Tag Archives: Selective Laser Melting (SLM)

Metal 3D Printing: A Machine Shop’s 73 Year-old Journey in the Industry

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By Wesley Hart

Imperial Machine & Tool Co. took delivery of their first metal additive manufacturing (AM) machine in 2013 — a Selective Laser Melting system from SLM Solutions. The decision to invest was made after seeing one of these “metal 3D printers” in action, growing a component layer-by-layer from titanium. That demonstration made it clear to Imperial that this was powerful technology, and would play an integral role in the future of advanced manufacturing.

An SLM 280 HL and an SLM 280 HL “Twin-Laser” in Imperial’s additive manufacturing laboratory.

Over the last four years, the folks at Imperial have spent thousands of hours working with their additive machines. According to Christian G. Joest, Vice President of Sales and Business Development at Imperial, that’s what it takes to be successful. “Metal AM has come a long way since its inception, but it’s not a turn-key operation; you’ve got to put in the time to master your machines and lock down your process. Early adopters must be willing to problem solve and learn along the way. We understood that, and decided to make the investment — even though the path forward was not entirely clear.”

The “dive-in” approach employed by Imperial has provided them with unique and useful insight — especially for those wondering how additive manufacturing will affect their own business. LIA invited Imperial to share some of their insight during a 30 minute presentation at the Industrial Laser Conference held at IMTS 2016. This article focuses on some of the key takeaways from that presentation.

Why Invest in Metal Additive Manufacturing?

Christian began the presentation by sharing some background on Imperial, and the primary reasons they decided to get into metal additive manufacturing.

“Imperial is a 73 year-old advanced manufacturing company. Since the 1940s, we’ve been known for tackling the most challenging machining and fabricating efforts in the industry. Our earliest work was for the military and we still do a large amount of work for the DoD, but over the years we’ve expanded to serve many other high-end sectors including the semiconductor, energy and optical equipment industries.

To be successful at challenging manufacturing projects, we rely on the most cutting edge manufacturing technology available; it’s one of the reasons we’ve remained competitive and relevant over the last seven decades and a big part of why we got into metal additive manufacturing. In the 40s that meant advanced Jig-boring machines, in the 70s it was CNC machining centers, and today it’s metal additive manufacturing. We wanted to get out in front of the technology.”

The second reason was more personal.

“The other reason we became involved in additive is because we’re a fourth-generation, family-run business. We consider investments in terms of decades and generations, and we believe metal AM will be required for success for the next generation of Imperial. We understood we wouldn’t see a financial return on our investment right away, but that wasn’t what was driving this decision; we wanted to begin developing expertise as early as possible.”

Christian went on to explain how the impact of additive will be felt across all industries in a variety of ways. For example, current Imperial customers working in laser and energy beam related industries are particularly interested in metal AM for the conformal cooling possibilities.

The Importance of Hybrid Manufacturing

As the presentation continued, Christian built to an important point, “It’s not just press print.”

Christian explained that customers are looking for high-quality end-use components. Additive manufacturing can help realize innovative new designs, but they are not pulled straight from the printer.

“Misconception comes with the territory; the technology is young. Most of the public doesn’t even know that printed parts are actually welded by laser to the build plate, and must be cut off!”

Precision machining a metal 3D printed component, part of the “Hybrid Manufacturing” approach.

To successfully yield end-use components Imperial had to develop a “hybrid manufacturing” approach — using their additive capabilities in conjunction with their traditional machining capabilities. For example, they might use their metal printer to manufacture a topology optimized hydraulic manifold with complex internal channels, but they still rely on high-precision CNC machining centers to mill special SAE threads and flatten critical mating surfaces. That’s in addition to the thermal conditioning operations Imperial performs to yield the best material properties. All of these steps must be planned and accounted for before manufacturing begins! This is a far cry from pulling an end-use component straight from the printer.

The Real-World Applications of 3D Printing

Christian went on to explain the education process that must occur when interacting with new customers; getting the most out of additive manufacturing requires an understanding of what it’s best used for.

