From the Sector

• JEC Group pays tribute to the winners at JEC World 2018

The 2018 session of JEC World, the reference trade show organized by JEC Group, is in full swing and the focus is on innovation!
The JEC Innovation Awards ceremony, which took place on the Agora stage on Wednesday, March 7 at 5 pm, opened with a presentation by Yves Rossy, aircraft pilot and inventor of the first jet-powered wingpack. Then the jury revealed the names of the composite champions up for a JEC Innovation Award. Eleven winning innovations were chosen, out of the thirty finalists that had been previously selected from more than 100 applications from all over the world.

“JEC Group supports innovation. In 1998, it created the first award dedicated to composites, as a way to promote and reward the sector’s champions. Thanks to the work of JEC Group’s teams, the program has become an international benchmark. Each year, we receive more than a hundred applications from all over the world. Selection is now based on criteria like the level of involvement of the innovation’s partners in the value chain, the technical nature of the innovation, or its commercial applications,” explains JEC Group President & CEO Frédérique Mutel.
A new feature this year is that the jury revealed the winners during the ceremony, and the public could choose their favorite innovation before, during, and after the ceremony. So there is still time to vote! Votes are opened until Thursday March 8th, 5pm http://innovationawards.jec-world.events
Did you miss the ceremony?

11 AWARD WINNERS:
AEROSPACE APPLICATION
Winner:
AeroComposit, JSC (Russia) and its partner Solvay (United Kingdom)

• Infusion technology for an aircraft wing

The use of infusion technology to manufacture primary structural components for an aircraft wing. The technology makes it possible to create extra-long, integrated composite structures with complex aerodynamic shapes.

AEROSPACE PROCESS 
2 tied winners!
Winner: Airbus (Germany) and its partners, BMW Group (Germany), Technical University of Munich (TUM) (Germany), Neue Materialien Bayreuth GmbH (Germany), Werkzeugbau Siegfried Hofmann GmbH (Germany), BASF SE (Germany), Foldcore GmbH (Germany), Neenah Filtration (Germany) and SGL Carbon GmbH (Germany)

• Complex structural applications for MAI sandwich technology

Cost-effective production of a complex 2.5D structure made of thermoplastic composite sandwich, with very short cycle times: under 5 minutes for aerospace materials and 2.5 minutes for automotive materials.

Winner: M. Torres Diseños Industriales SAU (Spain)
Moldless process to manufacture one-piece parts
A new manufacturing process for oversized one-piece reinforced composite structures, without requiring the use of complete molds.

AUTOMOTIVE APPLICATION
Winner: Ford Werke GmbH (Germany) and its partners, Gestamp (United Kingdom), GRM Consulting (United Kingdom) and University of Warwick (United Kingdom)

• Lightweight composite automotive suspension part

Structural suspension part made of lightweight composite, using a brand-new patented process for prepreg/SMC/steel overmolding that was designed using a new computer-aided engineering (CAE) technology.

AUTOMOTIVE PROCESS
Winner: Audi AG (Germany) and its partners, Voith Composites GmbH & Co. KG (Germany), Dow Automotive (Switzerland), and Zoltek Corp. (United States)

• Series production of a rear panel module made of carbon composite

For the first time, the potential of carbon fiber reinforced plastics (CFRP) is used to full advantage in series production with a new rear panel module and cost-effective production technologies.

CONSTRUCTION & INFRASTRUCTURE
Winner: Komatsu Seiren Co., Ltd. (Japan) and its partners, Kanazawa Institute of Technology (Japan) and Nagase ChemteX Corporation (Japan)

• Cabkoma cable made of CFRTP

Komatsu Seiren has developed a cable made of molded carbon fiber reinforced thermoplastic (CFRTP), using a very cost-effective process that consists in polymerizing a thermoplastic epoxy resin in situ.

MARINE
Winner: Uljanik JSC (Croatia)

• Composite cargo decks for a vehicle carrier

On the SIEM Cicero, a vehicle carrier with a capacity of 7,000 vehicles, glass-fiber reinforced composites are used for a number of the structures for the cargo decks, thereby considerably reducing the ship’s weight, fuel consumption and CO2 emissions.

RAILWAY
Winner: ELG Carbon Fibre Ltd. (United Kingdom) and its partners, Alstom Transport (United Kingdom), Magma Structures (United Kingdom), the University of Birmingham (United Kingdom), and the University of Huddersfield (United Kingdom)

• A bogie frame made of optimized lightweight carbon fiber

This project has developed the very first carbon-fiber bogie frame that uses a recycled material, making it possible to overcome the obstacles to a commercial adoption of this type of structure.

