Our Laser Additive Manufacturing (LAM®) Conference is less than 2 months away. This annual event features a series of presentations from industry leaders that highlight the latest advancements in additive manufacturing technology, applications, policy, standards and training for a variety of industries.
LAM 2018 is in Schaumburg, Illinois, and will be co-located with the Lasers in Manufacturing Event (LME). All LAM attendees will be granted free access to the LME exhibit and reception at the end of the sessions on the second day.
This year’s event will kick off with the keynote presentation “Smart Collaboration: A Public-Private Approach to Advancing the Manufacturing Industry” by America Makes, as part of the Policy and TechnologyI session. Learn more about America Makes’ work and the keynote speech at LAM below.
America Makes Helps Improve the U.S. Economy Through Domestic Manufacturing
America Makes at the 2017 NAMII Announcement Event
The National Center for Defense Manufacturing and Machining (NCDMM) manages and operates America Makes, the National Additive Manufacturing Innovation Institute, which is a public-private partnership focused on research and innovation in additive manufacturing and 3D printing. America Makes is comprised of member organizations from industry, academia, government, non-government agencies, and workforce and economic development resources. The NCDMM is a nonprofit organization dedicated to improving America’s workforce and economic competitiveness through the development of new manufacturing solutions.
What’s Next for America Makes
March 5th through March 9th, America Makes will offer the first public Advanced Curriculum in Additive Design, Engineering and Manufacturing Innovation (ACADEMI) course, Metals Design for Additive Manufacturing, for both its members and non-members. The course will cover advanced design with a focus on new areas of design spaces, engineering, manufacturing, and processing techniques for additive manufacturing with metallic materials.
On March 6th, America Makes will also host a free public forum on their Apprenticeship Works Program to promote manufacturing apprenticeships and introduce the first-ever, industry-vetted Additive Manufacturing (AM)/3D Printing Technician Registered Apprenticeship framework. This new framework serves to help employers develop registered apprenticeship programs within their companies to help employees advance their skill sets.
Do not miss the America Makes presentation, “Smart Collaboration: A Public-Private Approach to Advancing the Additive Manufacturing Industry” on March 27, 2018 at 8:15 AM as part of the LAM opening session, Policy and Technology I. For more information on this year’s sessions and presentations, please visit: https://www.lia.org/conferences/lam/program.
Laser Additive Manufacturing Workshop (LAM) will take place March 27-28, 2018 in Schaumburg, Illinois. For more information, and to register, please visit www.lia.org/lam.
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 for conference, education, and courses information at http://www.lia.org today.
Industry veterans and newcomers from over 10 countries gathered in Houston for LIA’s ninth annual Laser Additive Manufacturing (LAM®) Workshop to participate in the premier laser additive manufacturing event. The two-day meeting was comprised of invited talks and keynotes, along with a vendor showcase. About one-third of participants were at LAM for the first time, reflecting strong enthusiasm—from engineers and developers—to learn more about laser-based additive manufacturing (AM).
The two-day meeting was comprised of invited talks and keynotes, along with a vendor showcase. About one-third of participants were at LAM for the first time, reflecting strong enthusiasm—from engineers and developers—to learn more about laser-based additive manufacturing (AM).
The Program: Keynotes on Commercial Trends & Simulations
LAM General Chair, Prof. Milan Brandt of RMIT University (Melbourne, Australia), along with Workshop Co-chairs, John Hunter of LPW Technology (Pittsburgh, PA) and Prof. Minlin Zhong of Tsinghua University (Beijing, China), constructed LAM 2017’s program to highlight trends and applications of primarily metal AM, as well as key aspects of design, materials and technologies that enable those applications. Brandt stated that he intentionally emphasized powder-bed AM this year because “laser additive manufacturing approaches such as powder fed cladding as well as wire-fed AM are fairly mature and the materials and processes are generally well-understood. Today, we are still in the relative infancy of selective laser melting in powder-bed systems although industry titans such as GE and Siemens are increasing the adoption rate.”
On that theme, the workshop opened with a Keynote titled “Accelerating the Additive Revolution” by Greg Morris of GE Additive. To date, GE has invested $1.5 B in powder-bed based AM tool manufacturers and estimates a large market for AM, predicting that it will sell 10,000 AM tools worldwide over the next 10 years. Morris, a pioneer in laser-based AM, provided examples of production successes such as the well-known LEAP fuel nozzle tip, which GE is currently ramping to 40,000 parts per year by 2022. The lessons learned in making nozzles have been applied to an advanced turboprop that was made up of 855 parts by traditional methods, and can now be created from only 12 printed parts. Even with AM’s incredible promise, Morris noted that it will take a change in design mindset to achieve the full promise of AM, and that may be the biggest challenge for many companies.
