Although the mention of Spain might conjure images of sun, olive groves, tapas and Rioja wine, it should also bring to mind a thriving center of advanced materials and aerospace manufacturing. The country’s aerospace sector grew 12.5 percent annually between 2001 and 2008 and employed a workforce of more than 15,000 at the end of that time, according to a 2009 study of the European aerospace industry, funded by the European Commission and prepared by Ecorys (Rotterdam, The Netherlands). The Spanish trade group TEDAE (Asociacin Espaola de Empresas Tecnolgicas de Defensa, Aeronutica y Espacio), formed that same year, counts more than 70 member companies with a collective 8 billion ($11.2 billion USD) in total turnover. Propelled by strong investments in research and development, aerospace in Spain is still on the upswing.
As in many other countries, the aviation era dawned in Spain around 1900, generating tremendous interest and many entrepreneurial endeavors. One of the first Spanish aeronautical enterprises is today one of Spain’s aerospace cornerstones. Construcciones Aeronuticas Sociedad Annima (CASA) was formed in 1923 by Jos Ortiz de Echaugue — reportedly the first Spaniard to fly a military plane — and several colleagues. CASA built a production plant at Getafe, near Madrid, to manufacture military aircraft and was perhaps best known for its C212 Aviocar high-wing, short takeoff and landing (STOL) light transport aircraft, a plane that is still produced today.
CASA produced military planes and components during and after World War II, many under licensing agreements from other OEMs. During the mid-1960s, European aircraft companies and their governments began to explore a collaborative agreement to produce commercial aircraft transports that could compete against those built by U.S.-based Boeing, McDonnell Douglas and Lockheed. The result was Airbus Industrie, established on Dec. 18, 1970, as a Groupement d’intrêt conomique (Economic Interest Group), with production work split equitably among France, Germany and the U.K. In October 1971, CASA joined this group with a 4.2 percent share of Airbus Industrie. In 2000, following the development of the Airbus A300 and subsequent aircraft models, CASA became one of the founding partners of EADS (European Aeronautic Defence and Space Co. N.V.), together with DaimlerChrysler Aerospace AG and Aerospatiale Matra. EADS owns Airbus SAS and other entities, including Eurocopter and space launch company Astrium.
As the nucleus of Spain’s aerospace manufacturing, EADS CASA has evolved to become a major supplier of program components for Airbus, Eurocopter, Eurofighter and others — at facilities in Madrid, Toledo, Seville and Cadiz — with a strong emphasis on composites. Its success has helped spawn a host of smaller Tier 1 and Tier 2 parts manufacturers that have composites expertise, including Aernnova Composites (Vitoria), Sener (Madrid), SACESA (Seville) and TECNALIA (San Sebastin).
Composites manufacturing activities are distributed throughout the country. For example, final assembly of the Airbus Military A400M (see “A400M cargo door" Out of the autoclave,” under "Editor's Picks" at top right) takes place in San Pablo near Seville, and Toledo is home of the Airbus Advanced Composites Center. HPC had the opportunity to visit the region near Madrid and tour three key facilities: FIDAMC (the acronym for its name in Spanish, which in English translation is Foundation for the Research Development and Application of Composite Materials), the Airbus facility in Illescas and the adjacent Aernnova Composites plant.
FIDAMC, located in a greenfields region known as the Southern Technological Area, south of Madrid and close to Getafe and Illescas, is a world-class research and development facility. Completed in 2009, with more than 5,500m2/59,200 ft2 of space for offices, laboratories and workshops, the foundation is a collaborative effort of the Spanish Ministry of Industry, Tourism and Trade, the Madrid regional government and EADS.
