LRC Establishes Industry Consortium to Explore Additive Manufacturing for Lighting

April 29, 2019

Building on the progress made during a recent workshop, the Lighting Research Center (LRC) at Rensselaer Polytechnic Institute has formally established the Additive Manufacturing for Lighting Consortium. The consortium will help bridge the knowledge gap between the lighting and 3D printing industries and build collaboration for successful adoption of additive manufacturing for high-quality, value-added lighting. 

The consortium, composed of lighting and 3D printer and material manufacturers, convened its first meeting on April 2 and is now setting a course to understand and assimilate additive manufacturing as a viable option for the lighting, building, construction, and allied lighting industries. The objectives for the consortium’s first year include market assessment, education, and collaboration on pilot research projects. These activities will help the group to better understand the needs of the two industries, the possibilities, and the present status of the additive manufacturing industry’s capabilities relevant to lighting.

Nadarajah Narendran, the LRC’s Director of Research, said the group’s long-term goal is to build a centre of excellence that will offer best practices and solutions for additive manufacturing of lighting systems. “In the future, we hope that the consortium will provide market intelligence, technology guidance, and standards representation, among other competency-building activities, which will enable companies to address this transformation proactively,” he says.

The potential benefits of 3D printing for lighting include the ability for manufacturers to create and rapidly print custom products on demand that are uniquely designed for the spaces to be illuminated, improving aesthetics, functionality, and manufacturing costs. Research is still needed to advance the integration of 3D printing into the lighting industry, and the Lighting Research Center has conducted initial investigations into the potential for printing different types of lighting components.

Dr. Narendran added, “Together with the consortium members, the LRC is leading the transformation of the lighting industry to the digital era by preparing the two industries for the changes ahead.”

One value of 3D printing for SSL is the ability to design custom lighting fixtures that match the architectural features of a building and then “print” or manufacture them on-site for quick installation. 3D printing also can be beneficially utilized at the fixture component level. With 3D printing of fixtures, heat sinks can be designed to be part of the fixture envelope rather than attached afterwards, which would reduce the fixture’s bulk size and cost and improve its attractiveness.

For more information about the Additive Manufacturing for Lighting Consortium and the LRC’s 3D printing research, contact Dr. Nadarajah Narendran, narenn2@rpi.edu or +1 (518) 687-7100.

Related Articles


Changing Scene


Design

  • Project Story: Sainte-Thérèse High School Outdoor Lighting Upgrade

    Project Story: Sainte-Thérèse High School Outdoor Lighting Upgrade

    August 6, 2024 Built in 1980, the building that houses Sainte-Thérèse high school, in Quebec Canada, was looking a little worse for the wear. Renovation work began with two major projects: introducing a multidisciplinary sports centre, as well as redesigning the parking lots.  The employee and visitor parking lots were completely reconfigured during phase 1… Read More…

  • Resilience Illuminated: Reviving Westminster Pier Park After Devastating Fire

    Resilience Illuminated: Reviving Westminster Pier Park After Devastating Fire

    In September 2020, the picturesque city of New Westminster near Vancouver in British Columbia suffered a devastating setback when an intentionally set fire destroyed much of the city’s waterfront park, including its urban beach, sand volleyball courts, and iconic art installation known as Wow Westminster. The fire, which burned for ten days before firefighters could… Read More…


New Products

  • RENO Lighting Unveils AIM Series Architectural Indirect Curved Panel

    RENO Lighting Unveils AIM Series Architectural Indirect Curved Panel

    November 22, 2024 RENO Lighting is proud to announce the launch of the AIM Series Architectural Indirect Curved Panel. This innovative luminaire combines sleek design with advanced technology to deliver superior lighting performance for modern architectural spaces. The AIM Series pays homage to traditional edge-lit flat panels, featuring a slim profile ideal for low plenum… Read More…

  • RENO Lighting Launches the First New Long Detection Range (50ft) PIR Sensor

    RENO Lighting Launches the First New Long Detection Range (50ft) PIR Sensor

    November 22, 2024 RENO Lighting is proud to announce the launch of its new PIR (Passive Infrared) Sensor (R74004), designed to enhance lighting control on LED fixtures such as high bays and vapor tight fixtures with an impressive 50-foot detection range that is designed for installation heights of up to 50ft. This fixture-mounted sensor is the… Read More…