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Joyson Safety 3D Prints Functional Airbag Housing Using Windform

Joyson Safety Systems, a leading provider of mobility safety components, systems and technology, recently developed its first functional 3D printed prototype of a Driver Air Bag (DAB) housing, using selective laser sintering (SLS) and Windform composite material from CRP Technology.

Image courtesy CRP Technology

Joyson Safety Systems already has a history of pioneering innovation in mobility safety solutions, such as airbags, seatbelts, safety electronics and more, for automotive and non-automotive markets. Worth noting is the fact that it was the first manufacturer to supply leading OEMs in North America and Europe with steering wheels with Hands on Detection (HOD) for autonomous driving. In this instance, the company’s Core Innovations team looked to quickly develop prototypes for its airbag housing and turned to additive manufacturing to explore new processes and materials.

Image courtesy CRP Technology

Traditionally, the airbag housing is produced using injection molding made up of a material that is polyamide with 40% glass fiber reinforcement, PA6-GF40. The DAB system, which needs to deploy in just 30-50 milliseconds to prevent injury to the driver, consists of the inflator, airbag cushion, cover and housing attached to the steering wheel. The performance of this system is essential, as a critical safety component of the vehicle that needs to have enough strength, impact resistance, and stability under heat and other diverse environmental conditions. Samer Ziadeh and Daniel Alt from the Core Innovations team explain the requirements for the DAB,

“It is to withstand a high amount of dynamic loads in addition to holding the inflator and the airbag cushion fixed in location during and after the deployment of the airbag system. This load is developed due to the pressure required to inflate the airbag, as a result the large stresses will directly be applied on the airbag system and more particularly on the DAB housing. The test procedures are normally conducted within a various range of temperatures between -35°C and 85°C.”

Image courtesy CRP Technology

In looking for the right material for the DAB, the team found CRP Technology’s patented Windform range of high performance SLS materials more than suitable for their requirements:

“…after running some market analysis in order to find out the most suitable material and process that could deliver the required performance, we came across the Windform TOP-LINE family of composite material and, specifically, the Windform SP. Windform SP brought our attention to the fact that it’s a material produced from polyamide PA grades, reinforced with Carbon fiber or fiber-glass, as a powder form material, and it has almost the required and even better performance for our application.”

Windform has emerged as a high performing SLS material which has been applied in sectors such as motorsports, as with Mercedes AMG Petronas, automotive, and aerospace, as with NASA. Windform materials not only meet the stringent requirements for use in aerospace or motorsports, but can also be CNC machined or post-processed with tooling equipment. CRP has become a leader in high-performance AM materials for SLS with Windform, applying its expertise in a range of proven applications from medical to UAVs, satellites to electric motorbikes.

Image courtesy CRP Technology

This application is a first for Joyson Safety Systems in producing, in a short period, a functional prototype of a DAB housing using SLS with composite materials.

The post Joyson Safety 3D Prints Functional Airbag Housing Using Windform appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

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CRP Technology releases Windform FR2, a new flame-retardant material for SLS

Italian 3D printing materials manufacturer CRP Technology has launched a new material in its Windform TOP-LINE family of composite materials for additive manufacturing. Designed for the selective laser sintering (SLS) process, the Windform FR2 is a flame-retardant polyamide-based glass fiber reinforced material, intended for applications in aerospace, automotive and consumer goods. The new Windform FR2 […]
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3D Printing News Briefs: January 16, 2020

In today’s 3D Printing News Briefs, we’ve got a little business news, followed by stories about materials, and finally ending with some 3D printed fashion. PostProcess Technologies is expanding in Japan with a new partnership. Smart International has launched a material partnership program, and CRP Technology is introducing a new Windform material. Finally, a Spanish fashion brand is using BCN3D’s technology to make some of its clothing.

PostProcess Technologies Enters Asian Market with New Partnership

Executives from PostProcess and K.K. IRISU (C. ILLIES & CO., LTD.)

