Precision Board Urethane Tooling Board

Share

 

Conbility PrePro 3D AFP head and PrePro 2D automated cell for tailored composite laminates

Conbility’s PrePro 3D (top) AFP head and PrePro 2D automated cell (bottom) for producing in-situ consolidated tailored composite laminates. Source | Conbility

Conbility (Aachen, Germany) was established in 2015 as a spin-off from RWTH Aachen, the largest technical university in Germany. “We founded Conbility to supply unidirectional (UD) tape placement machines,” explains Dr. Michael Emonts, Conbility managing partner. Previously chief engineer for machine development at Fraunhofer IPT in Aachen, Emonts co-founded this spin-off together with fellow managing partner Dr. Kai Fischer, providing a means for commercializing Fraunhofer’s 25 years of experience in tape placement machine development. “But our first product was actually software,” he notes.

Oplysis is a simple tool for production planning that uses an intuitive drag-and-drop interface. “You can model any kind of production chain to get cost and cycle time, and can analyze capacity and bottlenecks,” says Emonts. “Normally, companies start with Excel to determine what machines they need, production rate, material consumption and waste. We developed Oplysis initially for ourselves, as an alternative to Excel to save time. As we were commercializing Conbility systems, we always had to do cost evaluations, and it was very labor-intensive.”

 

In 2018, Conbility was ready to move from lab-scale tape placement systems to industrial-scale machines. “We first announced a multi-material placement head capable of applying thermoset and thermoplastic tape plus dry fiber — a single investment for three different material capabilities,” says Emonts. PrePro 3D is a standalone AFP and winding head that serves as a “plug-in” for existing robot or machine systems. Conbility received its first order in June 2018 and delivered the system 3.5 months later to Technology Center AIMEN (O Porriño, Spain). “We integrated the AFP head control system into their existing robotic manufacturing cell,” he adds.

Conbility PrePro 3D AFP head for tailored composite laminates

Conbility’s second PrePro 3D AFP head was delivered to University of Limerick in December 2019.
Source | Conbility

Conbility delivered its second AFP head to University of Limerick, Ireland, in December 2019. “Now we’ve sold a third AFP head to an industrial company outside of Europe to produce parts for the automotive industry,” says Emonts. “We see the opportunity to potentially place more systems there in the future.”

 

In-situ consolidated, composite tailored blanks

“Our latest product, the PrePro 2D, addresses the market for mass production of composite components — a 2D machine to produce tailored blanks with in-situ consolidation,” he explains. “We are using laser energy in the process zone without melting the whole tape thickness. Instead, we melt only a very thin layer so there is no degradation of the tape. The laser is also much faster than infrared heating, enabling speeds of up to 1 meter/second, and also produces a more homogeneous distribution of energy intensity. If you compare all table-based machines for producing tailored blanks, ours is the first to use a laser as well as in-situ consolidation.”

“We see a huge demand in the future for injection molded parts that need to be stiffened via tailored blanks as inserts,” says Emonts. “The heated table we use is key to minimizing temperature variation, and thus reducing thermal stress in finished parts. Although it can go up to 200°C, the table is not heated to melt temperature; normally, it is enough to hold the table at 120-180°C.”

 

 

 

The PrePro 2D can apply three thermoplastic composite tapes simultaneously and independently. “The machine is equipped with a 3-spool-applicator: three tapes with a width of 25 millimeters can be placed at the same time and also independently from each other at different times,” explains Emonts. “You can start with a first tape and then after some time start with a second and then, later, a third [as shown in the YouTube video above]. So you are not limited by placing three tapes simultaneously.” He says the advantage of placing each tape individually is increased productivity and reduced waste by achieving optimized near-net-shape laminates. “Because the tape feeds are independent, each is equipped with its own closed-loop tape tension control,” says Emonts.

A key feature of the PrePro 2D machine setup is that it is scalable. The customer can choose between different applicators (1-, 3-, 4-or 6-spool applicator), different widths for each tape (25-100 millimeters) and a different laser-setup. “The current machine is equipped with a 4-kilowatt laser system,” Emonts explains, “but for wider tapes or more spools (which will need more laser power) the system can be changed to higher-power lasers without requiring a different machine setup.”

The 1.5-meter table diameter can also be scaled to 2.0 meters. “Tape placement onto the table is done very precisely, with better than 0.2-millimeter accuracy, at full running speed,” says Emonts. “This is a cut-and-add-on-the-fly process. The laser is 500 millimeters away from the placement point and an optical camera provides closed-loop control of the laser power, tape tension and roller consolidation pressure to achieve in-situ consolidation.”

Conbility PrePro 2D produces in-situ consolidated composite tailored blanks

The small footprint and laser-safe cabinet of Conbility’s PrePro 2D enable flexible placement for high-volume production. Source | Conbility

Why is in-situ consolidation so important if the PrePro 2D is aimed at producing blanks to be used as inserts for injection molding? “Without in-situ consolidation, you must post-consolidate within energy- and cost-consuming subsequent processes” explains Emonts. “There are other solutions that tack the tapes together but then must melt the whole tape structure for subsequent consolidation, requiring an oven and a consolidation press. This is not needed using our machine system."