“It doesn’t make sense to use a power drill when you need a hammer. A power drill may be a more advanced tool, but that doesn’t mean it’s better than a hammer. You’ve got to choose the right tool for the right job.”

The value of AM is not in making the same part designed for CNC machining on a metal printer, it’s in realizing designs never before possible. Christian spoke of how Imperial works closely with their customers to ensure they understand the reality of when additive manufacturing makes sense, and when it does not.

“Over the years we developed a list that breaks down the best applications for additive manufacturing, based on our experience with customers and our background in manufacturing. Our goal is to provide a strong foundation for our customers to continue exploring from. Once customers understand these applications, they begin to think on their own about how additive manufacturing can positively affect their business and industry.”

A Look Toward the Future

As the presentation wound down, the focus turned to what it will take for metal AM to become mainstream. “You’re all here today because you’re interested in additive manufacturing on some level. That’s the first step. Don’t be afraid to explore further. You’re in the right place, at the right time in history to be a part of this emerging technology. Embrace the opportunity.”

Metal additive manufacturing is already making a big impact for Imperial Machine & Tool Co. and their customers. How will metal AM affect you, and what you do?

Wesley Hart is the Marketing Director of Imperial Machine & Tool Co.

Additive Manufacturing & Applications in China

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With the Laser Additive Manufacturing Workshop (LAM®) just around the corner, Lasers Today is taking a closer look at some of the topics presented at this year’s event.

LAM Applications in China: Rounding out the final session at LAM is “Progress and Medical Applications in Additive Manufacturing of Metal Parts by Selective Laser Melting” by Yongqiang Yang of South China University of Technology.

LAM 2017 brings researchers and industry leaders together to discuss advances in the world of additive manufacturing. Around the world, exciting innovations are coming to light, many of which will be discussed at this year’s event. One country that is seeing significant progress within its additive manufacturing initiatives is China.

Rounding out the final session at LAM is “Progress and Medical Applications in Additive Manufacturing of Metal Parts by Selective Laser Melting” by Yongqiang Yang of South China University of Technology. The use of additive manufacturing for medical purposes is a growing area of interest for many. While there are still significant challenges and obstacles ahead, the work performed at the South China University of Technology (SCUT), and across the nation, is notable to anyone involved with, or intrigued by, the possibilities presented by additive manufacturing within the medical field.

About Selective Laser Melting (SLM)

Selective Laser Melting (SLM) is being used by researchers to 3D print medical implants. SLM is used both for coating and completely creating the implant parts. Materials used usually include platinum, nickel titanium, and in some prototypes, stainless steel. One of the biggest challenges faced by researchers and developers is the risk of infection and/or rejection of the implant within the body.

Courtesy: Open Biomedical Initiative

Additive Manufacturing in China

China’s history with additive manufacturing begins in the early 90’s, where a push for research on additive manufacturing processes, equipment, applications, as well as education began. Schools, such as SCUT, emphasize hands-on practice and application within their programs. For over two decades, universities and other higher education facilities have given students opportunities to “compete” in various design competitions, pushing innovation as part of the learning process.

In partnership with specific industries, especially the companies within them, various programs have given students the opportunity to pursue specialties and specific interests within additive manufacturing, providing relevant work experience. In doing so, additive manufacturing is now considered one of the biggest areas of market growth within China, in decades. In fact, the undergraduate programs have lead to an overall increase in the quality of programs in science, engineering, mathematics and more.

However, there is a call for more progress within the medical applications of additive manufacturing, particularly with implants and tissue engineering. The longevity of the prototypes created pose unwanted side effects, rejection, and infection risks that still stand to be solved.

A Successful Implant at South China University of Technology (SCUT)

When thinking of 3D printed implants, it is easy to assume that the applications are only for human benefit. However, this is not always the case. Last summer, SCUT in collaboration with Leader Animal Hospital and Guangzhou Yang Ming Technology Company outfitted an injured red-crowned crane with a new, 3D printed beak.

