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09.02.2021

Sicomin: Collaboration with GREENBOATS® for natural fibre composite

Sicomin announces its latest collaboration with GREENBOATS® as they deliver the first ever natural fibre composite (NFC) nacelle for an offshore wind turbine.  

With more than 2.5 million tons of composite materials in use in the wind industry globally, and the first generation of wind turbines now approaching end of life, there is still a lack of well-established recycling options. GREENBOATS’ mission is to demonstrate how large-scale NFC structures in wind energy can lower energy consumption in manufacturing and significantly improve the sustainability of the composite materials used in the turbine.

In 2020, GREENBOATS was commissioned by a leading wind energy technology developer to design and manufacture a sustainable NFC nacelle. The resulting 7.3m long structure has a surface area of approximately 100m2 and was engineered by GREENBOATS to satisfy all DNV-GL load cases required for an offshore turbine nacelle, including 200km/h max wind loads and 2KN loads on the guard rails.

Sicomin announces its latest collaboration with GREENBOATS® as they deliver the first ever natural fibre composite (NFC) nacelle for an offshore wind turbine.  

With more than 2.5 million tons of composite materials in use in the wind industry globally, and the first generation of wind turbines now approaching end of life, there is still a lack of well-established recycling options. GREENBOATS’ mission is to demonstrate how large-scale NFC structures in wind energy can lower energy consumption in manufacturing and significantly improve the sustainability of the composite materials used in the turbine.

In 2020, GREENBOATS was commissioned by a leading wind energy technology developer to design and manufacture a sustainable NFC nacelle. The resulting 7.3m long structure has a surface area of approximately 100m2 and was engineered by GREENBOATS to satisfy all DNV-GL load cases required for an offshore turbine nacelle, including 200km/h max wind loads and 2KN loads on the guard rails.

Sicomin’s market leading GreenPoxy® range met these challenging engineering requirements, with the company’s recently expanded manufacturing capability also matching the potential supply volumes required by wind turbine manufacturers.  

Sicomin’s DNV-GL type approved bio-based epoxy was used to infuse BComp flax fibre reinforcements and balsa cores, with Sicomins’ intumescent weatherproof gelcoat applied on the outer surface. Cured panels were cut to shape, formed over a male plug and bonded together, before flax reinforcement plies, hand laminated with GreenPoxy resins and vacuum bagged, were added along all the panel joints lines.  Finally, Sicomin’s highly UV resistant clear coating products were used to protect and enhance the finish of the flax fibre feature stripe details.

Source:

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Sonntag Fins Switch to Sicomin’s GreenPoxy® 33 Bio Resin (c) Sicomin
Ben vd Steen Flying high
30.11.2020

Sonntag Fins Switch to Sicomin’s GreenPoxy® 33 Bio Resin

Sicomin’s latest marine collaboration with Sonntag Fins sees its industry leading GreenPoxy® 33 bio-based epoxy resin used for custom carbon fibre windsurf fins - combining speed, fatigue performance and sustainability for some of the fastest sailors afloat.

Targeted at windsurf slalom sailors, racers and speed sailors, each Sonntag fin is a custom made product, tailored specifically to the user based on a discussion about riding style, physical size and weight, as well as how the rider likes to load the fin whilst sailing.  This attention to detail and bespoke manufacturing places a huge importance on the performance and consistency of the raw materials used, with all new materials having to be validated in production, on the test rig in the lab, and on the water by the team riders.

Sicomin’s latest marine collaboration with Sonntag Fins sees its industry leading GreenPoxy® 33 bio-based epoxy resin used for custom carbon fibre windsurf fins - combining speed, fatigue performance and sustainability for some of the fastest sailors afloat.

Targeted at windsurf slalom sailors, racers and speed sailors, each Sonntag fin is a custom made product, tailored specifically to the user based on a discussion about riding style, physical size and weight, as well as how the rider likes to load the fin whilst sailing.  This attention to detail and bespoke manufacturing places a huge importance on the performance and consistency of the raw materials used, with all new materials having to be validated in production, on the test rig in the lab, and on the water by the team riders.

With this in mind, Sonntag Fins approached Time Out Composite, Sicomin’s German distributor,  looking for a new resin system that could reduce cycle times and improve manufacturing output.  Bio-based systems were discussed, but the first product used by Sonntag was Sicomin’s SR1280 laminating system which delivered immediate results, enabling shorter cure cycles, and exceeding all of the previous mechanical test targets.

In 2020, Sonntag and Time Out Composite revisited the topic of a more sustainable epoxy resin system. It was the perfect time for Sonntag Fins, with their new unique bright green UV resistant outer finish, to go green on the inside too with Sicomin’s GreenPoxy® 33 resin.

Test fins were produced with the new material performing well in production trials. Pure resin samples were also tested and post-cured at 140 ̊C, with the new GreenPoxy® 33 samples showing significantly higher elongation at maximum resistance, meaning the cured epoxy was less brittle and susceptible to damage should a customer’s fin meet a rock. With mechanical properties improved, Sonntag switched production to GreenPoxy® 33 in August 2020.

Sonntag fins are manufactured in CNC machined aluminium moulds using GreenPoxy® 33 and a bespoke lay-up of woven, stitched biaxial and heat-set unidirectional carbon fibre fabrics in four steps:
• The first step in the moulding process is the application of Sonntag’s unique green in-mould coating.
• Next, the individual fabric plies, cut using precisely machined templates, are placed into the mould and then wet-out with the low viscosity epoxy. With the laminate stack complete, the mould is closed and loaded into a heated press for around 2 hours to consolidate and cure the fin.
• After curing, the demoulded fins are tempered in an oven at 140 ̊C, then only a light sanding is required to create the final surface roughness for optimum flow characteristics in the water.
• Finally, the fins are cut to the required length and the base adapter is molded to the epoxy-carbon blade in a specific mould.
With each fin being optimized for its rider, it is critical that each piece produced will bend and twist in exactly the way it has been designed to do so, providing the rider with exactly the feel and feedback they want for their board and fin. Each Sonntag fin is tested on a unique CNC controlled servo and stepper motor driven test bench that Joerg has developed, building a database of test results that not only ensures the products perform as designed but also validating the consistency of the manufacturing process and raw materials.
“We produce high-performance windsurfing fins that need to accommodate significant loads during sailing. Fins need to combine flexibility with extremely high torsion stiffness that places high interlaminar shear forces on the resin, especially in our softer fins.” commented Joerg Sonntag, MD, Sonntag Fins. “A key requirement for us is a resin that maintains its mechanical properties for many years, and this is where the Sicomin systems deliver”

COBRA provides high-quality mass production for ARE Tahiti’s new composite canoes (c) COBRA
23.11.2020

COBRA provides high-quality mass production for ARE Tahiti’s new composite canoes

Cobra International, Chonburi, Thailand: COBRA International, one of the world’s largest OEM manufacturers of composite goods for Water Sports, Automotive, Marine and Civil Engineering, is pleased to confirm the shipment of its first 36 composite canoes to ARE Tahiti.