Automated post-printing solutions provider PostProcess Technologies Inc. announced that it’s entering the Asian additive manufacturing market, and expanding the reach of its solutions, by naming K.K. IRISU (C. ILLIES & CO., LTD.) as its first distribution partner in Japan. PostProcess chose the high-quality industrial machinery and technologies specialist, to help serve its growing base of customers in Japan and represent its data-driven technologies because of its expertise and experience. The partnership is mutually beneficial, as ILLIES can now offer its customers access to technology that will automate common post-printing processes and enable “additive manufacturing at scale.”

“K.K.IRISU’s main objective is to educate the Japanese market in additive manufacturing and to continue to be the solution provider for the Japanese 3D manufacturing world. We feel that by adding PostProcess Technologies to our lineup, will help assist the Japanese market to compete with other countries in Additive Manufacturing as well as globally maintain the high standards of the tag ‘Made in Japan’,” said Dr. Frank Oberndorff, President of K. K. IRISU.

Next month, both companies will exhibit at the Design Engineering & Manufacturing Solutions (DMS) 2020 Expo.

Smart International Introduces Material Partnership Program

This week, Smart International, the global brand licensee in 3D printing for KODAK, announced the launch of a new Materials Partnership Program in order to help its customers achieve a repeatable 3D printing experience, while also meeting the demand for high-quality, yet easy-to-print, engineering materials. The company has already developed, and tested, material profiles for filaments from its partners BASF, Clariant, and DSM, which will help provide optimal conditions for these third party materials on the Portrait 3D printer. Print profiles were created from this data, and can either be accessed from the KODAK 3D Cloud or downloaded from the Smart3D website.

“We feel it is of vital importance to continually adapt to the ever-evolving 3D printing market. Partnering with top filament companies like BASF, Clariant and DSM gives the customer the opportunity to choose the material that best fits their project, and gives them confidence to use these high-quality 3rd party materials with the KODAK Portrait 3D Printer,” said Roberto Gawianski, the CEO of Smart International. “We are pleased to be able to assist in the development and evolution of 3D printing filaments, and will continue to support progress in this area.”

BASF material profiles include Ultrafuse ABS Fusion+, Ultrafuse PAHT CF15, Ultrafuse PA, and Ultrafuse Z PCTG, while Clariant now has a profile for its popular 20% carbon fiber-reinforced polyamide 6/66 PA6/66-CF20 filament. Smart International also created material profiles for DSM’s Novamid ID1030, Novamid ID1030 CF10, a carbon fiber filled PA6/66 copolymer filament and Arnitel ID2060 HT.

CRP Technology’s New Windform P2 Material

Italian company CRP Technology is introducing the latest material from its Windform P-LINE range – the glass fiber-reinforced thermoplastic polyamide Windform P2, which the company states has “excellent mechanical properties” for its High Speed Sintering (HSS) technology. The new material has high tensile strength (39.24 MPa), combined with increased stiffness (2925.20 MPa), and is great for insulating, as it is glass fiber-filled. Windform P2 is good for producing end-use parts that need high stiffness, as well as manufacturing components with detailed resolution.

“Windform® P2 is the second polymer from P-LINE, the new Windform® range of materials for high speed production-grade 3D printing, introduced on the market less than a year ago,” said Engineer Franco Cevolini, CRP Technology CTO and VP.

“This is a very important property. Windform® P2 is stiffer than Windform® P1 because Windform® P2 is reinforced (Windform® P1 is not reinforced). Most of the reinforced materials for similar technologies currently on the market, show a decrease in the tensile strength property. My staff and I have been able to preserve the high tensile strength in Windform® P2. Therefore, Windform® P2 overall’s performance is superior than the performance of similar materials currently on the market for similar technologies.”

ZER Collection 3D Printing Clothes with BCN3D

The 3D printed parts are made in TPU due to the flexibility of this material.