Micrographs of cross-sections from consolidated laminates Conbility

Micrographs of cross-sections from consolidated laminates made with PrePro 3D (left) and PrePro 2D (right). Source | Conbility.

 

Emonts contends that systems requiring secondary consolidation can cost more than €2 million. “But with ours, only the process zone is heated, so we get high-quality, consolidated laminates with less than €600,000 invested.” He notes the PrePro 2D also benefits from a small footprint — 5 by 3 meters — and is Class 1 laser-safe, “so it can be anywhere.”

The PrePro 2D is available at Conbility’s technical center in Herzogenrath, Germany (10 minutes from Aachen) for trials and job-shop manufacture of tailored composite blanks. “Even if  companies just want to see the machine in action, we want to educate the industry about this laser-based approach and demonstrate that it is safe and user-friendly,” adds Emonts.

 

Low-cost, intelligent production opens future mass markets

“We have proven we can reduce injection molded part cost by adding a small amount of tape into the part,” notes Emonts. “We can produce parts that are 5-15% cheaper by significantly reducing wall thickness and getting rid of stiffening ribs. Thus, the injection molding tools get cheaper with less complexity. We also see tape prices decreasing because global production is steadily increasing.”

“We see huge potential in the automotive, electronics and many industries,” he continues. “Very simple parts, like boxes for handling in the food industry, can benefit from this approach. These must be cleaned, but stiffeners inside the box make cleaning difficult and more costly, while stiffeners outside prevent easy/efficient transport and handling. Our approach, however, can produce different thicknesses in one part and locally reinforce within a minimum thickness.”

injection molded parts

Conbility sees a practically “infinite” number of injection-molded parts that can benefit from tailored blank composite inserts. Source | Slide 24, “Ultra-Fast Consolidator” and “OptoLIGHT” – Laser Technology enabling mass production of thermoplastic laminates and new hybrid production, presentation by Michael Emonts, Carbon Fiber 2019 (Nov. 19-21, Knoxville, Tenn., U.S.)

 

Ultra-Fast Consolidator Machine

The Ultra-Fast Consolidator Machine uses Conbility’s AFP applicator to produce thermoplastic composite laminates in less than 5 seconds.  Source | Conbility, AZL Aachen

Conbility’s AFP applicators are also being used in the Ultra-Fast Consolidator Machine, developed by AZL Aachen to produce multi-layer thermoplastic composite (TPC) laminates in less than 5 seconds. As noted in the July 2020 article, “Composites 4.0: Digital transformation, adaptive production, new paradigms,” this system uses 25-millimeter-wide UD tapes as well as a piece-flow principle — state-of-the-art in the high-speed printing industry — to produce TPC laminates, simply tacked or fully consolidated, in a variety of thicknesses, with local reinforcements. “Our vision is to provide scalable machines that will enable online platforms,” says Emonts. “Lines can have multiple stations, each with multiple AFP applicators. The customer will enter the requirements and get options for plybook, cost and delivery. Once finalized, the applicators communicate to each other to organize production, not the operator. This is completely intelligent production of tailored composites.

ViRTEK IRIS 3D
Precision Board Urethane Tooling Board
Park Aerospace Corp.
Composites One
Janicki employees laying up a carbon fiber part
Compression Molding
Wickert Hydraulic Presses
HEATCON Composite Systems
Chem Trend
Keyland Polymer
CAMX 2024
industrial CNC routers

Related Content

Trends

Microwave heating for more sustainable carbon fiber

Skeptics say it won’t work — Osaka-based Microwave Chemical Co. says it already has — and continues to advance its simulation-based technology to slash energy use and emissions in manufacturing.

Read More
Trends

ZeroAvia advances to certify ZA600 in 2025, launch ZA2000 with liquid hydrogen in 2027

Lightweight composite tanks are key to ZeroAvia’s vision for H2 aircraft to rival range and utility of jet fuel aviation.

Read More

JEC World 2023 highlights: Innovative prepregs, bio-resins, automation, business development

CW’s Jeff Sloan checks in with JEC innovations from Solvay, A&P, Nikkiso, Voith, Hexcel, KraussMaffei, FILL, Web Industries, Sicomin, Bakelite Synthetics, Westlake Epoxy and Reliance Industries.

Read More
Trends

High-performance, high-detail continuous 3D-printed carbon fiber parts

Since 2014, Mantis Composites has built its customer and R&D capabilities specifically toward design, printing and postprocessing of highly engineered aerospace and defense parts.

Read More

Read Next

Trends

CW’s 2024 Top Shops survey offers new approach to benchmarking

Respondents that complete the survey by April 30, 2024, have the chance to be recognized as an honoree.

Read More
Thermoplastics

From the CW Archives: The tale of the thermoplastic cryotank

In 2006, guest columnist Bob Hartunian related the story of his efforts two decades prior, while at McDonnell Douglas, to develop a thermoplastic composite crytank for hydrogen storage. He learned a lot of lessons.

Read More
Wind/Energy

Composites end markets: Energy (2024)

Composites are used widely in oil/gas, wind and other renewable energy applications. Despite market challenges, growth potential and innovation for composites continue.

Read More
Composites One