COBRA has collaborated with leading outrigger canoe brand ARE Tahiti to mass produce its new OC-1 canoe, ‘Mana’. Designed by former professional windsurfer Baptiste Gossein  (JP Australia and Neil Pryde), ‘Mana’ features a closed deck on which the paddler sits on top of the hull. Available in two models; a hybrid version weighing 12kg, using an 80:20 mix of E-glass and carbon fibre reinforcement fabrics, and the PRO model – a weight optimized, ultra-light, full carbon version that weighs as little as 9kg.   

“We required the best in composite construction for both models, a stunning final finish and a build rate that could keep up with our growing order book”, comments Baptiste Gossein.

Cobra International, Chonburi, Thailand: COBRA International, one of the world’s largest OEM manufacturers of composite goods for Water Sports, Automotive, Marine and Civil Engineering, is pleased to confirm the shipment of its first 36 composite canoes to ARE Tahiti.

COBRA has collaborated with leading outrigger canoe brand ARE Tahiti to mass produce its new OC-1 canoe, ‘Mana’. Designed by former professional windsurfer Baptiste Gossein  (JP Australia and Neil Pryde), ‘Mana’ features a closed deck on which the paddler sits on top of the hull. Available in two models; a hybrid version weighing 12kg, using an 80:20 mix of E-glass and carbon fibre reinforcement fabrics, and the PRO model – a weight optimized, ultra-light, full carbon version that weighs as little as 9kg.   

“We required the best in composite construction for both models, a stunning final finish and a build rate that could keep up with our growing order book”, comments Baptiste Gossein.

As with all of COBRA’s watersports’ projects, a perfect master model formed the basis of the mass production tooling and two sets of composite hull tooling were taken from the master plug allowing a build rate of up to 50 OC-1 canoes per month.

For the lay-up and construction process, COBRA’s high-performance PVC foam sandwich windsurf board construction provided a solid starting point.  Having selected vacuum consolidated epoxy wet layup for the mix of woven and stitched biaxial reinforcements, COBRA was able to build down to the customer’s weight target with the absolute minimum of waste and additional consumables.  Top and bottom sections of the hull were moulded separately then bonded together, with the smaller outrigger hull – known as the ‘ama’ – produced in the same way.  Prepreg carbon fibre and in-house split mould tooling was also used for the two ‘Iakos’ - the two cross beams that join the ama to the main hull. 

An in-mould applied finish coat was then used for the hybrid OC-1 while the PRO carbon fibre model benefits from COBRA’s ultra-light paint system.

“COBRA is able to provide mass production capability and rapid new model turnaround, as well as delivering consistently high quality. We are delighted with the first COBRA built OC-1s and have received exceptionally positive feedback from both customers and racers” comments Baptiste Gossein.

The next ARE project to enter mass production at COBRA will be the V-1 canoe. Similar to the OC-1 but an open boat that the paddler sits inside, the V-1 will have no rudder or steering system, requiring more finesse to manage underway.

“The OC-1 outrigger canoe is a superb example of our customer focused approach to production process development.  By working closely with Baptiste and the ARE team, COBRA is able to provide mass production capability and a rapid new model turnaround, as well as delivering consistently high quality.  This is a sector in which we expect to see significant expansion over the next few years”, comments Danu Chotikapanich, CEO, COBRA International.

Sicomin Launches New Bio Systems at JEC World 2020. (c) Sicomin
Sicomin Launches New Bio Systems at JEC World 2020.
17.02.2020

Sicomin Launches New Bio Systems at JEC World 2020.

Sicomin continues to assert itself as the leading formulator and supplier of high-performance, bio-based epoxy resin systems with the launch of new bioresins at JEC World 2020, Hall 6, Booth 43. The group will unveil a variety of products that are each available in industrial quantities for series production within Automotive, Wind Energy and Civil Engineering.

Sicomin continues to assert itself as the leading formulator and supplier of high-performance, bio-based epoxy resin systems with the launch of new bioresins at JEC World 2020, Hall 6, Booth 43. The group will unveil a variety of products that are each available in industrial quantities for series production within Automotive, Wind Energy and Civil Engineering.

Bio Fire Retardant Epoxy Gelcoat for Wind Energy and Infrastructure
Sicomin will showcase SGi 128, an innovative intumescent epoxy gelcoat developed specifically for fire retardant coating applications for critical components found in the Wind Energy and Civil Engineering markets.
SGi 128 Gelcoat is produced with 38% of its carbon content derived from non-oil sources and is a halogen free gelcoat that provides outstanding fire protection for epoxy laminates and extremely low smoke toxicity. Available with both fast and slow hardeners, this easy to apply epoxy system forms a much tougher and waterproof part surface than traditional intumescent coatings. Sicomin’s SGi 128 is available in industrial volumes with short lead times and has been successfully tested to EN 13501 (EUROCLASS B-S1-d0) and ASTM E84 (Class A).

NEW Bio Resin for HP-RTM processing for Automotive
Sicomin’s new bio-resin specifically formulated for HP-RTM processing, SR GreenPoxy® 28, is the sixth product in Sicomin’s renowned GreenPoxy® range. SR GreenPoxy® 28 is a fast cycle, low toxicity, third generation bio-based formulation aimed specifically at the HP-RTM moulding processes used for both high performance Automotive structural parts and aesthetic carbon fibre components. The new formulation has been optimized for fast production cycle times and superior mechanical performance and is a more sustainable alternative to traditional resins providing exceptional performance and quality for high volume programmes.

GreenPoxy® InfuGreen 810 on display with the GREENBOATS Flax 27 Daysailer on the JEC Planets
With very low viscosity at room temperature, InfuGreen 810 has been formulated to support manufacturers seeking bio-based alternatives for producing parts using injection or infusion techniques. Produced with 38% plant-based carbon content, InfuGreen 810 holds the DNV GL certification, providing extra assurance of the product’s quality, efficiency and safety standards. This high-performance epoxy infusion system is demonstrated at JEC World through the display of the GREENBOATS Flax 27 daysailer on the JEC Planets.

More information:
JEC World Sicomin
Source:

100percentmarketing

Composite car seat back (c) NaCa Systems
Composite car seat back
05.02.2020

Hexcel and NaCa Systems develop hybrid carbon and wood fiber

Hexcel is collaborating with NaCa Systems, a Tier 1 supplier of natural fiber composite automotive interior parts, on the development of a lightweight carbon fiber prepreg and wood fiber composite sportscar seat back using a rapid press molding process. This innovation validates a short cycle time production process for CFRP and wood fiber composite parts and offers a host of benefits to automotive manufacturers.

Hexcel supplies NaCa Systems with an optimized version of its HexPly® M77CS epoxy prepreg material. HexPly® M77CS is a fast curing hotmelt, thermosetting epoxy matrix, specifically designed for prepreg applications for which short cure cycles and clear surfaces with perfect aesthetics are required.