After a fight with other birds led to a severe beak injury the crane was unable to eat.. Guangzhou Yang Ming Technology Company, which specializes in designing molds for 3D printing, passed their mold design to SCUT, who printed the new beak out of titanium. Titanium has shown promise in other instances as a preferred material for implants for humans, due it its biocompatibility.

The procedure in which they attached the new beak was successful, allowing the bird to eat shortly after the process. The red-crowned crane received the first successful beak transplant in China, joining a growing list of successful 3D-printed implant procedures on birds.

These successful procedures increase the likeliness of 3D printed implants becoming a viable solution for more than just birds. Advancements within additive manufacturing, including selective laser sintering, are opening many doors for the future of the medical industry.

Be sure to catch the presentation at LAM 2017 as part of two exciting additive manufacturing application sessions. Check out the advance program for LAM here to plan your visit to this year’s event. LAM 2017 will take place February 21-22, 2017 in Houston, Texas. For more information, and to register, click here.

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The Laser Institute of America (LIA) is the international society for laser applications and safety. Our mission is to foster lasers, laser applications and laser safety worldwide.

 

 

 

 

Meet 3 of 2016’s Selective Laser Melting Innovators

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Selective Laser Melting is an increasingly important segment of additive manufacturing.

Considered by many to be the first major manufacturing revolution of the 21st Century, additive manufacturing continues to disrupt tradition and introduces new ways to shape our world. The following are a few of this year’s biggest innovators in the realm of selective laser melting:

IPG Photonics

Recently ranked on Forbes Fast Tech Top 25, IPG Photonics is making waves with their High Power CW Fiber Lasers for Selective Laser Melting and Laser Metal Deposition applications.

They use High Power CW Fiber Lasers to develop “fully dense metallic parts with improved mechanical properties.” With regular recognition for their products, IPG Photonics is a company to watch when it comes to industry innovations.

Courtesy: IPG Photonics

LPW Technology

LPW Technology offers a variety of metal powders for use in additive manufacturing. The company aims to “support, develop, and challenge the fast-growing 3D metal printing industry.”  LPW Technology recently partnered with TWI, Ltd. for the High Strength Aluminum Alloy Parts by Selective Laser Melting (Hi-StA-Part) Clean Sky project. The endeavor utilizes selective laser melting to “demonstrate the viability to produce aerospace grade aluminum parts” using direct manufacturing.

LPW focuses their research and development efforts around advancing the metal 3D Printing industry. Hi-StA-Part Clean Sky is just one of the many additive manufacturing projects LPW Technology is actively participating in.

Courtesy: SPI Lasers

SPI Lasers

SPI Lasers is one of the leading manufacturers of fiber lasers. They’ve also contributed to the rise of selective laser melting. The redPOWER CW Fiber Laser is used to build “complex titanium implants and components” in a matter of hours.

Fractionalizing the wait time expected in traditional manufacturing, their systems have a lower operating cost and work virtually any sort of metal. Plus, SPI Lasers does an excellent job of outlining additive manufacturing practices and applications to educate curious minds. Between education and application, SPI Lasers is setting a standard of innovation in not only selective laser melting, but in additive manufacturing overall.

Interested in learning more about these exciting innovations in selective laser melting? Be sure to register today for the Laser Additive Manufacturing Workshop (LAM®) taking place February 21-22, in Houston, Texas. To learn more about LPW Technology, IPG Photonics, and SPI Lasers, visit them along with other LAM Sponsors & Vendors at LAM 2017.

The Laser Institute of America (LIA) is the international society for laser applications and safety. Our mission is to foster lasers, laser applications, and laser safety worldwide. Visit us at www.lia.org for more information.

Weekly Lasers Wrap Up: Week of October 24, 2016

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The Laser Institute of America LasersToday.com Weekly Wrap-Up aggregates industry news, conference updates, and LIA happenings. Here is the latest:

Industry News

Valuable Resources in Laser Manufacturing

When discussing resources to increase your laser manufacturing knowledge, blogs may not be the first thing that comes to mind! There are plenty of credible, informative laser manufacturing blogs online. This week, on Lasers Today we highlighted some of our favorites, suitable for every level of laser professional. Check it out here.