SPORTS & LEISURE
Winner: BMW Group (Germany) and its partners EDAG Engineering GmbH (Germany), KraussMaffei Technologies GmbH (Germany), Chr. Karl Siebenwurst GmbH & Co. KG (Germany), TUM-LCC (Germany), Automation W + R GmbH (Germany), and FHG-IGCV (Germany)

• A modular construction system for the rear swing arm suspension of a motorcycle

A modular system to produce a complex-shape swing arm suspension reinforced with carbon fiber. The system can adjust the mechanical properties on a case-by-case basis, for a competitive cost and weight compared to metal solutions.

SMART CITIES
Winner: MC Materiales Compuestos (Argentina) and its partners, Plaquimet (Argentina), Purcom (Brazil), IS Groupe - Composite Integrity (France), and G12 Innovation (Brazil)

• The Wet Core Pod composite housing module

The Wet Core Pod is a composite housing module with an industrialization potential that can facilitate the most complex, costly and difficult step in a construction project.

SUSTAINABLE DEVELOPMENT
Winner: Cetim-Cermat (France) and its partner, CETIM (France)

• “3-in-1” line for producing recycled composites

A modular line that uses an innovative thermomechanical process to make large panels from recycled composites or plastics. The panels are then thermoformed into parts.
 

At the upcoming ISPO exhibition, SITIP are pleased to introduce BEHOT, a SITIP Heat Generating Technology for fabrics that has been licensed from the unique ROICA™ StretchEnergy™ System by Asahi Kasei and is already adopted by Santini that is offering Premium cycle wear Made in Italy since 1965.

SITIP is a leading Italian textile company specialized in high-tech and function-rich innovations for sport, technical underwear, shapewear, beachwear, footwear components, protective helmets, and in particular Velcro-receptive fabrics for mechanical fastening systems and a number of innovative technical fabrics for other industrial end-uses, all made through key manufacture technologies that include weft & warp knit fabric innovations.

Further, SITIP has more recently launched 16 unique trade brands, each one specialized in highly advanced innovation solutions designed to fit both market and the discerning needs of the contemporary consumer.

Santini is offering to the market a multi-panel thermal bib tight for the coldest winter training. Made with the special BeHot fabric by Sitip, constructed with the ROICA™ StretchEnergy™ active performance material, it not only insulates, but generates up to 2 degrees of heat as you workout as certified by CeRism, Outdoor Sport Research Centre at Verona University. Complete comfort and protection thanks to the Acquazero by Sitip treatment that ensures you stay dry even in the most challenging conditions.

The design is completed with breathable mesh braces for added comfort and a reflective pixel detail on the leg to improve visibility in low light conditions. BeHOT represents a special combination of a highly refined type of knitted construction combined with this unique ROICA™ Premium Stretch yarn function, and has been especially developed for this new high-function concept.

The AZL will continue its collaboration on composites in buildings and infrastructure after completing an initial market and technology study which identified new potentials for composite technologies in buildings and infrastructure markets. The aim of the new AZL Workgroup which will meet for the first time on January 25th, 2018 is to jointly develop new applications and to support the business development for composites in these two growing markets. The meeting is open to interested companies from the composite industry as well as the building and infrastructure markets.

The aim of the initial workgroup meeting will be to turn insights from the study into a long-term workgroup collaboration and to define topics and initiatives for the joint cooperation in the field of process and manufacturing technologies, fire safety regulations, materials as well as standards and norms. Industrial keynote presentations will introduce these action fields and will provide an insight into building and infrastructure applications for composites. The meeting will furthermore provide a platform to network with companies along the entire composite value chain.

Dr. Amer Affan, CEO and founder of AFFAN Innovative Structures based in Dubai is in charge of various composite projects for buildings such as the Museum of the Future in Dubai: “We have been utilizing structural composites in construction since 2010. Composites is a truly high-tech material compared with the traditional building materials (steel, concrete, timber and aluminum) but it is still to be recognized as such in the conservative and price-sensitive building industry. AZL, particularly its location at the RWTH Aachen University and its partner companies, offers a good platform to progress the use of composites in construction.”

