vitrification as a critical parameter in cure analysis
Kaneka Aerospace specializes in high-performance composite materials tailored for aerospace and industrial applications. Its portfolio of prepregs, resins and adhesives delivers properties that go beyond lightweight and strength — enabling customers to achieve greater value in manufacturing and sustainability. In this session, Kaneka Aerospace will unveil recent innovations in tooling and structural repair, two critical areas for the economics and longevity of composite structures. Kaneka Aerospace has developed a unique BMI prepreg designed to lower tooling costs while maintaining high performance. Unlike traditional BMI tools that require high-temperature master molds and costly fabrication processes, this prepreg cures first at 250 °F (121 °C) and then undergoes a free-standing post-cure at 400 °F (204 °C). The lower initial cure temperature allows the use of less expensive master molds, while testing demonstrates the carbon fiber reinforced BMI tools’ thermal and dimensional stability under extended use. To further support the composites market’s growth and sustainability goals, Kaneka offers a proprietary repair resin engineered for efficient structural repair. Its low viscosity and balanced mechanical properties ensure effective filling of damage such as delamination and matrix cracks. Comparative testing of repaired versus undamaged composites highlights strong performance across tensile strength, fracture toughness, compression after impact (CAI), and combined loading compression (CLC), showcasing repair as a cost-effective alternative to part replacement.
Ultraviolet energy (UV) curing, also known as energy curing, has been used by the composites industry for some time, but it is still not quite as well-known as some other curing chemistries. The extremely rapid cure speed leads to high throughput and productivity, while the breath of physical properties of the cured resins allow them to be used in a variety of applications. The possibility of making lower VOC/styrene free formulations with very long pot life and reduced waste are also benefits of UV technology. In this presentation, allnex will briefly review what UV curing entails and compare the advantages and challenges of energy curing with thermally curing technologies (for example, peroxide curing of UP resins). In addition to comparing the chemistry of these approaches, we will also look at which composite manufacturing methods best lend themselves to energy curing. We will show some examples of UV curing being used in today’s composites world and where it might go in the future. Finally, this session will review allnex’s line of RAYLOK C products for UV curable composite manufacturing. Agenda: UV technology review Properties of UV cured composites Examples of UV composite technology being used today and possible future uses Review of the allnex RAYLOK C product line
Composite materials offer exceptional performance and design flexibility, but their complexity introduces significant challenges in testing and validation. Accurate and reliable test data is essential for material development and structural design, especially in safety-critical industries such as aerospace, automotive and wind energy. This webinar will provide a comprehensive introduction to composite materials testing, covering the full spectrum of mechanical tests required for static characterization. Attendees will gain insights into industry standards, equipment requirements and best practices for ensuring compliance with auditing bodies like Nadcap. Instron will also explore testing methods such as compression after impact (CAI), shear, and flexural testing, and discuss emerging trends shaping the future of composite testing. Agenda: Understand the key physical properties of composite materials Identify common mechanical test types and relevant standards Recognize equipment and setup requirements for composites testing Anticipate and address common testing challenges Explore future trends in composite testing
High-pressure resin transfer molding (HP-RTM) has been established in the automotive industry as technology for manufacturing of high-performance lightweight composites parts made out of fiber textiles embedded in epoxy resin, bringing down weight but maintaining mechanical properties at the same time, compared to steel or aluminum structures. In recent years, the benefits of the technology have become more and more interesting to the automotive industry and applications in aviation. Agenda: What is HP-RTM: how does it work and what are the key elements of the process chain? Applications in the automotive industry: what can HP-RTM do? Outlook: huge potential for aerospace applications
As defense manufacturing evolves to support faster development cycles and high-volume production, material solutions must deliver both high rate and production agility. Drawing from Syensqo’s expertise in high-rate advanced air mobility and automotive platforms, this session will explore how our composite prepreg and adhesive solutions support scalable, high-throughput manufacturing — while maintaining the durability and reliability required for defense and adjacent markets. The webinar will review materials and process innovations that contribute to faster prototyping, streamlined processing and consistent quality at scale. These solutions offer adaptable performance and are well-suited for applications requiring rapid deployment and manufacturing responsiveness. Agenda: Gain insights into the manufacturing needs of high-volume defense applications and how material selection plays a role Learn how Syensqo’s materials, including those inspired by automotive and aerospace programs, support scalable production Understand how design flexibility and process efficiency help meet throughput and performance demands in rapidly evolving environments
DMC is the nation’s annual forum for enhancing and leveraging the efforts of engineers, managers, technology leaders, scientists, and policy makers across the defense manufacturing industrial base. Leaders and manufacturing subject matter experts from government, industry, and academia exchange information and perspectives on defense manufacturing policies, strategic direction, best practices, funding opportunities, and the latest manufacturing innovations that will benefit our warfighters. Attendees range from CEO- and Flag Officer/SES-level to working-level manufacturing-oriented engineers, scientists, and business practice/policy makers and include technology implementers, system designers and representatives of the warfighters. Typical attendance is over 1,000 primarily government and industry participant with a smaller complement from academia.
Techtextil India, India's most premium expo on technical textiles, nonwovens and composites will take place November 19-21, 2025. The B2B platform will connect international and domestic players with buyers from 12+ industries and allow them to display the latest product innovations which will utimately lead them to achieve their business goals!
At the annual highlight for the Additive Manufacturing industry over 850 AM providers will showcase solutions along the entire process chain to more than 32,000 visitors. In addition, an outstanding supporting program on three stages (Industry, Application and Technology Stage) offers knowledge transfer and AM know-how for future oriented production.
