3D Printing for Lighting News
Contact: N. Narendran
narenn2@rpi.edu or (518) 276-7176
Keynote presentations and discussion forum to highlight inaugural 3D printing for lighting conference
June 19, 2023
Lighting Research Center | Troy, New York
In August, the Lighting Research Center (LRC) at Rensselaer Polytechnic Institute will kick off the first conference to explore the opportunities and challenges of 3D printing for the lighting industry. The conference will set the stage for discussions about the future of 3D printing for lighting components and systems through more than 30 research and state-of-the-technology presentations, as well as discussion and networking events. The 3D Printing for Lighting conference, to be held as part of SPIE Optics + Photonics 2023, the leading multidisciplinary optical sciences and technology meeting, will take place August 22-23, 2023, at the San Diego Convention Center.
Over the course of two days, experts from both lighting and 3D printing/additive manufacturing industries will present technology overviews, experiences, and detailed research regarding 3D printing methods, materials, and testing for lighting systems and optical, electronic, and thermomechanical components. Highlighting the conference will be two keynote presentations and an evening discussion forum that will cover the big picture as it relates to moving the lighting industry forward toward easily customizable lighting and a sustainable, cost-effective manufacturing model.
Opening the conference on August 22 will be Govi Rao, CEO of Phase Change Solutions, a smart materials company working to solve critical energy, environmental, and social challenges. Mr. Rao, who is serving as a conference chair, will present his talk, “Industry 5.0 – Radically Transforming the Lighting Value Chain,” discussing the potential impact of 3D printing on lighting industry stakeholders and exploring scenarios and strategies to survive and succeed amidst tectonic changes in the value chain.
On the evening of August 22, Mr. Rao, who has broad experience in LEDs and the lighting industry’s transformation, will moderate a special forum to discuss the evolution and forward momentum of 3D printing as one of the key drivers in transforming the lighting supply chain. Participants will discuss how the future of the lighting industry may be shaped by 3D printing and how to define a roadmap for this transformation.
Closing the conference on August 23 will be Dr. Samuel T. Mills of Eaton Research, the research arm of Eaton Corporation. Dr. Mills, who is serving as a conference co-chair, will present his talk, “Additive Manufacturing of Efficient, Custom, and Cost-Effective Luminaires.” His presentation will discuss luminaire design and manufacturing challenges when using traditional design, tooling, and fabrication methods, the advancement of digital tools that support the use of additive manufacturing, and the benefits of additive manufacturing in developing and deploying a custom solution to illumination.
Professor Nadarajah Narendran, Ph.D., director of research at Rensselaer’s LRC and a SPIE Fellow, initiated this conference to help bring awareness about the potential benefits of 3D printing of lighting and its ability to transform the lighting industry. “By hosting this event with SPIE, we hope to engage a large audience of lighting and 3D printing industry professionals who have a shared interest in 3D printing of lighting components and systems, and who can work together to advance research in this field,” he said.
All those interested in 3D printing and the future of lighting are encouraged to attend. The 3D Printing for Lighting conference program is available online (see list of presentations below), and registration for the conference is now open.
SPIE Optics + Photonics 2023
3D Printing for Lighting – August 22 & 23
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Session 1 – Overview and Opportunities for 3D Printing for Lighting
Tuesday, August 22, 8:15 to 9:55am |
| Industry 5.0: radically transforming the lighting value chain (Keynote Presentation) |
| Recent advancements in 3D printing of lighting components and systems |
| How 3D printing technology is modeling our future |
| Standardization to enable lighting dematerialization |
Session 2 – 3D-Printed Lighting Systems I
Tuesday, August 22, 10:25 to 12:15pm |
| Sparkle: laterally symmetric 3D-printed luminaire eco-system (Invited Paper) |
| Almost limitless - a product designer’s perspective on utilizing additive manufactured parts for decorative lighting fixtures |
| Leveraging wood waste streams for additively manufactured shades |
| Ambience and functionality = lighting: why and how to add additive manufacturing to your business from a real-life adaptor |
| Future of lighting: generative design and advanced configurability enabled by additive manufacturing |
Session 3 – 3D-Printed Optics and Characterization
Tuesday, August 22, 1:30 to 3:10pm |
| 3D-printed refractive secondary optics for LED lighting |
| Photobleaching of transparent photopolymer resins for use in LED lighting optical elements |
| High-speed and high-resolution 3D printing of polycrystalline neodymium-doped yttrium aluminum garnet ceramics |
| Kinematic multi-axis two-photon polymerization printer concept for the manufacturing of micro optics |
| Additive manufacture of structured freeform optics for solid state lighting |
Evening Session
Tuesday, August 22, 6:00 to 8:00pm |
| Charting a Roadmap for Lighting Transformation: Impact of 3D Printing on Lighting and Architecture |
Session 4 – Lighting Layout, Optics Design, Print Optimization, and Characterization
Wednesday, August 23, 8:30 to 10:10am |
| Could mass customization be a possibility for my business? How and where are people succeeding with design en masse? (Invited Paper) |
| Designing freeform luminaire optics for additive manufacturing: lessons learned (Invited Paper) |
| Long-term performance of 3D-printed optics when exposed to thermal and optical radiation |
| Toward a fully-automated luminaire design and manufacturing solution utilizing freeform optics and additive manufacturing |
Session 5 – 3D-Printed Thermomechanical Components
Wednesday, August 23, 10:40 to 11:40am |
| Phase change materials for thermal management of lighting systems |
| Insulation properties of material for 3D-printed interior building panels |
| 3D-printed heat sinks for thermal management of LED lighting |
Session 6 – 3D-Printed Electronics
Wednesday, August 23, 1:00 to 2:40pm |
| Advanced luminaire using 3D-printed electronics |
| Carbon-nanotube ink and laser engraved lignin on fabrics for wearable electronics |
| Manufacturing wearable electronics by direct copper electrodeposition |
| Impact of ink deposition and trace path variations on 3D-printed antenna performance |
| Current status on additively manufactured luminaires |
Session 7 – 3D-Printed Lighting Systems II
Wednesday, August 23, 3:10 to 4:30pm |
| The benefits and challenges of additive manufacturing as it applies to custom lighting manufacturing today |
| 3D printing: opportunities and challenges for custom, spec-grade architectural lighting |
| Additive manufacturing of efficient, custom, and cost-effective luminaires (Keynote Presentation) |
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