An agreement to proceed with the foundation, signed in March 2006, was the result of the Spanish government’s belief in the strategic importance of the aerospace sector and the need for a center of excellence for research into the industrial application of composites. Funding, initially totaling 26 million ($37 million USD) for the building and equipment, was supplied by EADS, the Spanish government’s Centre for Industrial Technological Development (CDTI) and the Madrid regional government, says Jacinto Tortosa Lozano, FIDAMC’s director general. “Our target is to enhance and consolidate Spain’s leading position in composites through technology transfer with organizations throughout the country, including our universities,” he says. “One of our principal strategic goals is to dramatically reduce the cost of composite parts.” Lozano adds that innovations developed at FIDAMC aren’t owned by the foundation, but they are protected via nondisclosure agreements with participating aerospace companies, which include Airbus Military, Airbus SAS, Eurocopter and others.
Although the recent financial downturn put a drag on the center’s momentum, an impressive array of automated equipment has been installed thus far, says Miguel ngel Garcia, key account manager for MTorres (Pamplona, Spain), a donor of several key machines. “It was a slow start but it’s growing,” he notes. “Several qualification programs for Airbus aircraft are underway and it’s an opportunity to test out new composite material concepts. We can use the machines ourselves for product development, and FIDAMC allows member companies time on the machines for testing materials and concepts.”
The machines installed to date include a TORRESFIBERLAYUP automated fiber placement (AFP) machine and work cell, with a 24-tow laying head that uses 0.125-inch/3.2-mm slit tape for maximum flexibility in producing contoured parts in the R&D setting (wider tape would typically be used in production). Configured during the facility tour to lay fibers on a flat, vertically oriented metal tool, the head lays tows at a high rate, reportedly 60m/195 ft per minute in one direction, then it rotates 180° for the return path while a heated roller on the head consolidates each prepreg ply. The head design prevents tows from interfering with one another during the rotation and laydown process, explains Garcia. Carbon material is supplied by Hexcel (Illescas, Spain and Stamford, Conn.) at no charge, he adds, in exchange for their use of the machine to test prepreg products.
Key features of the large work cell, configured with a headstock, a tailstock and a moving platform for multiple tool setups, include a take-up system for the polyester prepreg backing tape. The system chops the tape and then blows it into a separate collection chamber for recycling. Garcia points out that the tow guiding system, from the chilled prepreg creel area to the head, is designed for very low friction to minimize any contact of the carbon with machine parts and to prevent fuzzing. TORFIBER, the company’s simulation software, allows the designer to simulate and analyze the part program within a CATIA environment prior to generation of the CNC program by the machine’s postprocessor. MTorres’ AFP product manager Manu Motilva says the company is developing, in partnership with FIDAMC, a new thermoplastic laying head with laser heating. The new head should be installed on the machine in mid-2012 for trials of thermoplastic composite parts.
At the opposite end of the cavernous workshop space is a TORRESLAYUP 11-axis high-speed gantry-style automated tape laying (ATL) machine with an impressively large work envelope — 12.5m long by 5.4m wide (40.6 ft by 17.6 ft). Garcia says the machine has the highest compaction capability available in the industry, which eliminates the need for frequent bagging/debulking steps.
Able to lay up slit tapes as wide as 12 inches/300 mm, this ATL is designed for fast production of flat to moderately contoured parts. Two ultrasonic knives cut the prepreg during operation, and the head also features a built-in tape defect detection system.
A large adjoining workshop is equipped with a 6m/19.5-ft autoclave manufactured by Dalkia Espaa (Madrid, Spain), as well as a smaller autoclave and a walk-in oven. Installed in the same space is a gantry-mounted nondestructive inspection (NDI) C-scan cell manufactured by Tecnatom (Madrid, Spain), a well-known provider to a wide range of industries. The one-channel, phased-array machine is just the beginning, says FIDAMC, which plans to install additional NDI capability as work picks up at the center.
The tour itinerary also included a fully equipped materials lab, design space and comfortable conference rooms, with huge windows that overlook ancient olive trees ensconced in outdoor garden spaces.