Spanish fashion brand ZER Collection introduced its first collection at the most recent Mercedes Benz Fashion Week in Madrid. The label, which was founded in 2017 by Núria Costa and Ane Castro and designs ‘futuristic, functional and urban clothing with sporty aesthetics,’ incorporated 3D printed parts, made with BCN3D’s Sigma printer, into 12 of the outfits; this system allows for the printing of two different materials, including flexible TPU. ZER Collection is using 3D printing in order to accelerate its production manufacturing processes and reduce waste, while also contributing to the use of sustainable new technologies in the apparel industry.

“We work much faster, because we can print two fabrics at the same time,” Costa said when explaining some of the benefits of using 3D printing to make their clothing, including their ability to “digitize all patterns in order to produce only the necessary fabric.”

“We believe that the use of 3D printing represents a revolution in fashion, in environmental care and in society.”

Discuss these stories and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the Facebook comments below.

The post 3D Printing News Briefs: January 16, 2020 appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

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From design to reality: Windform® Composite Materials to go beyond 3D Printing

Additive manufacturing is evolving very quickly, powering the development of innovative, lightweight applications.

Energica Ego running prototype with several 3D printed parts in Windform® composite materials (starting point) and Energica Ego electric motorcycle homologated for street use (present day)

This growth has a major reason: advances in additive materials. According to many 2019 reports, the number of materials available for AM has more than doubled in the past five years, and the rules of manufacturing have been rewritten as the technical capabilities of these polymers met up with the opportunities that 3D printing offers in term of product development and low-volume parts production. Materials for professional 3D printing are completely changing traditional production schemes.

Amongst the most known and long-running high performance materials on market, there are Windform® TOP LINE range of Carbon or Glass fiber reinforced composite materials created by Italy-based CRP Technology.

Windform® TOP LINE composite materials are for selective laser sintering (SLS), an additive manufacturing technique that uses a laser as the power source to sinter powdered material from a 3D model.

Windform® TOP LINE are designed to offer full range of options, possibilities and features, from excellent thermal properties to resistance to high temperature, from high stiffness and excellent strength to reduced weight, just to name a few.

Eva EsseEsse9 3D printed terminal cover in Glass-fiber filled composite material Windform® LX 3.0 and 3D printed chain slider in Glass-fiber filled composite material Windform® GT

Examples concerning the wide range of uses of high performance composite materials and professional 3D printing, comes from Energica Motor Company, first Italian manufacturer of super-sport electric motorcycles and single manufacturer for FIM Enel MotoE™ World Cup.

Long-term technological partnership with CRP Technology enabled Energica to be on the market quickly, fueling innovation, accelerating the prototyping and product development phase.

All Energica motorcycles models currently on the market were created and engineered through the support of CRP Technology: its innovative and avant-garde solutions in the field of additive manufacturing technology have made Energica a unique model throughout the world.

“We relied on CRP Technology and their 3D printing department as they have the right composite material to meet every demand, especially for a project as complex as Energica electric motorcycles. I’m not referring to an ordinary motorcycle, but a high-voltage, high power electric motorcycle that has special needs.  CRP Technology proved to be the right partner to support customers in their challenge,” explains Energica Motor Company CTO, Giampiero Testoni.

Eva EsseEsse9 3D printed water pump support realized in Windform® RL thermoplastic elastomer material for 3D printing

From the R&D and testing phases to pre-series, Energica motorcycles have been mounting many functional components 3D printed by CRP Technology.

Let’s consider the first model ever, Energica Ego which is “the most powerful and sophisticated electric motorcycle homologated for street use anywhere in the world” (from Energica website).

In the first prototype phase, several components of Energica Ego motorcycle such as aerodynamic parts, fairings, front and rear fenders, tail, were made by CRP Technology via professional 3D printing using Windform® XT 2.0 Carbon-fiber filled composite material from CRP Technology’s TOP-LINE range of high performance materials.

Dashboard support, rear mirrors and front fairing were made in Windform® SP Carbon fiber filled composite material.

