Makino Updates MAG3.EX 5-Axis HMC for Enhanced Competitiveness in Aerospace Aluminum Structural Components

Makino Updates MAG3.EX 5‑Axis HMC for Enhanced Competitiveness in Aerospace Aluminum Structural Components

Next-generation design delivers higher spindle power and advanced motion controls while retaining full interchangeability with existing systems
 
Asia  – June, 2019 – Makino is pleased to reveal the next-generation MAG3.EX 5-axis horizontal machining center, a proven machine platform updated with expanded capabilities for the processing of complex aluminum structural parts for the aerospace industry. With its speed, power and motion control enhancements, the new MAG3.EX provides aerospace manufacturers with the productivity necessary to exceed customer demands for costs, quality and lead-times.
 
“The original MAG3.EX has been a staple in the aerospace industry for more than a decade. However, to continuously innovate and position manufacturers for the future, we pushed to increase both cutting and control capabilities,” said Dave Ward, product marketing manager, Makino. “When updating the machine, we focused on three main design objectives: higher productivity, enhanced features and reliability, and interchangeability. The new design delivers on all three with exceptional results, establishing a new standard for aluminum structural aircraft component production.”
 
The MAG3.EX is fully equipped to take on aluminum structural parts up to 4 meters in length (approximately 13 feet), including wing ribs, bulk heads and beam-type components. Its X-, Y- and Z-axis travels of 4,000mm, 1,500mm, and 1,000mm (157.5 inches, 59.1 inches, 39.4 inches), respectively, accommodate part sizes up to 4,000mm by 1,500mm by 750mm (157.5 inches by 59.1 inches by 29.5 inches, respectively). The machine’s A and C axes are located within the spindle housing and provide ±110-degree tilting and 360-degree rotation.
 
Minimized Non-Cut Time, Optimized Metal Removal
Many key components, including the spindle, coolant system and automatic tool changer, have been updated with enhanced technologies to achieve next-generation productivity.
 
By increasing the spindle power from 120kW to 130kW in the updated model, maximum power can be achieved at 26,000 rpm rather than 33,000 rpm with the previous spindle. Cutting feedrates and acceleration rates have also been improved with cutting feedrates increasing from 25.4 M/minute to 50 M/minute and acceleration rates reaching 1G. Together, these enhanced features dramatically improve processing speeds for all aluminum structural type components.
 
In addition to added power and feedrates, rapid traverse rates have been improved across all axes: 25 revolutions per minute on the A/C, 62.7m/minute (2,440 IPM) on the X-axis, and 58 m/minute (2,283 IPM) on the Y- and Z-axis. These faster axial movements, combined with an improved automatic tool changer and automatic pallet changer, reduce non-cutting times in operation for the highest degree of machine utilization. In some test parts, cycle times have been reduced by up to 23 percent compared to the previous model.
 
To keep up with the larger volume of chips removed by the improved spindle capabilities, coolant and chip management systems have also been updated for improved maintainability.
 
The MAG3.EX is built with a large-capacity automatic tool changer, capable of holding up to 120 tools and reducing the time it takes to change tools by 30 percent, and an automatic pallet changer, eliminating the need to stop machining for work setup. Furthermore, the platform features a horizontally oriented work-setting station that lets operators quickly and easily set workpieces on the pallet, similar to how they would a vertical machining center.
 
Expanded Features for Machine Control 
Three key features of the next-generation MAG3.EX include Makino’s new Pro6 control, MPmax real-time process monitoring and Collision Safe Guard technologies. A dedicated monitor screen for MPmax is located next to the Pro6 control. Here, the operator can watch uptime rates, view images captured by the monitoring camera and monitor the condition of the spindle in real time. Moreover, operators can access the recorded data and check details afterward.
 
Makino’s Collision Safe Guard technology is a function that runs real-time interference checks to avoid spindle crashes. By combining on-board machine geometry models with workpiece, fixture and tooling data input by the user, Collision Safe Guard can predict and stop the machine prior to collision, protecting investments in the machine, fixture, tooling and workpiece. This state-of-the-art sensing technology protects the spindle from damage caused by overload.
 
Interchangeability and Automation
The original MAG3 has been a leading machine platform for the aerospace industry for more than a decade, and features one of the broadest install bases in the industry. As such, maintaining compatibility and interchangeability with these existing systems was a critical consideration in the development of the next-generation MAG3.EX.
 
The updated MAG3.EX can be used with existing pallets, work-setting stations and even pallet changers, making it fully compatible with Makino’s highly flexible MMC2 systems. This design enables manufacturers to expand existing MAG3.EX cells or replace older machines from their MMC2 with no changes to the foundation.
 
About Makino 
A world leader in advanced CNC machining centers, Makino is committed to providing high-performance, leading-edge machining technologies and innovative engineered process solutions that enable manufacturers to focus on making what matters. Makino offers a wide range of high-precision metal-cutting and EDM machinery, including horizontal machining centers, vertical machining centers, 5-axis machining centers, graphite machining centers, and wire and sinker EDMs.
 
Makino’s flexible automation solutions provide reduced labor costs and increased throughput in a variety of production volumes and designs. Makino’s engineering services offers industry-leading expertise for even the most challenging applications across all industries.

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