Lozano says FIDAMC’s equipment ultimately will support part production, and reports that the facility already is adding staff as work picks up. When asked if thermoplastic composites are the future for Spanish aerospace, he retorted, “That’s not the right question. What’s important is that we move faster, and innovate, no matter what the material — we need to think about new composites that aren’t as costly and time consuming to make. The pressure is on to improve and grow the industry.”
Officially opened just two months prior to HPC’s visit, Aernnova Composites’ shining new 33,000m2/355,000-ft2 plant abuts the back side of HPC’s third tour destination, the huge Airbus facility that manufactures the A350 XWB passenger jet’s lower wingskin. Aernnova Composites began in 1986 as a build-to-print subcontractor to CASA, but now it is the Composites Business Unit of Aernnova Aerospace and Spain’s largest Tier 1 structural aerospace manufacturer, operating four composites plants in Spain with another under construction across the Atlantic in Mexico. Its new state-of-the-art plant in Illescas uses lean automated manufacturing technology to produce parts for many programs, says Jose Antonio Villares, who oversaw its construction.
“Our experience in carbon fiber structures for aerospace is extensive and spans more than 25 years,” he points out. Indeed, Aernnova’s customer list for composites includes Airbus (commercial and military), Embraer, Bombardier, Sikorsky, Eurocopter, Eurofighter, Alenia, Agusta Westland and EADS Sogerma. Parts range from empennages, horizontal tail planes, rudders and elevators, to leading and trailing edges and doors, processed via hand layup and automated means, such as ATL. Parts also are produced for industrial clients, including train interior parts and filament-wound carbon fiber rollers for Madrid-based Talgo and for Bombardier (Montral, Qubec, Canada). With its ISO 9001, ISO 14001 and Nadcap certifications, the company is a serious international player and a risk-sharing partner with Airbus on the A350 XWB.
Two MTorres TORRESLAYUP machines were installed and running during the tour. Eventually they will be joined by four more as production demands ramp up. Villares pointed out that one of the gantry ATLs is configured with two working areas, one with a flat table that incorporates a TORRESPANEX ultrasonic cutting machine, and the other for layup directly on a tool. With this setup, which can be customized for stringers, skins, stiffeners, ribs or spars, the machine can perform two separate tasks simultaneously, significantly increasing manufacturing productivity.
As set up during the tour, the ATL head quickly layed a swath of material for stringers onto the flat table, and the machine shuttled the layup within seconds to the cutter, which cut out the stringer shapes from the green laminate blank. The stringers then were shaped in a hot-form press, one of three that will eventually be installed and used with aluminum tools. Villares points out that the hot-press position has twin worktables. “Workers can prepare tooling and laminates on one table,” he says, “while the other is involved in the hot-forming process to maximize the machine’s productivity.”
An additional flat cutter from Lectra (Paris, France) cuts broadgoods in the cleanroom. The first of three autoclaves is installed, a 5m/16.25-ft diameter vessel manufactured by Olmar (Gijn, Spain), with two more coming in the near future, says Villares. One phased-array pulse-echo NDI station, supplied by GE Inspection Technologies LP (Lewistown, Pa.), is also in place for part inspection.
Much of the large manufacturing space is occupied by a huge stock of tools and molds, most made of Invar, for the wide variety of parts that Aernnova manufactures, including the A350 XWB’s rudder, horizontal tail and elevators as well as subassemblies for the Bombardier CSeries center wingbox, among others. During the tour, workers were assembling an A350 rear pressure bulkhead, layed up and cured in two parts (front and rear). “We don’t perform postcure part trimming here,” Villares noted. “That’s done by Delta Illescas in a building adjacent to ours.”
The new plant will create at least 500 skilled jobs for the region, and Villares looks toward future expansion. “The Castilla-La Mancha region is one of the five autonomous regions in Spain in which there is a clear focus on the aerospace industry. With our government’s support, we are committed to developing lean composites manufacturing expertise.”
Jan
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