The lightweight seat back demonstrates a 40% weight saving compared to a typical injection molded plastic component whilst also featuring a significantly improved CO2 footprint vs a full carbon part. The prepreg and wood fiber structure doesn’t produce sharp edged pieces when damaged. In addition, wood fiber composites also increase sound absorption, contributing to improved NVH damping within the vehicle interior.

Hexcel is collaborating with NaCa Systems, a Tier 1 supplier of natural fiber composite automotive interior parts, on the development of a lightweight carbon fiber prepreg and wood fiber composite sportscar seat back using a rapid press molding process. This innovation validates a short cycle time production process for CFRP and wood fiber composite parts and offers a host of benefits to automotive manufacturers.

Hexcel supplies NaCa Systems with an optimized version of its HexPly® M77CS epoxy prepreg material. HexPly® M77CS is a fast curing hotmelt, thermosetting epoxy matrix, specifically designed for prepreg applications for which short cure cycles and clear surfaces with perfect aesthetics are required.

The lightweight seat back demonstrates a 40% weight saving compared to a typical injection molded plastic component whilst also featuring a significantly improved CO2 footprint vs a full carbon part. The prepreg and wood fiber structure doesn’t produce sharp edged pieces when damaged. In addition, wood fiber composites also increase sound absorption, contributing to improved NVH damping within the vehicle interior.

The NaCa Systems seat back will be on display on the Hexcel stand at JEC World 2020.

More information:
Hexel NaCa
Source:

100percentmarketing 

(c) Cobra International
12.11.2019

COBRA International announces manufacturing partnership with Skeeta Foiling Craft

COBRA International, one of the world’s largest OEM manufacturers of composite products, is proud to announce its partnership with Skeeta Foiling Craft to build the new range of hydro foiling dinghies. Skeeta Foiling Craft, founded by father and son team Jim and David French, have been refining their unique concept for a simple, accessible hydro foiling dinghy in Australia since 2015. In collaboration with Dr Ian Ward’s Glide Free hydrofoil technology, Skeeta Foiling Craftdeveloped the 3.66m Skeeta and 2.9m Nikki dinghies that are available in both foiling and displacement sailing configurations, maximising the thrill of foiling in a versatile package that the whole family can use.

COBRA International, one of the world’s largest OEM manufacturers of composite products, is proud to announce its partnership with Skeeta Foiling Craft to build the new range of hydro foiling dinghies. Skeeta Foiling Craft, founded by father and son team Jim and David French, have been refining their unique concept for a simple, accessible hydro foiling dinghy in Australia since 2015. In collaboration with Dr Ian Ward’s Glide Free hydrofoil technology, Skeeta Foiling Craftdeveloped the 3.66m Skeeta and 2.9m Nikki dinghies that are available in both foiling and displacement sailing configurations, maximising the thrill of foiling in a versatile package that the whole family can use.

Jim French was determined to build the Skeeta hull using an expanded polystyrene (EPS) foam core and the single shot closed mould epoxy lamination process pioneered by the windsurf board market, making COBRA International the perfect build partner for series production. Skeeta Foiling Craft first contacted COBRA back in early 2016, when the company started developing initial hull production materials and processes that could match their targets for lightweight, durable and cost-effective construction.

More information:
COBRA Skeeta
Source:

100percentmarketing

Notus (c) Notus Composites FZC
Notus
22.10.2019

Notus Composites celebrates a major manufacturing milestone

Notus Composites has achieved a major manufacturing milestone when the company’s one millionth m2 of fire retardant (FR) epoxy prepreg was shipped from its state-of-the-art facility in the UAE this month. Notus are supplying FR materials for several high profile infrastructure projects in the Middle East, with this latest batch of material being supplied for the new composite Museum of the Future in Dubai.

The one million m2 milestone was reached during a recent production run of Notus’ EPFR-609 glass fibre reinforced epoxy prepreg - a user friendly, long out life, FR prepreg designed for low pressure/vacuum curing at temperatures from 85-120˚C. EPFR-609 can also be supplied as a resin film or as Notus N1-Preg, the company’s versatile single sided prepreg product format. Having set up in 2015 but grown considerably in the past 4 years, Notus Composites has completed an extensive program of testing at well-known fire research laboratories in the Middle East and Europe with particular focus on large scale tests to verify material behavior as part of a complete wall or façade system.

Notus Composites has achieved a major manufacturing milestone when the company’s one millionth m2 of fire retardant (FR) epoxy prepreg was shipped from its state-of-the-art facility in the UAE this month. Notus are supplying FR materials for several high profile infrastructure projects in the Middle East, with this latest batch of material being supplied for the new composite Museum of the Future in Dubai.

The one million m2 milestone was reached during a recent production run of Notus’ EPFR-609 glass fibre reinforced epoxy prepreg - a user friendly, long out life, FR prepreg designed for low pressure/vacuum curing at temperatures from 85-120˚C. EPFR-609 can also be supplied as a resin film or as Notus N1-Preg, the company’s versatile single sided prepreg product format. Having set up in 2015 but grown considerably in the past 4 years, Notus Composites has completed an extensive program of testing at well-known fire research laboratories in the Middle East and Europe with particular focus on large scale tests to verify material behavior as part of a complete wall or façade system.

As a result, Notus Composites EPFR-609 prepreg and NE11-FR surface film is the only epoxy prepreg system to have passed the NFPA 285 exterior and curtain wall test and to have achieved an impressive B2,s1,d0 rating when testing to the European EN13501-1 standard. In addition, these materials have been approved by the UAE’s Dubai Civil Defense (one of the Middle East’s leaders in building fire safety coding) who completed a program of factory inspections and production audits as well as witnessing fire tests themselves.

More information:
Notus
Source:

100% Marketing

(c) Chomarat
09.10.2019

Chomarat fabrics at the KraussMaffei booth during K Messe 2019

Chomarat Group’s composite reinforcements will be featured at the KraussMaffei stand during the next K Messe in Düsseldorf. Chomarat has created a glass reinforcement adapted to the mass production of automotive parts, helping to lighten leaf springs by 60% compared to metal.

Automotive: Producing 60% lighter leaf springs for car's underbody
The new leaf springs made of composites are 60% lighter than their pendants made of steel thanks to KraussMaffei process and the involvement of a network of partners, including Chomarat with G-PLY™ glass reinforcement. Their strength can be deliberately increased in sections where it is required and the corrosion resistance offers further added value.

Chomarat Group’s composite reinforcements will be featured at the KraussMaffei stand during the next K Messe in Düsseldorf. Chomarat has created a glass reinforcement adapted to the mass production of automotive parts, helping to lighten leaf springs by 60% compared to metal.

Automotive: Producing 60% lighter leaf springs for car's underbody
The new leaf springs made of composites are 60% lighter than their pendants made of steel thanks to KraussMaffei process and the involvement of a network of partners, including Chomarat with G-PLY™ glass reinforcement. Their strength can be deliberately increased in sections where it is required and the corrosion resistance offers further added value.