Stryker’s Keynote on Additive Manufacturing of Medical Implants was presented by Marc Esformes, from the Advanced Technology Group in Stryker’s Orthopedic Division. Esformes provided some history and the current status of Stryker’s adoption of AM for medical device manufacturing. In the 2000s, Stryker began to investigate AM and initiated its own R&D efforts. As of 2013, Stryker started selling AM-based orthopedic implants, and now offer devices for the hip, knee and spine.
Biocompatible surfaces are key to medical implants, and Stryker found that it could create the proper surface structure and replicate it identically from part-to-part faster and more reliably using laser-based AM than previous methods. They also found that the bone growth process was much faster with AM printed parts than with their traditional polymer-coated implants.
Wayne King’s Keynote on Day 2 focused on results of extensive efforts to improve qualification of parts produced using laser powder-bed fusion AM by applying physics-based models. King, a widely recognized expert and Director of AM Materials at Lawrence Livermore National Laboratory (LLNL) described the multi-scale modeling efforts of his team, focusing on powder scale and parts-scale models. The powder scale model has become so powerful that it can now predict phenomena that was unanticipated, as well as nearly every spark and splatter occurring in the powder-bed and melt pool. The parts-level model predicts manufacturing properties in 3D. Even with such powerful simulation tools, there is work to be done to create more complete simulations of every step from design to part.
The Program: Presentations on Design, Materials, Technology & Applications
LAM 2017 included many high-quality talks from academia and industry that addressed subjects critical to commercial adoption of laser-based AM, from digital tools, to materials, to tools for quality assurance. Highlights from the program included presentations about:
• Materials for laser-based AM from Arconic, LPW
Technology and Tekna
• The status of software development for laser additive
manufacturing from Laser Zentrum Nord and Autodesk
• The prospects of and need for online process control from
the University of Michigan
• Technologies that enhance laser-based AM from
various solution providers such as Plasmo, Haas Laser
Technologies and Coherent
Turning to applications, while the use of laser-based AM is relatively well-known in aviation and medical devices, talks from Siemens and Baker Hughes reminded attendees that other industries—such as Power and Oil & Gas—are already making headway in the adoption of this revolutionary technology. Ingomar Kelbassa shared updates from Siemens’s AM activities related to gas turbines, including their first serial/spare parts using selective laser melting, and a positive outlook to future implementation.
A theme that came through during the workshop is that laser-based AM is just a part of the broader manufacturing toolkit that includes subtractive, non-laser based processes. This was illustrated in talks presenting tools that actually incorporate laser AM processes with drills that can then create features on an AM part without the need for removing the part and loading it on to another tool. As developers continue to explore the best ways to implement AM in prototyping and production, many more innovations in the process of implementation will undoubtedly occur.
To round out the program, a session on Micro-Nano Additive Manufacturing offered insights into new directions for laser based AM. Robin Day of RTWH Aachen University described methods for obtaining finer features and extremely small metal-based devices, while Prof. Minlin Zhong of Tsinghua University introduced his vision of new devices with increased functionality—envisioning a whole suite of sensors for commercial and personal-medicine applications, enabled by graphene-based AM.
Connecting it All Together with Suppliers to Achieve the Best LAM to Date
An important feature of the LAM Workshop is an exhibition of the tooling, components and materials that are featured in the presentations. Attendees had the opportunity to interact with suppliers that provide solutions throughout the workshop, but especially during the Exhibitor Reception at the end of the first day. With companies ranging from powder providers, sensor and beam delivery suppliers, and laser manufacturers, to full solution providers, attendees were able to check out the latest equipment that could help them realize their laser-based AM projects.
Wayne Penn of Platinum Sponsor Alabama Laser stated that the workshop is “a must-exhibit event” for his company, and as a sponsor since the very first LAM, he has demonstrated his commitment as an early and strong supporter of the industry. Gold Sponsors American Cladding Technologies and IPG Photonics both concurred, with IPG’s Bill Shiner declaring that “LAM is a great platform for sharing the latest in laser additive manufacturing, and it will be important to continue to get the word out to end users that LAM is where they will find the latest information to help them make the decision to move to AM.”
The workshop provided an opportunity for those who are still on the fence about how and when to add AM to their manufacturing capabilities, to speak with those who have adopted the technology and developers, including academics, R&D engineers and commercial suppliers. As LIA’s Marketing Director, Jim Naugle, commented: “With that range of access, LAM is by far the best event in the Additive Manufacturing space for those who are considering laser-based AM.”
Prof. Eckhard Beyer, an LIA Board Member and Managing Director of Fraunhofer IWS (Dresden, Germany), and a longtime expert on laser-based material processing, summed up LAM 2017: “This was the best LAM conference, and possibly the best conference I have attended over the past 10 years.”
