Published1/12/2024 Artificial Intelligence, Origin Stories, Machining Strategies, and the Wild Ride Ahead in 2024. The January 2024 issue of Modern Machine Shop contains several firsts. From new features to new topics and presentation styles, the debut issue of the year reflects not only a changing landscape of machining strategies, but also the stories behind the people who innovate them.#thesetup Brent Donaldson Editor-in-Chief, Modern Machine Shop Share. Read Next . 5 Tips for Running a Profitable Aerospace Shop. World Machine Tool Production and Consumption Modestly Down in 2022. Five Common Mistakes Shops Make with ER Collets (And How to Prevent Them). Buckle up. When I think about 2024, that thought comes to mind. There are simply too many events of global significance taking place this year to make 2024 a forgettable ride. To wit: It is estimated that 76 countries plan to hold elections this year, possibly making 2024 “the biggest election year in history.” In addition to elections taking place across the planet, NASA’s Artemis II is scheduled to take humans on a flyby of the moon. A total eclipse of the sun will be visible across much of North America. The quadrennial drama of the Summer Olympics will descend upon Paris. And those are just a few of the known events. Featured Content . Tips for Designing CNC Programs That Help Operators Zillow for Machine Tools? World Machine Tool Production and Consumption Modestly Down in 2022 Then there are the wildcards. Modern Machine Shop’s January 2024 cover. Photo Credit: Modern Machine Shop In its 96 years of existence, Modern Machine Shop has never explored artificial intelligence (AI) — a wildcard of epic scale — as our central cover topic. But given the rapid advance of machining automation that our writers focus on every day, it feels like the right time. In her feature on page 58, senior editor Julia Hider presents a fascinating interview with Mike Wearne, a CAD instructor and CNC programmer who has researched and published studies and videos about ChatGPT’s potential for programming G code. In Hider’s article, she describes the challenges of machine programming via ChatGPT through its existing interface, including the sheer volume of information ChatGPT requires to create a successful program. Without giving anything away, the money quote in Hider’s piece is this (emphasis added on the last sentence): “Anything beyond that is not doable. At least, not yet.” We also explore AI and AI-adjacent topics in two other articles this month. On page 18, Editorial Director Peter Zelinski explores AI’s potential through an examination of intelligence itself — “real” versus “artificial” — and the role humans will necessarily still play even as AI advances far beyond its current capabilities. And on page 71, Senior Associate Editor Eli Plaskett examines dynamic programming and the ability of machines to autonomously generate code — after humans program the part geometries and cutting paths. While referring to dynamic programming as “AI” is dubious at best, Eric Ostini, GF Machining’s head of business development for North America, puts it this way: “Dynamic programming enables the intermediate or beginner operator to function at the level of a skilled programmer and enables the skilled programmer to make more efficient use of their time.” Rounding out the rest of the feature contributions to this issue, on page 68, associate editor Nate Fields examines a briquette manufacturer that revamped its machining and cutting tool arsenal for faster production. In this case study, the combination of a Mazak Integrex turn-mill machine with a two-pallet changer and automated pallet-stocking system, coupled with indexable carbide tooling from Ceratizit and Mastercam’s 3D tool paths, was a game changer across several aspects of production. And on page 62, Associate Editor Evan Doran tells the story of entrepreneurs who used their lack of manufacturing experience to their greatest possible advantage, creating a business strategy that involved trusting machinists and taking a hands-off management style. The strategy allowed company leaders to take more risks and find success at a faster pace. Finally, I’m excited to announce that the January 2024 issue of Modern Machine Shop includes two brand-new feature presentations. First, we’re debuting a full-spread visual feature we’ve dubbed “The Cut Scene.” Put one way, “The Cut Scene” is a two-page photo feature accompanied by text callouts that describe an interesting production setup and machining activity. Put another, it is a visually compelling photo involving a machining production scene that’s meant to evoke a call-and-response: What is that, and how is it made? In this debut of “The Cut Scene,” we’re examining a snapshot from one step of Vektek’s production cycle for its hydraulic clamp bodies. These complex parts must be leak-free with precision fits and excellent surface finishes, and producing them at volume requires repeatable and flexible workholding to change parts quickly. To see the solution Vektek found, turn to page 56. Also making its debut this month is “How I Made It,” a new Q&A-style feature that takes us behind the scenes with fascinating personalities in our industry. “How I Made It” takes a step back from technology topics to focus on origin stories — family upbringing, career highlights, personal or professional epiphanies, wild anecdotes, lessons learned, or random nuggets of wisdom. This month, we’re featuring Doug Schulte, senior product manager for Select Machining Technologies and a man known by friends as “Machine Tool Google” due to his encyclopedic knowledge of machine tool specs and mechanics. On page 96, Schulte talks about his early introduction to the industry through his father, who began his own career at the LeBlond Machine Tool Company in the early 1950s. Doug's wisdom on the importance of having curiosity, his philosophy on selling and the bravery of asking questions, and his shared joy of working in the metalworking industry all make for a worthy read. In the coming months, the Modern Machine Shop team plans to provide more new offerings to our audience, offerings you'll find both in print and in the world of multimedia. (We’re also excited to announce that we’re already working on Season 3 of our podcast, “Made in the USA” — stay tuned.) Until then, we hope you enjoy this issue as we all buckle up for the ride ahead. RELATED CONTENT. Team Unity – the Tightrope Walk for Corporate Culture . Finding your place in an organization doesn’t always mean falling in line. But creating a culture of continuous improvement means fostering unity among independent thinkers. The Link Between CNC Process Control and Powertrain Warranties . Ever since inventing the touch-trigger probe in 1972, Sir David McMurtry and his company Renishaw have been focused on achieving process control over its own manufacturing operations. That journey has had sweeping consequences for manufacturing at large. If the Federal Government Is to Solve the Manufacturing Labor Shortage, it Needs to Start Here . Student-run businesses focused on technical training for the trades are taking root across the U.S. Can we — should we — leverage their regional successes into a nationwide platform?