“We created the fabrics, when Engenuity developed the component, Huntsman supplied the matrix system made of epoxy resin, Johns Manville supplied the glass fibers, Schmidt & Heinzmann manufactured the preforms, Alpex designed the RTM mold and Hufschmied (Bobingen, Germany) took charge of post-mold processing of the component by milling. KraussMaffei has taken over the project management for Hengrui and coordinates the project with the partners.” Francisco De Oliveira at Chomarat explains.

More information:
CHOMARAT K 2019
Source:

AGENCE APOCOPE

Tiger Drone (c) COBRA International / HG Robotics
19.09.2019

COBRA delivers first 100 composite fuselage covers for cutting-edge drones

COBRA International is collaborating with HG Robotics, a leading drone manufacturer that specializes in unmanned aerial vehicles (UAVs) for the agricultural market, on a composite fuselage cover for the cutting-edge Tiger Drones.

Undertaking a full range of services with HG Robotics and having been involved from the outset: from the design and engineering through to the prototyping of the composite drone fuselage cover, COBRA has now delivered nearly 100 sets and will produce approximately 500 units throughout 2019.

COBRA International is collaborating with HG Robotics, a leading drone manufacturer that specializes in unmanned aerial vehicles (UAVs) for the agricultural market, on a composite fuselage cover for the cutting-edge Tiger Drones.

Undertaking a full range of services with HG Robotics and having been involved from the outset: from the design and engineering through to the prototyping of the composite drone fuselage cover, COBRA has now delivered nearly 100 sets and will produce approximately 500 units throughout 2019.

The multi-rotor Tiger Drones typically carry spraying equipment and can also carry high definition cameras that provide a wide range of field information. Farmers can measure land profiles, identify any problem plants or areas and manage their cultivation in the most efficient way. The 420 mm square shaped fuselage cover protects the drone’s electronic controls and forms an aerodynamic fairing between the central fuselage and the craft’s 4 rotor arms.
 
The COBRA Design and Development team selected a composite laminate of glass fibre reinforcements for the cover – which don’t interfere with GPS signals used by the drone - and combined these with epoxy laminating resins in a hand laminated, vacuum bag consolidated production process.

COBRA also designed all of the mould tools for the project. The 2-piece aluminium mould was produced by one of COBRA’s long-term tooling partners. This metallic tooling provides an excellent surface finish to the part with absolutely minimal trimming and finishing required.   Moulded parts can go swiftly through a painting and clear coating process before final inspection and delivery to the client.

Danu Chotikapanich, CEO of COBRA International comments: “Our collaboration with HG Robotics is going well, and we are hoping to collaborate further with them on other multi-rotor and fixed wing VTOL (vertical take-off and landing) drone models in the future. These are COBRA’s first parts for the agricultural industry, and they provide an exciting vision as to just a few of the possibilities for lightweight composites in this area and also in the wider commercial UAV market as a whole.”

More information:
glass fibers COBRA
Source:

COBRA International Ltd,

(c) Hexcel
04.03.2019

Hexcel at JEC World 2019

  • Hexcel’s Composite Innovations For Aerospace, Automotive, Energy And Marine Applications At JEC World 2019 Hall 5 - Stand J41

STAMFORD, Conn. – At this year’s JEC World taking place in Paris on March 12-14, Hexcel will promote a wide range of composite innovations for customer applications in aerospace, automotive, energy and marine markets.

Aerospace Innovations

Hexcel’s HiTape® and HiMax™ dry carbon reinforcements were developed to complement a new generation of HiFlow™ resin systems, producing high quality aerospace structures using the resin infusion process. HiTape® was developed for the automated lay-up of preforms and HiMax™ is a range of optimized non-crimp fabrics (NCF). Both products incorporate a toughening veil to enhance mechanical properties, meeting the structural requirements for aerospace parts.

  • Hexcel’s Composite Innovations For Aerospace, Automotive, Energy And Marine Applications At JEC World 2019 Hall 5 - Stand J41

STAMFORD, Conn. – At this year’s JEC World taking place in Paris on March 12-14, Hexcel will promote a wide range of composite innovations for customer applications in aerospace, automotive, energy and marine markets.

Aerospace Innovations

Hexcel’s HiTape® and HiMax™ dry carbon reinforcements were developed to complement a new generation of HiFlow™ resin systems, producing high quality aerospace structures using the resin infusion process. HiTape® was developed for the automated lay-up of preforms and HiMax™ is a range of optimized non-crimp fabrics (NCF). Both products incorporate a toughening veil to enhance mechanical properties, meeting the structural requirements for aerospace parts.

Visitors to JEC will see an Integrated Wing Panel demonstrator and an I-beam, both made with HiTape® reinforcements, and an Opticoms rib made with HiMax™ NCF. The Opticoms rib and I Beam were both manufactured using C-RTM (Compression Resin Transfer Molding). They were injected with Hexcel’s RTM6 resin in a process taking less than 5 minutes. The total manufacturing cycle for both parts was just 4.5 hours.

Also among the Aerospace exhibits, Hexcel will display a composite petal for a satellite antenna, manufactured by Thales Alenia Space Italia. The petal is part of a set of 24 deployable structural elements that form the large area reflector assembly used on board Low Earth Orbit (LEO) observation satellites. Thales Alenia Space Italia selected Hexcel’s HexPly® M18 prepreg for this application, acknowledging the superior mechanical and outgassing properties provided.

Another Hexcel prepreg application on show is a “zero” frame, manufactured by Aerofonctions for the engine area of Daher’s TBM 910/930 single-engine turboprop aircraft. Hexcel’s HexPly® M56 prepreg was selected by Daher for the “zero” frame – a product developed for Out of Autoclave applications that provides the same high quality and performance as autoclave-cured prepregs, from a simple vacuum bag cure in an oven.

With 50 years of experience behind its comprehensive range of high-strength, high-strain PAN-based carbon fibers, Hexcel continues to innovate, and is introducing two new fibers to its portfolio. HexTow® HM50 combines high modulus and high tensile strength, making it ideal for commercial and defense aircraft and engines. HexTow® 85 was developed specifically to replace rayon-based carbon fiber for ablative applications.

HexTow® carbon fiber holds the most qualified carbon fiber positions on aerospace programs in the industry and is the best unsized fiber available on the market. It provides excellent bonding interfacial properties with thermoplastic matrices and is the best-performing fiber for 3D printing applications.

Additive manufacturing is another area of expertise for Hexcel, using PEKK ultra-high performance polymers and HexAM™ technology to manufacture carbon-reinforced 3D printed parts. This
innovative process provides a weight-saving solution for intricate parts in highly demanding aerospace, satellite and defense applications. HexPEKK™ structures offer significant weight, cost and time-to-market reductions, replacing traditional cast or machined metallic parts with a new technology.