Windform® TOP-LINE are production-grade materials. Their use is not limited to the prototype phase, but also short production runs. Let’s see some examples: Windform® XT 2.0 is nowadays used to produce the frontlight cover on the Energica Ego motorcycles currently on the market.

Eva EsseEsse9 3D printed terminal cover and 3D printed sprocket cover both in Glass-fiber filled composite material Windform® LX 3.0

This component isn’t the only one that CRP Technology is manufacturing for the Energica motorcycles that get to the world market: CRP Technology produces the electric motor terminal cover (for Energica Ego, Energica Eva EsseEsse9 motorcycles), turn signal indicators, sprocket cover (both for Energica Ego, Energica Eva EsseEsse9). These components are manufactured via selective laser sintering using Windform® LX 3.0 Glass-fiber filled composite TOP-LINE material.

The chain slider (for both Energica Ego, Energica Eva EsseEsse9) is manufactured by CRP Technology using the other Glass-fiber filled composite material from the TOP-LINE family: Windform® GT.

The water pump-support (for Energica Ego, Energica Eva EsseEsse9 motorcycles) is manufactured by CRP Technology in Windform® RL thermoplastic elastomer material for SLS.

CRP Technology partnered with Energica even on the development and construction of Ego Corsa, Energica’s electric racebike for the FIM Enel MotoE™ World Cup which is derived from the street-legal motorcycle Energica Ego.

Energica Ego running prototype drives on the road: 3D printed dashboard support, rear mirrors, front fairings manufactured in Carbon fiber filled composite material Windform® SP

A first preview: Some recent components inside the Ego Corsa’s new battery are 3D printed using Windform® FR2, the newest and disruptive material from the Windform® TOP-LINE range. It is the first composite material for 3D printing which is Glass fiber-filled and flame retardant, FAR 25.853 and UL94 HB compliant.

The massive use of high quality 3D printing allows to fine tune the style (e.g. fairing) and, at the same time, allows to carry out specific test rides on the road.

This prerogative is not limited to the Automotive and Motorsports industry, as it is viable in all advanced sectors.

Learn more in CRP Technology’s white paper, available for download here.

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3D printing news Sliced: Modix, CRP Technology, OpenAdditive, Florida Makes, Polymaker

This week’s edition of Sliced, the 3D Printing Industry news digest features, the latest large scale 3D Printers from Modix, a new Windform FR1 Flame Retardant composite from CRP Technology, and new 3D printing facilities at the University of Salford.   We also cover Alfa Romeo F1 Racing, Xometry, Roboze, OpenAdditive, Florida Makes, Rosswag Engineering, SLD […]
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3D Printing News Briefs: July 2nd, 2019

We’re talking partnerships and materials in today’s 3D Printing News Briefs. The Alfa Romeo F1 team and Additive Industries are strengthening their technology partnership, while Beam-IT and SLM Solutions are expanding their own cooperation. Metallum3D just opened a new beta testing program for its stainless steel filament, while Zortrax and CRP Technology are both introducing new materials.

Alfa Romeo F1 Team and Additive Industries Strengthen Partnership

At the recent Rapid.Tech-Fabcon industrial 3D printing conference in Germany, Additive Industries announced that its current technology partnership with the F1 team of Alfa Romeo Racing would be growing stronger. The Sauber Engineering company, on behalf of Alfa Romeo Racing, has ordered an additional: 4-laser, multi-module MetalFAB1 Productivity System, bringing the total up to four systems and making it Additive Industries’ largest customer with a high-productivity metal 3D printing capacity.

Our installed base is growing fast, not only with new customers in our core markets like aerospace and the automotive industry but also through existing customers like Sauber Engineering, who are advancing to become one of the leading companies in industrial 3D printing in Europe, ramping up production,” stated Daan Kersten, the CEO of Additive Industries. “Although most users of metal additive manufacturing are still applying prototyping systems, we see an increasing number of companies concluding they need dedicated systems for series production. Our modular MetalFAB1 family is the only proven system on the market today designed for this use. We are grateful and proud to be technology partner to Sauber Engineering and the F1 team of Alfa Romeo Racing.”

