Need a little good news? America’s seemingly insatiable need for electricity is producing strong demand for the components that go into power generation equipment.
The deburring and finishing of machined and fabricated parts is a necessary but often disregarded step in the manufacturing process.
A burr could become a danger point in the turbine engine. Classical manufacturing processes like turning, milling and grinding can lead to burr formation and unwanted sharp edges.
Long-term customer contracts are a lofty goal for every contract manufacturer. At Shapes Precision Manufacturing (SPM), that goal is being achieved by a strong new management team using new fabricating processes initiated by a skilled workforce.
Methods Machine Tools Inc., a provider of precision machine tools and automation is hosting MetalStorm 2020 in a virtual format on its newly redesigned website from September 8th – 18th,, beginning at 9:00 a.m. (EDT) weekdays.
Take a break from the virtual and go live at the 32nd edition of BI-MU. Over 550 companies have confirmed their presence at this Italian trade show for machine tools, robotics and automation in Milan, Italy.
Part identification is a necessary step in any manufacturing operation. This might be as simple as a label on the shipping box, but more often shops are required to mark each component, especially those used in automotive, aerospace, or medical applications.
Laser 3D printing and marking systems are among the heavy-duty cutting and welding systems that had been scheduled for the IMTS Fabricating and Laser Pavilion—testament to the growing impact of what once might have been viewed as ancillary processes.
Advanced cutting tools can maximize metal removal rates (MRR) when machining even the most difficult-to-machine materials. Powered by the latest CAM programs, these machining strategies are known variously as high-speed, high-efficiency, optimized roughing and also by proprietary brand names like Mastercam’s Dynamic Milling.
Fiber laser welding continues to grow as it improves in weld quality, reliability and performance. Many fiber laser welding applications are autogenous, where the weld is formed entirely by melting parts of the base metal and no additional filler wire or powder is used