AZL together with more than 25 companies just completed the Joint Market and Technology Study on “New Potentials for Composite Technologies in Buildings and Infrastructure” establishing a broad knowledge on business opportunities for composite technologies in these two growing markets. In a structured approach, the study determined the key segments as well as the technologies/applications with the highest market and technological potential. Analyses of 20 market segments, investigation of 438 applications, technology analyses of 25 highlight components and 11 detailed business cases were elaborated throughout the study. Additional to requirement analyses for materials and production technologies, new concepts for efficient profitable production technologies and cost engineering analysis were developed. With the workgroup, the AZL will take this initiative a step further with the aim to build a long-term cooperation platform for composites in buildings and infrastructure markets.

Justin Jin, CEO of the Korean company AXIA Materials participated in the study and is part of the AZL Partner Network: “As producer of large thermoplastic composite sheets and composite SIP (Structural Insulated Panel), we are eager to drive composites in B&I applications with the best efficient way. The AZL study on Buildings and Infrastructure provided us a great networking with key players in this business field and opportunities to strengthen our products with the key elements from partners. The study also gave us a proper market understanding including market size/volume in numbers to prove the value of this technology to building industry. We are looking forward to following up on these first insights and to realize applications with the AZL and its partners.”

Besides the networking options, the meeting will offer the opportunity to get an insight into the activities of the AZL Network consisting of nine research institutes at the RWTH Aachen Campus and more than 80 companies from 21 countries. During an optional guided tour, participants will visit selected institutes at the RWTH Aachen Campus. The meeting is open to all interested companies and free of charge.

More Information on Meeting and the Study
Information on AZL activities in the field of buildings and infrastructure:
www.azl-lightweight-production.com/composites-buildings-infrastructure
Details and registration to first Workgroup Meeting on January 25th, 2018:
http://www.azl-lightweight-production.com/termine/1st-workgroup-meeting-buildings-infrastructure

 

At the “Future of Composites in Construction” trade show, CHOMARAT and ALTUS GROUP are presenting CarbonCast®, their flagship line of reinforced-concrete prefabricated wall panels, reinforced with CHOMARAT’s C-GRID® carbon-fiber grids. A recent army-hospital project in Greenville, South Carolina is another success story of this innovative product: 18,600 m² (200,000 sq.ft) of precast insulated panels were installed in record time. Come and learn more about it at the McCormick Place Lakeside Center, Chicago, Stand C 10, on 20-22 June 2017.
“Reducing installation time, improving the fire and safety performance, increasing the service life of structures, and cutting energy consumption are crucial criteria in the choice of a CarbonCast solution,” explains ALTUS GROUP Executive Director John CARSON. CarbonCast® panels are classified ASHRAE 90.1. Thanks to the low thermal conductivity of carbon fiber, C-GRID® reinforced panels offer excellent thermal performance, providing uniform insulation and, therefore, a comfortable, energy-efficient building.

JEC Group is launching the first ever book on the growing use of composites in architecture: “The Future of Building: The Growing Use of Composites in Construction and Architecture”. Its 194 pages of information and 80 concrete examples demonstrate the advantages of composites: lightweight, durable, resistant to corrosion, inexpensive to maintain, flexible design etc. “Composites are playing an increasingly bigger role in construction! Between 2016 and 2021, we are expecting a sharp growth in the market and a 5 to 6% annual increase in the use of composites in this sector,” explained Ms. Frédérique MUTEL, JEC Group President & CEO. “This new book supports JEC Group’s strategy towards end users. Composite materials offer tremendous advantages for architects and designers and, for the first time, they are the subject of a book that demonstrates the performance of composites in the construction and furniture industries,” said Ms. Anne-Carole BARBARIN, Development Director at JEC Group.

Hexcel is exhibiting at the SAMPE 2017 technical conference May 23-24, in booth G11, in Seattle, Washington, U.S. to promote its latest materials for aerospace and industrial applications. Specialists from Hexcel’s carbon fibers, reinforcements, prepregs, honeycomb and engineered core groups will be there to speak with attendees about Hexcel’s wide variety of products and offerings.

This year at SAMPE Seattle Hexcel will be promoting its HiTape® dry carbon fiber reinforcements with a C spar panel and co-infused stringer. This display shows the high forming capability of HiTape® reinforcements and how the technology can be used to co-infuse stringers and C spar panels. It is also representative of an aircraft wing construction. HiTape® dry carbon fiber reinforcements are designed for the automated manufacture of preforms at very high deposition rates. The dry preforms are infused with Hexcel’s HexFlow® RTM6 resin for a cost-efficient out-of-autoclave manufacturing process for next generation aircraft structures. Parts produced with HiTape® reinforcements and Hexcel’s HexFlow® infusion resins can be up to 30mm thick with a 58 to 60% fiber volume content, resulting in mechanical properties that are as high as those achieved with primary structure prepregs.