Meet the Colossus: An Inside Look at One of the Largest Five-Axis Machining Centers in the U.S.. A behind-the-scenes tour on the shop floor of Baker Industries begins and ends with the company’s Emco Mecof PowerMill, one of the largest five-axis machining centers in the United States. Blog Post: 4/20/2019Brent Donaldson Senior Editor, Modern Machine Shop . The Emco Mecof PowerMill represents a $3.4 million investment by Baker Industries to expand its capacity to serve OEM and Tier-One customers’ largest machining projects, typically for the aerospace and automotive sectors. The entire installation took more than two years from beginning to end, starting with the removal of 1. 2 million pounds of concrete and earth to excavate a 45-by-75-by-7-foot pit. The PowerMill can maintain total error of 42 microns over the complete 46-foot length of the X axis. During my visit, the machine was drilling holes on eight steel plates for an undisclosed aerospace tool, a job that required more than a week to set up and a lot of forethought into how to ensure they were properly stress relieved before these drilling operations began. Four different cutting heads powered by spindle motors that reach up to 18,000 rpm enable the machine to handle operations from roughing to finishing all in one setup. The open structure of the overhead gantry enables the spindle to travel 46 feet in the X axis, 20 feet in the Y axis and nearly 10 feet in the Z axis. Winner winner! Baker Industries was one of Modern Machine Shop’s 2018 Top Shops winners in the machining technology category. This huge banner hangs proudly behind the PowerMill.Previous Next Related Topics: .Large-Part Machining . Turn/Mill & Multitasking Machines . Turning Machines. Baker Industries, a subcontract manufacturer that primarily serves the OEM and Tier-One aerospace and automotive sectors, is located on a vast industrial campus housing several complexes in the sleepy Detroit suburb of Macomb, Michigan. But inside one nondescript building on the corner of campus you’ll find a true metal giant—a five-axis horizontal machining center with a build platform large enough to double as a car pad for a fleet of full-size SUVs. Baker Industries invested $3.4 million in the Emco Mecof PowerMill to expand its capacity to serve its customers’ largest machining projects, typically for the aerospace and automotive sectors. The installation took roughly 11 months from beginning to end, starting with the removal of 1. 2 million pounds of concrete and earth to excavate a 45-by-75-by-7-foot pit. The pit was then filled with nearly 2 million pounds of crushed stone and concrete—the latter of which had to be individually sampled per truckload by inspectors to ensure it was the right consistency. Featured Content . When Automated Production Turning is the Low-Cost OptionFrom-Scratch CNC Post Processor Lets Dual-Toolhead Mill-Turn ShineThe Impact of Multitasking in Today’s Shops The reinforced foundation was needed to guarantee stability while the overhead gantry—which itself weighs more than 100,000 pounds—travels along a 52-by-20-by-10-foot work envelope that can handle parts weighing up to 2.6 million pounds. Yet, for all of this mass, the machining center giant can achieve almost shocking precision, able to maintain total error of less than 42 microns over the complete 46-foot-long X axis. During my visit, the machine was drilling holes into eight steel plates for an undisclosed aerospace tool, a job that required more than a week to set up and a lot of forethought into how to ensure they were properly stress-relieved before drilling operations began. Four different cutting heads powered by spindle motors that reach up to 18,000 rpm enable the machine to handle operations from roughing to finishing all in one setup. Check out this time-lapse video that in 60 seconds shows the entire four-month installation process of the PowerMill, and stay tuned for a deeper dive into the challenges and opportunities presented by working with giants. .