In what shouldn’t be too much of a surprise, challenges for advanced grinding technology from high tech industries range from handling the most difficult-to-machine materials for aerospace jet engine turbines to series production on automotive drive train lines.
Monsees Group (Rochester, NY) has successfully navigated the treacherous waters from being a near-captive operation to being a highly effective competitor in the world of high-precision complex part manufacturing.
Smarter factory systems connected via the cloud are the grand vision offered for the future factories that will fully leverage the best available tools from automation, software and machine tool builders.
The issues around OEE are not its utility but the ease and credibility of the data used to calculate it
Sandvik Coromant will reveal for the first time at IMTS 2016 new connectivity-based solutions designed to help manufacturers optimize their machining and decision making process. The new solutions have been developed to improve every aspect of it, from design, production planning and through machining to post-process analysis and intelligence.
Moldmaking is making a comeback, with more reshoring to North America of mold-and-die manufacturing that left for the Far East and other low-cost manufacturing centers. With faster metalcutting through high-speed machining (HSM) and improved EDM techniques, mold-and-die shops are finding innovative ways to compete with manufacturing operations in traditionally low-cost labor markets.
A recent effort by the Norton Advanced Applications Engineering Group demonstrates that for difficult-to-machine materials, grinding can be an economical alternative to other machining processes.
Investing in factory automation for the first time is a big decision for many CNC machine shops. For Loveridge Machine (Salt Lake City, UT), owner Dennis Loveridge thoroughly researched his options before making a decision for his high tech job shop.
The growing need for nano and micro components in the medical industries is challenging manufacturers to continually improve upon their manufacturing processes and take a scientific approach to injection molding and tooling.
Process improvement encompasses a wide range of tools, techniques and strategies. When properly deployed, shop-floor data collection and monitoring systems can help factory-floor managers leverage key data metrics including overall equipment effectiveness (OEE) and total effective equipment performance (TEEP) that measure machine uptime and pinpoint bottlenecks or other problems in order to improve machining performance.