Beam-IT and SLM Solutions Sign Expanded Agreement

M.Sc.Eng. Martina Riccio, AM Process Leader of Beam-IT and technical team

Italian 3D printing service bureau Beam-IT and metal 3D printing provider SLM Solutions have signed an agreement, which will expand their current long-term cooperation. Together in a joint venture project, the two will work to develop more material parameters – focusing on certain material properties – for the nickel-based alloys IN939 and IN718; this process will help create a less lengthy timeframe in terms of parameter testing. Additionally, Beam-IT has added two new SLM 3D printers to its product portfolio: an SLM 280 and an SLM 500.

 

 

 

“We are pleased to announce our cooperation agreement with SLM Solutions and the two additional machines,” said Michele Antolotti, the General Manager of Beam-IT. “We regularly produce high-quality parts for our customers using selective laser melting because the SLM ® technology works efficiently, quickly and, above all, safely. With the expanded capacity of our new multi-laser systems we can also increase our productivity and react to the increased interest in SLM ® technology from our customers.”

Metallum3D Opens Stainless Steel Filament Beta Testing Program

Virginia-based company Metallum3D announced that it has opened a beta test program for its stainless steel 316L 3D printing filament. This new program will support the company in its development of an affordable and accessible on-demand metal 3D platform for FFF 3D printers. The Filament Beta Test Program is open until July 31st, 2019, and a limited run of 150 0.5 kg spools of Metallum3D’s stainless steel 316L filament will be offered for a discounted price on a first come, first serve basis.

Nelson Zambrana, the CEO of Metallum3D, said, “Our 1.75mm Stainless Steel 316L filament material has a metal content of 91.7% by weight or 61.5% by volume, while maintaining enough flexibility for a minimum bend diameter of 95 mm (3.75 in.). The combination of high metal loading and filament flexibility was a tough material development challenge that took us over a year to solve.”

Zortrax Introducing Biocompatible Resins for Inkspire 3D Printer

Last year, Polish 3D printing solutions provider Zortrax developed the Inkspire, its first resin 3D printer. The Inkspire uses UV LCD technology to create small and precise models for the architecture, jewelry, and medical industries. With this in mind, the company is now introducing its specialized biocompatible resins that have been optimized for the Inkspire to make end use models in dentistry and prosthetics.

The new class IIa biocompatible Raydent Crown & Bridge resin is used for 3D printing temporary crowns and bridges, and is available in in an A2 shade (beige), with high abrasion resistance for permanent smooth surfaces. Class I biocompatible Raydent Surgical Guide resin for precise prosthetic surgical guides  is safe for transient contact with human tissue, and offers translucency and high dimensional accuracy. With these new materials, the Zortrax Inkspire can now be used by prosthetic laboratories for prototyping and final intraoral product fabrication.

CRP Technology Welcomes New Flame Retardant Material

Functional air conditioning piping made with LS technology and Windform FR1

In April, Italy-based CRP Technology introduced its Windform P-LINE material for for high-speed, production-grade 3D printing. Now, it’s officially welcoming another new material to its polyamide composite family – Windform FR1, the first carbon-filled flame-retardant laser sintering material to be rated V-0. The material is from the Windform TOP-LINE family, and passed the FAR 25.853 12-second vertical, the 15-second horizontal flammability tests, and the 45° Bunsen burner test. The lightweight, halogen-free material combines excellent stiffness with superior mechanical properties, and is a great choice for applications in aerospace, automotive, consumer goods, and electronics.