Hexcel is well known for its range of weight-saving, stiffness-enhancing honeycombs and the company adds value by providing a range of engineered core solutions to customers from facilities in the USA, Belgium and the newly opened Casablanca plant in Morocco. Hexcel’s engineered core capabilities enable highly contoured parts with precision profiling to be produced to exacting customer specifications. An example of such a part will be on display at JEC. Made from Aluminum FlexCore®, the part is CNC machined on both sides, and formed and stabilized with both peel ply and flyaway layers of stabilization. Aircraft engines benefit from a number of Hexcel core technologies including HexShield™ honeycomb that provides high temperature resistance in aircraft engine nacelles. By inserting a thermally resistant material into honeycomb cells, Hexcel provides a core product with unique heat-shielding capabilities that allows for the potential re-use of material after a fire event.

Hexcel’s Acousti-Cap® broadband noise-reducing honeycomb significantly improves acoustic absorption in aircraft engine nacelles. The acoustic treatment may be positioned at a consistent depth and resistance within the core, or can be placed in a pattern of varying depths and/or resistances (Multi-Degrees of Freedom and 3 Degrees Of Freedom), offering an acoustic liner that is precisely tuned to the engine operating conditions. These technologies have been tested at NASA on a full engine test rig and meet all 16 design conditions without trade-offs.

HexBond™ – the new name in Adhesives

Hexcel’s range of high performance adhesives has expanded considerably following the company’s acquisition of Structil. The company has now decided to unite the range by marketing all of its adhesive products using HexBond™ branding. The comprehensive range of HexBond™ structural film adhesives, foaming adhesive films, paste adhesives, liquid shims, epoxy fillets and Chromium free liquid primers is suitable for a wide range of applications in combination with Hexcel’s prepreg and honeycomb products.

Automotive Innovations

Hexcel’s carbon prepreg patch technology provides an innovative way of locally stiffening and reinforcing metal parts, providing noise and vibration management functionality. HexPly® prepreg patches consist of unidirectional carbon fiber impregnated with a fast curing epoxy matrix that has self-adhesive properties, enabling it to bond to metal in a highly efficient one-step process. These key technology properties are demonstrated in an 18.5kg aluminum subframe (that is 50% lighter than steel equivalents), which was reinforced with 500 grams of HexPly® prepreg and tested by Saint Jean Industries. The part demonstrates a significant reduction in noise, vibration and harshness (NVH). Other benefits include lower production costs, energy savings, increased driver comfort, production flexibility and part count reduction. With this technology Hexcel is a finalist in the JEC Innovation Awards 2019 in the Automotive Applications category.

HexPly® prepreg patch technology was also applied to a hybrid side sill demonstrator developed with Volkswagen and Dresden University to address future crash test requirements, specifically for electric cars. Combining fiber-reinforced plastic (FRP) with metal, the hybrid construction allows for optimum performance including weight savings, enhanced safety, increased energy absorption, battery protection in a crash situation and production flexibility.

Hexcel will also display a lightweight CFRP transmission crossmember produced from Hexcel’s high performance HexMC®-i 2000 molding compound. The transmission crossmember was developed in partnership with the Institute of Polymer Product Engineering (at Linz University), Engel and Alpex. As the part connects the chassis together and supports transmission it has to be stiff and strong, resisting fatigue and corrosion. Hexcel’s HexMC®-i 2000 was selected as the best-performing molding compound on the market, curing in as little as two minutes to produce lightweight, strong and stiff parts.
To produce the transmission crossmember HexMC®-i 2000 preforms are laid up in Alpex molds and compression-molded in a v-duo press that was tailored for the application by Engel. Ribs, aluminum inserts and other functions can be molded into the part using the single-stage process, reducing component-count. Any offcuts from the preforms can be interleaved between the plies of material to provide additional reinforcement in key areas - meaning that the process generates no waste.

Other Automotive promotions on Hexcel’s stand at JEC World include a composite leaf spring manufactured by ZF using HexPly® M901 prepreg. In contrast to steel leaf springs, composite versions offer many advantages including weight savings of up to 70%, high corrosion resistance, optimized system integration and superior performance. HexPly® M901 prepreg reduces the cure cycle to below 15 minutes and provides 15% higher mechanical performance, with enhanced fatigue properties. It also operates at high temperatures, providing a Tg of up to 200°C following a post cure.

Marine Innovations

Hexcel has a comprehensive range of products aimed at racing yacht and luxury boat builders that include America’s Cup, IMOCA class and DNV GL-approved prepregs, woven reinforcements and multiaxial fabrics for hull and deck structures, masts and appendages.

At JEC World Hexcel will display an IMOCA yacht mast manufactured by Lorima using HexPly® high modulus and high strength carbon fiber prepreg from Hexcel Vert-Le-Petit. Lorima is the exclusive official supplier of masts for IMOCA 60 class racing boats.

Hexcel’s HexTow® IM8 carbon fiber has been selected as the highest performing industrial carbon fiber on the market and will be used by spar and rigging manufacturer Future Fibres to manufacture their AEROrazr solid carbon rigging for all the teams in the 36th America’s Cup.

Hexcel’s HiMax™ DPA (Dot Pattern Adhesive) reinforcements are non-crimp fabrics supplied pre-tacked, allowing multiple fabrics to be laid-up more easily in preparation for resin infusion. Providing an optimal, consistent level of adhesion, they allow a faster and more consistent resin flow, as well as eliminating the use of spray adhesive for a healthier working environment and lower risk of contamination. Simply unrolled and applied to the mold or core layer before the introduction of resin, HiMax™ DPA fabrics are widely used in boat building, where lay-up times can be reduced by up to 50%.

Wind Energy Innovations

Hexcel has developed a range of HexPly® surface finishing prepregs and semi-pregs for wind turbine blades and marine applications. Providing a tough, durable and ready-to-paint surface without using in-mold coats, these products shorten the manufacturing cycle and reduce material costs. HexPly® XF2(P) prepreg is optimized for wind blades and has a ready-to-paint surface, straight from the mold, saving at least 2 hours of takt time.

Polyspeed® pultruded carbon laminates were developed for load-carrying elements in a blade structure and are manufactured with a polyurethane matrix that provides outstanding mechanical performance in terms of stiffness and durability. The blade manufacturing process is optimized, with increased throughput. The pultruded laminates are supplied in coils as continuous cross section profiles.
HiMax™ non-crimp fabrics using E-glass, high modulus glass and carbon fibers are also available in a wide range of unidirectional, biaxial and triaxial constructions. HiMax™ fabrics have applications throughout the turbine, from the stitched carbon fiber UDs used in the main structural elements, to glass fabrics and hybrids for blade shells and nacelles. There are also specialist applications such as lightweight fabrics for heated leading edge de-icing zones.

Source:

AGENCE APOCOPE

(c) Sika
05.02.2019

JEC World 2019 Sika Advances Resins innovates with its new high-performance resin

At JEC World 2019, Sika Advanced Resins will unveil Ullit’s new composite tank for trucks that run on compressed natural gas (CNG).

