Whether taking flight or heading a launch carrier for spaceships, structural casings in aero engines carry out multiple jobs. While they’re known for giving structure and rigidity to the engine under thrust, they also help direct air with guide vanes, protect from fire surges, and contain fragments in case of failures during flight. These highly intricate structures are situated throughout the engine from the compressor to the turbine, all the way to the exhaust. In an industry that demands high-level accuracy and quality assurance in the shortest time possible, these kinds of components need an all-in-one solution to inspect every type produced.
Striving for process optimization aero customers request for one system that measures everything from the casting, to the machined parts, and even complex fabrications. Using the ATOS ScanBox allows for rapid measurement of parts with high-resolution sensors equipped with a large field of view and customizable measurement options. These systems certifiable by NADCAP or certain ISO standards can even upgrade your existing operations by simplifying inspection processes at a faster rate and eliminating unnecessary steps and manpower. The ATOS ScanBox combines the best of automation and integration of powerful blue light technology to create a single setup, making the most out of your measurement room.
ATOS ScanBoxes provide a range of automated solutions due to the diversity of manufactured parts, so each system fulfils different needs. The ATOS ScanBox range is standard and scaled in sizes to meet your part size and throughput needs; from the smaller ATOS ScanBox 5108 for part sizes up to 800mm (ideal for small core engines, e.g. helicopters), to the 6-series ATOS ScanBoxes for large, civil engines that allow single-side options and dual working areas—like the ATOS ScanBox 6235.
High-accuracy data from complete surface inspection
Measuring times that outpace traditional CMMs
Increased overall throughput and efficiency within processes
Projected return on investment within two years
Casings and bearing structures typically start life as large castings with thousands of inspection requirements, often taking several hours using conventional tactile methods. It’s no surprise; the parts have thousands of features with complex geometries that require accuracy and precision. CMMs face the challenge of measuring freeform profile surfaces. This leaves aerospace manufacturers searching for a way to measure these large, complex structures all while meeting the industry’s exacting demands and fulfilling order backlogs.
ATOS technology is perfect for checking product quality, particularly with castings and their profile tolerances. Its powerful 3D optical measurement capabilities and data acquisition enable maximized surface inspection while collecting information to uncover surface defects which can be a product of the casting process. With the ATOS ScanBox 6235, castings up to 5,000kg and 3.5m wide can be measured in 0.2 seconds per scan (using the ATOS 5). Whether it’s the ATOS 5X with its laser light compressor and robust precision or the ATOS ScanBox equipped with heavy loading capacity and two working areas, GOM provides the systems to achieve complete optimization and production efficiency within your casting processes.
Casting optimization for maximum productivity
Full-field data available for manufacture improvements
Virtual assembly tools to resolve typical casting problems
High-speed inspection in as little as 20 minutes
Feedback of material conditions to the manufacturing process
Digital 3D copy of the actual part
In machining within aerospace, as in many other industries, tolerances are tight, scrap is kept to a minimum, and creating a repeatable process striving for continuous optimization in the production process is the goal for any manufacturer. Adding in complex designs for casings and the need for increased throughput present manufacturers with even more of a challenge: The more time it takes to machine each component, the more productivity and money is lost.
To meet market demands optical metrology, or a combination of systems, will drive efficiency and throughput whilst producing high accuracy and precision.
Strengths of the ATOS systems are the acquisition of full-field data and fast measurement times which allow aerospace companies to measure more than 80% of the product in a fraction of the time. The result? A significant contribution to the production process even when combining your current operations with ATOS solutions.
GOM solutions are extremely fast, taking hours of measurements with traditional techniques to just minutes. In that time, ATOS measures more of the part, removing unnecessary steps in the inspection process like mold and profile checks for radii, or intricate scans with probes. Combined with typical measurement tools, ATOS achieves unparalleled speed.
Customers using ATOS even showed 70% of the CMM inspection is done in 30% of the original CMM inspection time.
Higher throughput is achieved in the ATOS ScanBox 6235. Built with two working areas, one side of the machine can be prepared (loaded/unloaded) whilst the other side is measuring, making sure the ATOS sensor is continually measuring. From the most complex casing designs to tight tolerances, ATOS systems use high-quality data and high-speed scanning to make machining easier, and more profitable for every company.
Smart teach for ease of programming
All-in-one system to minimize unnecessary steps
Optimization of measurement space
High-speed and high-accurate results
Overall increased production in machining processes
Full-field data accuracy proven against equivalent systems
One of the final stages of producing aerospace casings is through complex fabrication of machined components. In order to maximize an aircraft’s safety and performance, the fabrication process must be executed with extreme precision and accuracy every time. Because of the variety and intricacy of welds due to their form and position 3D data as given through optical metrology is a strong complement to other techniques to ensure joints are accurately manufactured and the process is repeatable and reliable. Manufacturers have struggled to find a 3D scanner that acts as an all-in-one solution to accurately scan multiple components from every angle, quickly and efficiently, until now.
Due to their size, complexity, and ability to rapidly measure multiple, large parts simultaneously all over GOM’s ATOS systems meet many requirements in the fabrication process. Single inspection setups come standard with GOM solutions, while tactile methods normally require the part to be turned during the measurement cycle to get access from both sides. With the ATOS ScanBox, the structural part can be positioned in the middle of the working area, providing measurement data both above and below the product.
Customers need to get the most out of ATOS’s small inspection cycles. Fortunately the scalable solutions provided through ATOS ScanBoxes address all your fabrication needs with speed and efficiency.
ATOS ScanBoxes have varying strengths whether it’s producing higher throughput, specializing in small part inspection, or simultaneous scanning of multiple parts. What unites them as perfect GOM solutions? They optimize productivity and increase profitability for fabrication inspection processes.
Versatile 3D data for inspection and material thickness verification
Streamlined fabrication processes for maximum efficiency
Product development and tool try out with software feature
Information on trend analysis and statistical process control (SPC)
Complete analysis measurements for weld form and position inspection
Optimization of measurement and inspection rooms