“Only a few days from the launch of a new range of Windform® materials, the P-LINE for HSS technology, I’m very proud to launch a new revolutionary composite material from the Windform® TOP-LINE family of materials for Laser Sintering technology,” said Franco Cevolini, VP and CTO at CRP Technology. “Our aim is to constantly produce technological breakthroughs. With Windform® FR1 we can steer you toward the proper solution for your projects.

“We will not stop here, we will continue our work on renewal and technological expansion in the field of Additive Manufacturing. Stay tuned!”

Discuss these stories and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the Facebook comments below.

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CRP Technology and PoliMi 3D team up to 3D print wind tunnel model parts

Award winning 3D materials manufacturer CRP Technology has collaborated with the Department of Aerospace Science and Technology of the Politecnico di Milano (PoliMi) to construct wind tunnel aero-elastic demonstrators. Founded in 1970, CRP Technology together with CRP USA, CRP Meccanica, and electric motorbike manufacturer, Energica, comprise the CRP Group Network. The original company began as […]
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Pioneering the Additive Manufacturing Revolution in the Aerospace and Avionics fields

CRP Technology has been among the first to import additive manufacturing technology to Europe, and has developed the Windform® TOP-LINE family of composite materials.

They are some of the international market’s most high-performance Carbon- or Glass- composite laser sintering materials, in use for more than 20 years in the aerospace, UAV, defense, avionics markets for the most demanding applications.

Therefore it is unquestionable that CRP Technology has been changing the rules of additive manufacturing, smashing records and setting models nowadays that apply to 3D printing with polyamide materials.

A clear sign of this continued performance is Windform® FR1 (FR stands for Flame Retardant), the new-born material from the Windform® TOP-LINE family of composite materials for additive manufacturing.

It is intended to become a game-changing material in the field of 3D printing for its uniqueness: it is the first Flame Retardant (UL 94 V-0 rated) material for additive manufacturing which is carbon fiber reinforced.

It is also passed the FAR 25.853 flammability tests successfully as well as the 45° Bunsen burner test.

“Only a few weeks from the launch of a new range of Windform® materials, the P-LINE for HSS technology,” commented Franco Cevolini, VP and CTO at CRP Technology. “I’m very proud to introduce a new revolutionary composite material from the Windform® TOP-LINE family of materials for laser sintering technology. Our aim is to constantly produce technological breakthroughs. With Windform® FR1 we can steer you toward the proper solution for your projects.”

Franco Cevolini. Ph©Elisabetta Baracchi

“I’m firmly committed to solving one of the most important challenges, maybe the main one, for people who work in the 3D printing field “– added Cevolini – “the ability to ensure the performance and reliability of the AM process and materials. At CRP Technology and CRP USA we work extremely hard to control our process. We do testing on both equipment and materials on a regular basis. This kind of effort lets our customers understand that we are not just cranking out parts like a traditional rapid prototyping service bureau.”

Someone could say this technology and materials are expensive, but it is not correct especially in a long-term perspective. It is proven that using professional 3D printing and Windform® composite materials produce substantial cost savings considering the whole process performance.

“With professional 3D printing and Windform®” commented Cevolini – “the manufacturing process, from the design phase to product development, is optimized. Quality is not a cost, it is an investment”.

Aerospace and Avionics application spotlight

Not only the new-born Windform® FR1 material, but all the Windform® materials allow manufacturing of functional prototypes as well as finished, high-performance functional parts.

Windform® materials from the TOP-LINE range of composite materials have some unique properties. Let’s consider, for example, Windform® XT 2.0: resistance to UV, low outgassing and its lightweight versus strength are some of the key characteristics that allow for it to replace a traditional material like Aluminium in some applications.”

The freedom of additive manufacturing allows the creation of more complex geometry, especially in the aerospace field.

TuPOD deployed © JAXA NASA

Recently CRP USA , the U.S.-based 3D printing company partnered with CRP Technology, contributed to mark a new milestone in the small satellites arena with TuPOD, the innovative cubesat manufactured via laser sintering in Windform® XT 2.0. This ground breaking project was carried out by GAUSS, Teton Aerospace, Morehead State University. From a distance, the TuPOD looks relatively simple, but upon closer examination there are some areas in the design that would have been more difficult to accomplish with traditional manufacturing methods. 