Together with its tailor-made epoxy system designed by Sika Advanced Resins, who are a leader in the development and production of high-performance resins, the tank helps to reduce pollution in urban traffic.

An epoxy laminating system that adapts to different designs
The tank, which contains up to 320 liters is the same size as a conventional diesel fuel tank. "We have been innovating together for more than 10 years! Sika Advanced Resins has developed a specific resin for our new range of high-pressure tanks. This high-performance resin can be adapted to all design constraints, particularly for our very high-pressure hydrogen tanks, up to 700 bar," explains Ullit founder and CEO Claude Hembert.

At JEC World 2019, Sika Advanced Resins will unveil Ullit’s new composite tank for trucks that run on compressed natural gas (CNG).

Together with its tailor-made epoxy system designed by Sika Advanced Resins, who are a leader in the development and production of high-performance resins, the tank helps to reduce pollution in urban traffic.

An epoxy laminating system that adapts to different designs
The tank, which contains up to 320 liters is the same size as a conventional diesel fuel tank. "We have been innovating together for more than 10 years! Sika Advanced Resins has developed a specific resin for our new range of high-pressure tanks. This high-performance resin can be adapted to all design constraints, particularly for our very high-pressure hydrogen tanks, up to 700 bar," explains Ullit founder and CEO Claude Hembert.

Sika Advanced Resins has used its expertise to develop a tailor-made resin to withstand the cyclic pressurization loads on the filament-wound tanks. In combination with carbon fiber the resin provides mechanical resistance for different tank shapes including those for vehicles running on natural gas. "The tank is placed in the same place as a diesel fuel tank and avoids the need for transformations in trucks. In addition Ullit-Sika composites reduce the weight of the tank by a factor of four, a huge benefit when we estimate that one tonne saved on a truck saves four liters of fuel per 100 kilometers in urban traffic," explains Patrick Noirclerc, Local Expert Composites at Sika Advanced Resins.

More information:
JEC World 2019 Sika
Source:

Agence Apocope

(c) AGENCE APOCOPE
22.10.2018

12 Composites Innovators to receive a JEC Innovation Award in Seoul next November 15, 2018

Twelve companies from eight different countries will receive a JEC Innovation Award at JEC Asia 2018. Asia-Pacific is an innovative region that sets the tone for all other regions of the globe. Once again, the JEC Innovation Awards highlight how composites bring solutions considering the new challenges in terms of efficiency, sustainability and life-cycle analysis.

This year, JEC Group awards innovations in the following categories: aerospace (structural and tooling), automotive, commercial vehicles, e-mobility, marine, railway, sports & leisure, infrastructure & civil engineering, industrial equipment, sustainability and additive manufacturing.

The ceremony will take place on Thursday November 15, 2018 at the COEX Center of Seoul (South Korea). Ida DAUSSY (Seo Hye-na), will host the ceremony in front of officials, manufacturers, scientists and composites professionals.

Twelve companies from eight different countries will receive a JEC Innovation Award at JEC Asia 2018. Asia-Pacific is an innovative region that sets the tone for all other regions of the globe. Once again, the JEC Innovation Awards highlight how composites bring solutions considering the new challenges in terms of efficiency, sustainability and life-cycle analysis.

This year, JEC Group awards innovations in the following categories: aerospace (structural and tooling), automotive, commercial vehicles, e-mobility, marine, railway, sports & leisure, infrastructure & civil engineering, industrial equipment, sustainability and additive manufacturing.

The ceremony will take place on Thursday November 15, 2018 at the COEX Center of Seoul (South Korea). Ida DAUSSY (Seo Hye-na), will host the ceremony in front of officials, manufacturers, scientists and composites professionals.

Category: AEROSPACE – STRUCTURAL
Winner: CSIR National Aerospace Laboratories (India)

Most of the composite structures for aircraft are made of carbon-epoxy composites, which can withstand a maximum service temperature of 130°C. As a consequence, carbon-epoxy materials cannot be used in hot zones like engine vicinity areas. The Aeronautical Development Agency (ADA) and CSIR-NAL took up the challenge of developing high temperature resistant composites for use in hot zones of light combat aircraft, which would result in significant weight and cost savings, as well as a considerable reduction in the meantime between failures (MTBF) due to thermal ageing.

The first task was to choose a material system with a service temperature of about ~ 200°C. During the material selection process, it was found that BMI resins are a relatively young class of thermosetting polymers. Hence, a carbon-BMI prepreg was selected due to a number of unique features including excellent physical property retention at elevated temperatures and in wet environments.

It was realized that weight savings and performance can be maximized using co-curing technology. This results in a large reduction of fabrication cycle times, costs and weight. Co-cured structures have fewer fasteners, which results in shorter assembly cycle times and also reduces sealing issues.

A prototype engine bay door assembly was built and tested at 180°C for flight certification. The engine bay door consists of an inner skin and co-cured outer skin assembly with eight transverse stiffeners. The stiffeners were designed with ‘J’ sections. The door size was 1.5 m length, 1 m width and 0.4 m overall depth. The co-cured door was developed using autoclave moulding. Two doors were installed in prototype aircraft and successfully flown.

20th anniversary of the JEC Innovation Awards (c) GROUPE JEC - Thierry-Alain TRUONG
07.03.2018

20th anniversary of the JEC Innovation Awards

  • 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 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.
 

Source:

Dorothée David & Marion RISCH, Agence Apocope

26.02.2018

Hexcel’s Product Innovations for Aerospace, Automotive, Wind Energy and Marine at JEC WORLD 2018

STAMFORD, February 26, 2018 - at JEC World 2018, taking place in Paris March 6-8, Hexcel will display an array of product innovations for customer applications in aerospace, automotive, wind energy and marine markets.
Hexcel’s banner at the exhibit hall entrance features the Airbus H160 helicopter and A350 XWB aircraft, both with carbon fiber livery to acknowledge the high Hexcel composites content in both programs. Hexcel’s reinforcements, prepregs, adhesives and honeycomb materials were selected for the H160’s composite fuselage structures and main rotor blades, contributing to the lightweight fuel-saving design and performance optimization. Airbus has loaned Hexcel an H160 BLUE EDGE blade to display on the booth.

STAMFORD, February 26, 2018 - at JEC World 2018, taking place in Paris March 6-8, Hexcel will display an array of product innovations for customer applications in aerospace, automotive, wind energy and marine markets.
Hexcel’s banner at the exhibit hall entrance features the Airbus H160 helicopter and A350 XWB aircraft, both with carbon fiber livery to acknowledge the high Hexcel composites content in both programs. Hexcel’s reinforcements, prepregs, adhesives and honeycomb materials were selected for the H160’s composite fuselage structures and main rotor blades, contributing to the lightweight fuel-saving design and performance optimization. Airbus has loaned Hexcel an H160 BLUE EDGE blade to display on the booth.