The International Congress on Materials Science and Nanotechnology (Hybrid Event), is scheduled for November 20-22, 2025, in Singapore, featuring both in-person and virtual attendance options. Participants will engage in a rich agenda that includes expert keynote presentations, oral and poster sessions, and panel discussions highlighting recent breakthroughs and future trends in Material Science and Nanotechnology. Topics will range from the development of biodegradable materials and advanced composites to the application of nanotechnology in drug delivery and environmental remediation, fostering an interdisciplinary dialogue that promotes collaboration and knowledge sharing. M-Nano 2025 aims to create an inclusive environment where attendees can enhance their expertise, network with peers, and gain insights into the latest research and industrial advancements. The hybrid format allows for broader participation, encouraging contributions from international scholars and professionals regardless of location.
As the world's leading highlight trade fair for the automation industry, the SPS – Smart Production Solutions brings together over 1,000 exhibitors and an international audience November 25 – 27, 2025, in Nuremberg – focusing on concrete solutions, digital trends and practical innovations.
With the expertise of Artkim, “ International Composites Raw Materials, Semi-Finished, Final Products and Technologies Exhibition” Eurasian Composites Show will bring together industry professionals from around the world at the Istanbul Expo Center.
Thousands of people visit our Supplier Guide every day to source equipment and materials. Get in front of them with a free company profile.
Jetcam’s latest white paper explores the critical aspects of nesting in composites manufacturing, and strategies to balance material efficiency and kitting speed.
Arris presents mechanical testing results of an Arris-designed natural fiber thermoplastic composite in comparison to similarly produced glass and carbon fiber-based materials.
Cevotec, a tank manufacturer, Roth Composite Machinery and Cikoni, have undertaken a comprehensive project to explore and demonstrate the impact of dome reinforcements using FPP technology for composite tanks.
Initial demonstration in furniture shows properties two to nine times higher than plywood, OOA molding for uniquely shaped components.
The composite tubes white paper explores some of the considerations for specifying composite tubes, such as mechanical properties, maintenance requirements and more.
Foundational research discusses the current carbon fiber recycling landscape in Utah, and evaluates potential strategies and policies that could enhance this sustainable practice in the region.
The AMRC’s UAV concept is a complex design and manufacturing challenge that provides a shareable testbed, demonstrating the institute’s ability to develop and refine its expertise through a digital thread.
CarbonForm’s 3DFit technology combines robotic, continuous fiber 3D printing and winding to produce small, high-strength, complex parts — like drone frames — in as little as 10 minutes.
In a region where collaboration and sustainability are inseparable, a new wave of composites entrepreneurs are taking advantage, proving the Dutch mindset is fertile ground for growth.
In early October, the CUBIC consortium held meetings to discuss current progress and upcoming strategies, toured DITF’s research facilities and joined a training session on bio-based carbon fiber development from lignin.
Proven in multiple civil engineering and infrastructure projects, the rCF reinforcement outperforms steel, slashes carbon emissions and doubles structural lifespan.
Highlighted innovations include an aircraft heating system using carbon fibers, TFP-based spatial CFRP structure frame, processes for recycling GFRP, UD TPC tapes and engineered polymers and more.
The composites industry is increasingly recognizing the imperative of sustainability in its operations. As demand for lightweight and durable materials rises across various sectors, such as automotive, aerospace, and construction, there is a growing awareness of the environmental impact associated with traditional composite manufacturing processes.
In this resource, CGTech offers vital information about the benefits, processes, and vendors behind automated composite manufacturing.
CW’s editors are tracking the latest trends and developments in tooling, from the basics to new developments. This collection, presented by Composites One, features four recent CW stories that detail a range of tooling technologies, processes and materials.
ÂÌñÏ×ÆÞ’s CW Tech Days: Infrastructure event offers a series of expert presentations on composite materials, processes and applications that should and will be considered for use in the infrastructure and construction markets.
Explore the cutting-edge composites industry, as experts delve into the materials, tooling, and manufacturing hurdles of meeting the demands of the promising advanced air mobility (AAM) market. Join us at CW Tech Days to unlock the future of efficient composites fabrication operations.
Thermoplastics for Large Structures, experts explored the materials and processing technologies that are enabling the transition to large-part manufacturing.
Explore the technologies, materials, and strategies that can help composites manufacturers become more sustainable.
ÂÌñÏ×ÆÞ’s Tech Days: Design, Simulation and Testing Technologies for Next-Gen Composite Structures is designed to provide a multi-perspective view of the state of the art in design, simulation, failure analysis, digital twins, virtual testing and virtual inspection.
Explore the technologies, materials and strategies used by composites manufacturers working in the evolving space market.
Explore the latest technologies and strategies involving bonding and welding, essential processes in the assembly and manufacturing of composite materials, providing reliable methods for joining components.
During this CW Tech Days event, sponsored by Composites One, experts will offer presentations to review and evaluate the composite materials, processes and applications that should and will be considered for use in the infrastructure and construction markets.
In these sessions, experts will discuss the emerging hydrogen economy and the opportunities for composites in this lucrative space.
A report on the demand for hydrogen as an energy source and the role composites might play in the transport and storage of hydrogen.
This collection features detail the current state of the industry and recent success stories across aerospace, automotive and rail applications.
This collection details the basics, challenges, and future of thermoplastic composites technology, with particular emphasis on their use for commercial aerospace primary structures.
This collection features recent CW stories that detail a range of tooling technologies, processes and materials.