The significant performance of Windform® is creating new ways to invent and manufacture, while it is proving to be a viable option for the innovative design and high-performance features associated with advanced Aerospace applications.

“Leveraging 3D printing and Windform® composite materials properly has been a key advantage that our customers in the Space Industry have quickly adapted to. Whether it is entire structures or smaller components, we have been amazed at the creativity. The time to produce the parts is often dramatically less than through traditional methods.”

Progress has been also made in the avionics field: recently Windform® composite materials combined with laser sintering technology, have been used to manufacture some external parts of the wind tunnel model in 1:8.5 scale for the prototype of the new Leonardo Helicopter Division tiltrotor AW609, for a series of dedicated low-speed wind tunnel tests. (Designed, manufactured and assembled by Metaltech S.r.l., under supervision of Leonardo HD).

Tiltrotor-AW609. Courtesy Leonardo HD

These 3D printed parts highlight the perfect union between advanced 3D printing technology and Windform® high-performance composite materials. Thanks to the Windform® materials, it was possible to complete and test the model in the wind tunnel within a very short time, with excellent results and with high-performing mechanical and aerodynamic properties.

The 3D printed parts have been created by CRP Technology using Windform® XT 2.0 are nose and cockpit, rear fuselage, nacelles, external fuel tanks and fairings.

CRP USA also contributed to demonstrate the effectiveness of additive manufacturing and use of Windform® as a structural material for avionics applications: on behalf of Leonardo HD and under the control of ATI Co. – Newport News (the model supplier), CRP USA manufactured via laser sintering and Windform, the external fuselage and additional components for a new 1:6 model.

It was created for a high-speed wind tunnel test campaign at NASA Ames Unitary Plan 11 by 11 foot transonic wind tunnel, as part of a thorough review of aircraft behavior. 

The model scale selected was 1:6 of the full scale in order to be fully compatible within the given constraints of the physical size of the NASA 11 by 11 tunnel.

The architecture of the new 1:6 model for transonic high-speed tests was very similar to the AW609 model but with some improvements in order to have the remote controls for the flaperons and elevator surfaces.

For the first time the Windform® XT 2.0 Carbon-composite material was used for an high speed model tested at NASA AMES facility.

Windform® TOP-LINE family of high-performance composite materials have passed NASA and European Space Agency (ESA) outgassing screening, suitable for aerospace applications: 

  • Windform® XT 2.0, Windform® SP both carbon-composite materials; Windform® LX 3.0, Windform® GT both glass-composite materials: have been tested in accordance to the ASTM E-595-07 standard, and passed with no issues
  • Windform® XT 2.0 carbon-composite material: has been passed ESA screening outgassing tests in accordance with ESA TEC-QTE 7171 (based on ECSS-Q-ST-70-02C); it has been K-rated according to Japan Aerospace Exploration Agency (JAXA) outgassing test.

In addition:

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Energica back on track for MotoE World Cup thanks to CRP Group

Italian electric motorbike manufacturer Energica, is back on course to participate in the inaugural 2019 FIM Enel MotoE World Cup which will begin in July this year. In March, the MotoE World Cup suffered a setback when all the eighteen bikes taking part in the event, including the Energica’s Ego Corsa, were destroyed by a fire in Jerez – the city in […]
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CRP: producing excellence with additive manufacturing technology and high-performance materials

Energica Ego Corsa for FIM Enel MotoE™ World Cup, with some 3D printed parts by CRP Technology

 

 

 

 

 

 

 

 

 

 

 

 

 

Since the mid-90’s, CRP Technology (headquartered in Modena, Italy) has been changing the rules of manufacturing.