Among the Aerospace promotions at Hexcel’s booth are carbon-reinforced 3D printed parts, made from Hexcel’s HexAM™ additive manufacturing technology that uses PEKK ultra-high performance polymers. Hexcel acquired this technology from Oxford Performance Materials in December 2017 to provide a weight-saving solution for intricate parts in highly demanding aerospace, satellite and defense applications. HexPEKK™ structures offer significant weight, cost and time-to-market reductions, replacing traditional cast or machined metallic parts with a new technology.

Aircraft engines benefit from a number of Hexcel technologies that will be promoted at JEC 2018, including HexShield™ honeycomb that provides high temperature resistance in aircraft engine nacelles. By inserting a thermally resistant material into honeycomb cells, Hexcel provides a core product with unique heat-shielding capabilities that allows for the potential re-use of material after a fire event.
Another honeycomb innovation from Hexcel is Acousti-Cap® broadband noise-reducing honeycomb that significantly improves acoustic absorption in aircraft engine nacelles. The acoustic treatment may be positioned at a consistent depth and resistance within the core, or can be placed in a pattern of varying depths and/or resistances (Multi-Degrees of Freedom and 3 Degrees Of Freedom), offering an acoustic liner that is precisely tuned to the engine operating conditions. These technologies have been tested at NASA on a full engine test rig and meet all 16 design conditions without trade-offs. An example of this technology will be on display at JEC 2018.

Rounding off the aircraft engine exhibits is a CTi fan blade for new generation lightweight turbofan engines from Rolls-Royce, manufactured from Hexcel’s HexPly® M91 high toughness and impact-resistant epoxy prepreg. Hexcel supplies HexPly® M91 as slit tape for the automated lay-up of the complex aerodynamic shape, with a constantly changing thickness across the blade length. The blade which is thinner and lighter than titanium fan blades is currently undergoing flight tests.
Hexcel’s HiTape® and HiMax™ dry carbon reinforcements that were developed for the automated lay-up of preforms for resin-infused aerospace structures will be promoted at the show. Two demonstrator parts, one made with HiMax™ and one with HiTape®, were both infused with HexFlow® RTM6 resin to demonstrate the potential benefits of an integrated design for aircraft skins, spars and stiffeners that meets OEM requirements for production rate increases and cost effectiveness.

Hexcel is also introducing its new range of HiFlow™ advanced liquid resins for aerospace structures manufactured by liquid molding technologies. Based on novel proprietary chemistry, the new resin family will enhance the performance of composites and ease processing when combined with HiTape® and HiMax™ dry carbon reinforcements. HiFlow™ HF610 is the first resin in the range.
Hexcel’s range of high performance adhesives has expanded considerably following the company’s acquisition of Structil last October. Hexcel is relaunching the acquired products under the new HexBond™ brand name at JEC World. This fast-growing range of pastes, liquid shim and film adhesives has a wide spectrum of operating temperatures and is in qualification with a large number of aerospace and industrial OEMs.
In the Planet Aerospace area at JEC, Daher and Hexcel will jointly display an aircraft spar manufactured from HexPly® M56 prepreg. Hexcel’s Neil Parker and Daher R&T Director Dominique Bailly will give a joint presentation focusing on the materials used and the benefits for the finished part. The aircraft spar was designed and manufactured by Daher using Hexcel’s HexPly® M56 prepreg, in slit tape format, that was developed for automated deposition and out-of-autoclave curing. The spar was manufactured using only the vacuum bag process and demonstrates very low porosity levels. It is currently undergoing testing and validation through CORAC funding.

Hexcel’s Automotive promotions at JEC World 2018 include a new prepreg for composite leaf springs, HexPly® M901. In contrast to steel leaf springs used for suspension on vans, trucks and SUVs, newer composite versions offer many advantages including weight savings of up to 70%, high corrosion resistance, optimized system integration and superior performance. Hexcel’s HexPly® M901 prepreg raises the bar further, reducing mold cure time below 15 minutes, a 50% reduction compared to standard industrial prepregs. HexPly® M901 provides 15% higher mechanical performance, with enhanced fatigue properties. It also operates at high temperatures, providing a Tg of up to 200°C following a post cure. Hexcel’s expertise in manufacturing heavy weight glass UD prepregs, with fiber areal weights of up to 1600gsm, allows the company to offer a highly cost-competitive solution for the rapid manufacture of these safety critical components.

Hexcel is constantly seeking ways to ensure that customers obtain the maximum benefit from composites and has recently acquired state-of-the-art simulation technology that accurately predicts how HiMax™ non-crimp fabrics will drape in a mold. Working in collaboration with Nottingham University Hexcel has created a car seat shell, for which the material selection was optimized using this new drape simulation technology. Visitors to Hexcel’s stand at JEC will see an on-screen demonstration that illustrates how the simulation tool operates, predicting process and performance and ensuring that the optimum fabric architecture is quickly identified, reducing the need for expensive trial programs.
Hexcel’s HexMC®-i 2000 carbon fiber/epoxy molding compound has been successfully used by Audi to manufacture a high-performance engine cross brace. HexMC®-i is a fast curing high-performance molding material, suitable for the series production of complex shaped parts and providing excellent mechanical properties. The Audi cross brace covers the engine, providing torsional stiffness for enhanced drive dynamics.

Hexcel’s product offering for customers in the Marine industry has expanded following the acquisition of Formax in 2016 and Structil in 2017. At JEC World, Hexcel will promote its enhanced portfolio of carbon fibers, prepregs, woven reinforcements and multiaxial fabrics for builders of racing catamarans and luxury yachts.
Marine customers have supplied a number of parts for display to illustrate their expertise in manufacturing composite structures from Hexcel materials. These include part of a Diam 24 yacht mast made by ADH Inotec from Hexcel’s HexPly® M79 fast curing, low temperature cure prepreg. ADH Inotec purchased the prepreg from Composites Distribution, a Hexcel Official Distributor that also supplied HexPly® M9.6 prepreg to Lorima for the Outremer 5X catamaran mast section on display. Part of Lorima’s 42m wing mast for a multihull racing boat made with HexPly® prepreg from Vert-Le-Petit (formerly Structil) will complete the marine display.

Hexcel’s innovations for Wind Energy include Polyspeed® pultruded laminates for load-carrying elements in wind blades. These continuous cross-section profiles, made from a polyurethane matrix reinforced with unidirectional carbon fiber, provide consistently high mechanical properties, including high stiffness, fracture toughness and shear strength, combined with low weight and durability. Visitors to Hexcel’s stand will see a 2m diameter coil of pultruded carbon laminate that contains 255m of material in a single roll. This technology offers an economical way of reinforcing large-scale composite structures such as wind turbine blades. Hexcel will also launch its surface finishing prepreg for wind turbine blades and components. This provides a tough, durable and ready-to-paint blade surface without the use of gel coat and results in faster blade manufacture, saving time in production and reducing material costs. The benefits of the new surfacing prepreg will be demonstrated via a wind blade exhibit that has been given four different treatments across the blade surface. These include a section with gel coat, a section of standard prepreg without gel coat, and a section where a fleece has been added to improve surface quality but still requires preparation before painting due to pin holes. The final section made with new HexPly® XF2P surfacing prepreg has a ready-to-paint surface, straight from the mold, without any requirement for gel coat, fleece or finishing operations.