With the new year quickly approaching, be sure to take a closer look at the new reporting guidelines from OSHA. The new guidelines require all incidents to be reported online, where they can be viewed by the public. The decision has divided affected industries, with some celebrating the increased transparency, and others citing privacy concerns and the potential for bad press as negatives for the decision. Find the details here.

In case you missed it last week, Lasers Today shared a guest post on The Magic of Nonlinear Laser Processing: Shaping Multi-Functional Lab-in-Fiber. Learn how the manipulation of femtosecond laser light inside transparent media can be used for dense memory storage, 3D circuits, and more. Find the in-depth look at the process here.

LIA Happenings

Are you a medical professional who works with or around lasers? Be sure to check out An Overview of Medical Laser Safety Courses to determine which medical laser safety course is right for your needs. A large portion of laser applications take place within the medical field, and the diverse course offerings reflect this, making it easy for you to stay on top of your laser safety education. Included in the blog post is a link to our free e-book Tackling Laser Safety in the Classroom. Find it all here.

Conference Updates

Industrial Lasers featured an ICALEO® wrap-up this week, giving an excellent first-hand experience from inside the conference. Check out the post from the Chief Editor of the publication here.

Don’t miss a single laser industry update! Sign up today to receive the latest in lasers delivered straight to your inbox. Be sure to follow LIA on Facebook and Twitter for even more laser news.

The Laser Institute of America (LIA) is the international society for laser applications and safety. Our mission is to foster lasers, laser applications, and laser safety worldwide. Find us at www.lia.org

Selective Laser Melting, Powder Metallurgy & Additive Manufacturing

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Additive Manufacturing processes like selective laser melting (SLM) and powder metallurgy are on the rise – and they continue to disrupt traditional manufacturing as we know it.

While the public eye continues to focus almost solely on 3D printing, these other laser additive manufacturing methods are quite literally shaping our manufacturing future.

In the weeks that follow LIA’s 35th International Congress on Applications of Lasers and Electro-Optics (ICALEO®), Lasers Today shifts its focus to innovative and critical additive manufacturing processes in preparation for our Laser Additive Manufacturing Workshop (LAM®). Our next LAM, which takes place February 21-22, in Houston, Texas, will cover all facets of additive manufacturing, including 3D printing, selective laser melting (SLM), powder metallurgy, and more.

A recent Fortune article, which discusses the urgency of 3D metal printing and additive manufacturing processes and the challenges faced by the rise of these methods, echoes the importance of laser applications in these areas succinctly. While 3D printing is a big part of the present and future of additive manufacturing, it is equally important to acknowledge other applications that are disrupting the marketplace and defining its future.

SLM and Powder Metallurgy Are Making Waves in the Industry

In its September issue, EuroPhotonics published an article discussing the changing landscape of Laser Materials Processing. Illustrating a shift from a handful of manufacturing operations to the rapid increase of additive methods, the change is happening worldwide. The piece discusses several additive processes outside of 3D printing. The use of selective laser melting (SLM) in rapid prototyping, for example, allows early versions or low volume creations to be created without the use of complicated, often time-consuming tooling.

This feature is just one of the many additive manufacturing processes described. Find the full article here.

The use of powder metallurgy to create high-quality parts only continues to rise. LPW Technology shared a blog post discussing the quality control process of determining if unexpected results are the doing of a machine, or the powders themselves. As manufacturing experts know, a machine’s output can be disrupted by even the slightest error or change. This power metallurgy article provides a unique, first-hand perspective on some of the challenges, and the subsequent solutions associated with additive manufacturing practices.

Read the full post here.

Interested in learning about these laser applications and more at LAM in February? Review the Lasers Today LAM 2016 recap and visit www.lia.org/conferences/lam to register today.