Most in the manufacturing Industry may have only discovered the world of additive manufacturing and 3D printing in the last decade, but CRP Technology has been familiar with its most inner dealings since 1996, when the company created, in-house, one of the first 3D printing departments with professional printers, backed up by an R&D department for material development, capable of transforming rapid prototyping into rapid manufacturing.

Franco Cevolini, VP and CTO at CRP Technology, with Energica Ego

“We’ve always believed and invested in innovation and technology” commented Eng. Franco Cevolini, VP and CTO at CRP Technology “and we still do. Since the beginning of this fulfilling business experience, a lot of water has flowed under the bridge… and now we pave new roads in technological innovations which others try to pursue, setting rules that have been adopted by others in the 3D printing of polymers”.

“Since our debut in the new-born 3D printing market,” Cevolini added “we have been working for the elite of the most demanding industrial segments, such as Motorsports and Aerospace. At that time many 3D printing suppliers in the market were not dependable yet.”

Many years of experience have contributed to the creation of the “CRP Process”, which is synonymous with tangible, turnkey solutions which can satisfy any customers’ requirements”

How it all began

CRP Technology is part of the CRP Group.  Founded in the Early Seventies by Roberto Cevolini as a company for high precision CNC machining in the Motorsports field, the company has expertly evolved over decades, skilfully responding to the demands of the international market, anticipating the need for highly unique manufacturing solutions worldwide.

In F1, obsessive attention to details quite often makes the difference. There is continuous research for the next technological innovation to get that competitive advantage even of few hundredths of a second: the CRP Group’s F1 background helped CRP Technology become a leading company in the field of additive manufacturing and laser sintering materials.

Pioneering AM revolution: Windform® Top Line for LS technology

CRP Technology not only has been amongst the first to import additive manufacturing technology to Europe and Italy but also developed the Windform® Top Line family of materials for LS technology, some of the international market’s highest-performance laser sintering materials. In use for over 20 years in the Motorsports, space, UAV, medical and other most demanding sectors. Windform® was originally devised for use in Formula One Racing, first in the wind tunnel and then on the track.

Now the Laser Sintering (LS) polyamide-based glass or carbon fiber reinforced Windform® allow for the manufacturing of functional prototypes as well as finished, high-performance functional parts, that satisfy the needs of the most demanding industries for high-performance, durable, and detailed parts.

Windform® materials are approved for space applications by international space agencies (outgassing tests carried out by NASA, ESA, JAXA) and successfully have passed other testing, such as Flammability UL 94 and VUV.

The Windform® family composite materials for LS is constantly expanding: The Windform® Top Line is nowadays composed of seven different Windform® materials. Soon it will grow to eight, “when we launch new cutting-edge composite material, the first with exceptional properties in one. It will be unique.”

Nowadays

So much of CRP’s success in Aerodynamics and Entertainment fields is due to CRP USA, CRP’s US-based partner (Mooresville, North Carolina).

3D printed hybrid rocket engine manufactured by CRP USA using LS technology and Carbon-fiber reinforced Windform® XT 2.0 composite material

Under the guidance of Stewart Davis, CRP USA’s built up considerable experience supplying cutting edge solutions for key industry leaders that chose to manufacture in the Windform® family of materials.

Automotive Intake Manifold functional prototype made of Carbon-fiber reinforced Windform® SP composite material via LS technology

CRP USA contributes to mark new milestones in the most challenging and harsh 3D printed applications arena.

Constant investment in (new) technology

Tundra-M functional drone with 3D printed body and arms made of Carbon-fiber reinforced Windform® SP and Windform® XT 2.0 composite materials via LS technology

“Our aim is producing technological breakthroughs, constantly” added Franco Cevolini “and we invest in Research and Development as well as new technology: for that reason, CRP technology’s 3D printing department is expanding towards high-tech production. We are going to integrate in-house High-Speed Sintering, introducing the P line family of materialsWe will not stop here: we will continue our work on renewal and technological expansion in the field of Additive Manufacturing. Stay tuned!”