With such a ringing endorsement, remember to bookmark www.lia.org/LAM to stay up-to-date about next year’s 10th LAM Workshop!
Notable names in Additive Manufacturing, including GE Additive’s Greg Morris and Marc Esformes of Stryker, gathered in Houston, TX for the two-day event
FOR IMMEDIATE RELEASE
ORLANDO, FL – MARCH 14, 2017 – The Laser Institute of America’s 2017 Laser Additive Manufacturing Workshop (LAM®) took place February 21–22 in Houston, Texas. Researchers and industry leaders from all over the world came together to discuss the latest advances and future challenges within the world of laser additive manufacturing. The two-day event featured
presentations, exhibitors and ample networking opportunities for attendees and industry professionals alike.
“LAM offers its attendees the opportunity to create lasting relationships with key individuals in their industry,” said Jim Naugle, Marketing Director with LIA. “This year was no exception.”
Attendees hear about the latest AM Innovations at LAM 2017 in Houston
Presentation Highlights
Conference General Chair Milan Brandt of RMIT University addressed the conference, officially kicking off the event.
“Laser systems are at the heart of metal additive manufacturing technology,” says Brandt. “This year’s conference provided an opportunity for those involved with laser technology to explore the latest progress and challenges in additive technology, including the latest in Nano-additive technology and medical applications.”
The workshop opened with a keynote presentation from GE Additive’s Greg Morris, titled Accelerating the Additive Revolution, which highlighted the additive manufacturing efforts led by General Electric, including the company’s plans to be vertical by 2022. In regards to the future of additive manufacturing as a whole, Morris suggested that while the current supply chain will not be immediately replaced, a definite shift is occurring, with co-existence happening in the foreseeable future. He added that laser additive manufacturing has revolutionized jet engine production, reducing 855 individual parts down to 12.
Representing the medical side of additive manufacturing, Marc Esformes of Stryker presented Additive Manufacturing of Medical Implants. As a part of one of the pioneering companies utilizing additive manufacturing for medical devices and tools, Esformes emphasized the potential for revolution when it comes to using AM for life-saving medicalpurposes.
“We can design anything,” Esformes said, in reference to how implants can be custom designed by doctors, for patients using additive manufacturing. “Custom implants can go from 3D scan to 3D part in just a few weeks.”
Our final keynote, Simulation and Modeling of the Metal Powder Bed Fusion Additive Manufacturing Process, was presented by Wayne King of Lawrence Livermore National Laboratory (LLNL)
and focused on results of extensive efforts to improve qualification of parts produced using laser powder-bed fusion AM by applying physics-based models. King, a widely-recognized expert andDirector of AM Materials at LLNL described the multi-scale modeling efforts of his team, focusing on powder-scale and parts-scale models.
The powderscale model has become so powerful that it can now predict phenomena that was unanticipated, as well as nearly every spark and splatter, occurring in the powder-bed and melt pool. Even with such powerful simulation tools, there is work to be done to create more complete simulations of every step from design to part.
Exciting Developments Unveiled at LAM
Dr. Wayne King of LLNL speaks at LAM 2017
Sponsor and attendee Optomec featured the new LENS Machine Series for metal additive manufacturing applications at the event. The LENS series comes in three models and combines Optomec LENS Print Engine technology with standard CNC Vertical Milling platforms, making metal AM technology more accessible and affordable.
While using #LAM2017 on Twitter, attendees, vendors and presenters alike shared their thoughts and photos from the event. LAM 2017 provided two days packed full of knowledge and innovation in laser additive manufacturing, kicking off a new year of progress for both lasers and additive manufacturing technology.
For more information regarding LIA conferences and workshops, like LAM, please visit www.lia.org/conferences. For the latest updates regarding conferences, industry developments, and all things lasers, visit and subscribe to www.laserstoday.com.
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.
Explore Additive Manufacturing with GE’s Greg Morris at LAM 2017.
Our Laser Additive Manufacturing Workshop (LAM®) is only two weeks away. If you aren’t caught up, this annual event highlights the latest advancements in additive manufacturing technology and applications, bringing together industry leaders and top researchers to discuss the present and future of additive manufacturing in a variety of critical American industries like medicine, energy and aerospace.
LAM 2017 is in Houston, TX. February is an ideal time to visit Houston, with mild temperatures and ample sunshine.
This year’s event will kick off with the keynote presentation “Accelerating the Additive Revolution” by Greg Morris of GE Additive, as part of the highly-anticipated Trends in Additive Manufacturing Session. Learn more about GE’s work and the keynote speech at LAM below.