More information:
Hexcel JEC World 2018 Aircraft
Source:

Dorothée DAVID & Marion RISCH, AGENCE APOCOPE

20.02.2018

Hexcel Congratulates Airbus

On Febuary 20, 2018 – Hexcel congratulated Airbus on delivering the first A350-1000 to Qatar Airways earlier today, following successful FAA and EASA Type Certification on November 21.
Hexcel is a major supplier of advanced materials for the A350 XWB program, and composite materials make a significant contribution to the weight savings, performance and fuel efficiency of both aircraft in the family, the A350-900 and the A350-1000. This stretched version of the aircraft is 7 meters longer than the A350-900, carries an additional 40 seats, and offers similar unrivalled comfort and efficiency. Both versions are powered by latest generation Rolls-Royce Trent XWB engines.

Hexcel’s HexPly® M21E/IMA carbon fiber/epoxy prepreg is used to manufacture all composite primary structures of the aircraft, including the fuselage panels, keel beam, wing and empennage. The lower wing cover is the biggest single civil aviation part ever made from carbon fiber and spans 32 meters long.

On Febuary 20, 2018 – Hexcel congratulated Airbus on delivering the first A350-1000 to Qatar Airways earlier today, following successful FAA and EASA Type Certification on November 21.
Hexcel is a major supplier of advanced materials for the A350 XWB program, and composite materials make a significant contribution to the weight savings, performance and fuel efficiency of both aircraft in the family, the A350-900 and the A350-1000. This stretched version of the aircraft is 7 meters longer than the A350-900, carries an additional 40 seats, and offers similar unrivalled comfort and efficiency. Both versions are powered by latest generation Rolls-Royce Trent XWB engines.

Hexcel’s HexPly® M21E/IMA carbon fiber/epoxy prepreg is used to manufacture all composite primary structures of the aircraft, including the fuselage panels, keel beam, wing and empennage. The lower wing cover is the biggest single civil aviation part ever made from carbon fiber and spans 32 meters long.

A further advancement is the introduction of CFRP in other structural components such as the pylon upper spar and door surround. For the first time on an Airbus aircraft, Hexcel’s HexMC® carbon fiber/epoxy molding compound has also been used for the A350-1000 fuselage crutches.

“I send my congratulations to Airbus on delivering the first A350-1000 to Qatar Airways,” said Nick Stanage, Hexcel Chairman, CEO and President. “Hexcel is proud to be a partner-supplier to Airbus and to have Hexcel carbon fiber and composite materials incorporated into so many structural parts in the A350 XWB family.”

More information:
Hexcel’s HexPly® Airbus
Source:

AGENCE APOCOPE, Dorothée DAVID & Marion RISCH

MS-21 Flight Source: www.agenceapocope.com
MS-21 Flight
31.05.2017

Hexcel congratulates Irkut on maiden flight of MC-21 new generation commercial aircraft

Hexcel Corporation congratulates IRKUT on the successful first flight of the MC-21-300 new generation commercial aircraft, which took off and landed at the Irkutsk Aviation Plant airfield, an affiliate of Irkut Corporation, on Sunday May 28.
The MC-21 benefits from the latest advanced carbon fiber technologies including the HexPly® carbon fiber/epoxy prepreg that Hexcel supplies for composite primary structures including the empennage. Hexcel has worked in partnership with Irkut for more than a decade and supported the technology developments initiated for the MC-21 program.

Hexcel Corporation congratulates IRKUT on the successful first flight of the MC-21-300 new generation commercial aircraft, which took off and landed at the Irkutsk Aviation Plant airfield, an affiliate of Irkut Corporation, on Sunday May 28.
The MC-21 benefits from the latest advanced carbon fiber technologies including the HexPly® carbon fiber/epoxy prepreg that Hexcel supplies for composite primary structures including the empennage. Hexcel has worked in partnership with Irkut for more than a decade and supported the technology developments initiated for the MC-21 program.


Thierry Merlot, President – Aerospace, Europe/Middle East/Asia said: “Hexcel is very proud to be associated with this new adventure and landmark within the Russian Aviation History, and we congratulate our customer Irkut and the United Aircraft Corporation (UAC) on their achievement. The MC-21 aircraft employs the latest advanced composites processes and material solutions and Hexcel has made a significant contribution to the development of these technologies.”
The MC-21-300 has capacity for 163 to 211 passengers and targets the largest sector within the commercial aerospace market. The aircraft is expected to begin commercial operations in 2019.

More information:
Hexcel, IRKUT, Flight
Source:

AGENCE APOCOPE

Pilatus & Hexcel AGENCE APOCOPE
Pilatus & Hexcel
22.05.2017

Pilatus aircraft ltd PC-24 super versatile jet built with Hexcel composite materials on display at geneva show

Pilatus is displaying the PC-24 at the European Business Aviation Convention and Exhibition, taking place in Geneva on May 22-24. This highly versatile jet is able to take off and land on very short runways and unpaved strips due in part to the composite-intensive structure, which makes great use of Hexcel’s composite materials and adhesive.

Hexcel’s HexPly® 8552 woven prepreg in carbon and glass variants is used to manufacture a number of the aircraft components including the belly fairing, which is the largest composite structure on the aircraft. HexPly® 8552 is one of Hexcel’s most successful and widely used prepregs for aircraft programs including commercial aircraft and fighter jets. Hexcel’s Redux® 319 epoxy film adhesive is also used for bonding the composite structures. The PC-24 is in the final stages of its certification program following the first flight of the third and final test aircraft on March 6 2017. The aircraft is scheduled for certification and entry into service in the 4th quarter 2017. Pilatus has so far secured 84 orders for the PC-24, which equates to three years of production.

Pilatus is displaying the PC-24 at the European Business Aviation Convention and Exhibition, taking place in Geneva on May 22-24. This highly versatile jet is able to take off and land on very short runways and unpaved strips due in part to the composite-intensive structure, which makes great use of Hexcel’s composite materials and adhesive.

Hexcel’s HexPly® 8552 woven prepreg in carbon and glass variants is used to manufacture a number of the aircraft components including the belly fairing, which is the largest composite structure on the aircraft. HexPly® 8552 is one of Hexcel’s most successful and widely used prepregs for aircraft programs including commercial aircraft and fighter jets. Hexcel’s Redux® 319 epoxy film adhesive is also used for bonding the composite structures. The PC-24 is in the final stages of its certification program following the first flight of the third and final test aircraft on March 6 2017. The aircraft is scheduled for certification and entry into service in the 4th quarter 2017. Pilatus has so far secured 84 orders for the PC-24, which equates to three years of production.

More information:
Pilatus, Hexcel, Jet
Source:

AGENCE APOCOPE