GE Additive Leads the Way
Roboze One
Over the last year, GE has further positioned itself as a leader in industrial design and manufacturing technology. In early 2016, GE opened the Center for Additive Technology Advancement, a 125,000-square foot facility in Pittsburgh, PA dedicated to the future of 3D printing. The company also recently reached an agreement with global additive manufacturing provider Concept Laser to own a 75 percent stake, with plans for full ownership in the future.
A recently acquired Roboze One+400 desktop 3D printer bolsters its global research center, allowing the company to experiment with polyetherimide (PEI) and polyether ether ketone (PEEK). With these
innovations, GE Additive propels the potential of additive manufacturing and is focused on numerous initiatives to accelerate technology in the manufacturing world.
About Greg Morris
Technology Laureate Greg Morris
LAM 2017 Keynote presenter Greg Morris has served as GE Aviation’s Leader of Additive Technologies since 2013. Previously, Morris was the CEO of Morris Technologies, which was purchased by GE in 2012 to help advance their additive manufacturing initiatives, particularly for large scale production. Technology developed by Morris is directly responsible for GE Aviation’s greater push for AM innovation. In 2015, Morris was honored with the Aviation Week Laureate Award for Technology, for his work in the industrialization of additive manufacturing.
What’s Next for Morris & GE
The next big push from GE Aviation is an increase in the production of LEAP fuel injectors. The company plans to double its production from 6,000 in 2016 to 12,000 in 2017. The project is shifting to the company’s Auburn, AL facility where approximately 50 machines will be producing the parts. Data and information harvested from this initiative will later be used to build better machines. GE will also be investing $10 million dollars in additive manufacturing education by providing equipment to schools for STEM education. For more information on GE’s additive manufacturing initiatives, visit www.geadditive.com
Do not miss Greg Morris of GE Additive, presenting “Accelerating the Additive Revolution,” in his words. The keynote presentation will take place February 21, 2017 at 8:15 AM as part of the LAM opening session, Trends in Laser Additive Manufacturing. For more information on this year’s sessions and presentations, please visit: https://www.lia.org/conferences/lam/program.
Laser Additive Manufacturing Workshop (LAM) will take place February 21-22, 2017 in Houston, Texas. For more information, and to register, please visit www.lia.org/lam.
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 for conference, education, and courses information at http://www.lia.org today.
Much of our previous discussion surrounding medical applications for additive manufacturing involves metal-based devices and implants. While metal compounds will continue to bring revolutionary opportunities to medical science, there is a growing interest in the use of polymers and other soft materials in additive manufacturing. Explore Polymer-Based Additive Manufacturing below.
About Polymer-based Additive Manufacturing
Polymer-based additive manufacturing is used for applications ranging from medical and aerospace to protective gear, tooling, and the development of functional prototypes. Sharing some of the same benefits as metal additive manufacturing, polymer-based creations reduce time-to-market, improve the quality of a product, and are developed at a fraction of the traditional cost.
Courtesy: NIST
A “Roadmap” for Future Development
As part of an initiative to increase awareness and commercial usage of polymer-based additive manufacturing, The National Institute of Standards and Technology (NIST) released the Measurement Science Roadmap for Polymer-Based Additive Manufacturing. The guide features the desired capabilities, foreseeable challenges, and priority research and development topics in using polymer for additive manufacturing.
The guide is a result of presentations, discussions, and group sessions that took place last June at the Roadmap Workshop on Measurement Science for Polymer-Based Additive Manufacturing at the NIST campus, in Maryland. The workshop brought together over 100 additive manufacturing experts, from both public and private entities, with the intention of developing a comprehensive plan to further the use of polymer-based additive manufacturing. Topics featured at the workshop included a need for materials categorization, in-situ process measurements, performance, process modeling, and more.
Additive manufacturing is a top research priority at NIST. Interest in polymer and other soft materials in additive manufacturing is growing, due to a range of properties and processability. NIST hopes the report will be able to guide and assist public and private entities in furthering the research and development of polymer based additive manufacturing.
What Workshops Like LAM 2017 Have to Offer
Like the Roadmap Workshop, LAM offers attendees the opportunity to meet with leaders, researchers, and innovators in additive manufacturing to discuss the present functions and future opportunities presented by additive manufacturing technology. Guests from Lawrence Livermore National Laboratory, Fraunhofer IWS Dresden, and South China University of Technology will be present at LAM, addressing the challenges faced by innovative additive manufacturing applications. While metal-based additive manufacturing is still largely a focus, those interested or involved with polymer and other soft materials may still benefit from the workshops, sessions, and vendors found at LAM. For a full list of sessions at this year’s event, click here. LAM takes place February 21-22, 2017 in Houston, Texas. For more information regarding the conference, location, or to register, please visit: https://www.lia.org/conferences/lam
