HP Inc. made its announcement Tuesday morning at RAPID, the 3D printing trade show underway this week in Orlando. Here’s a glimpse of HP’s booth at RAPID.
Proto Labs has been selected by HP Inc. as a product testing site for the printing and PC giant’s new HP Multi Jet Fusion technology for industrial-grade 3D printing.
HP announced its new technology today at RAPID, a 3D printing and additive manufacturing trade show underway in Orlando, Florida through May 19. Proto Labs is at RAPID. You can find us at booth #443 to talk with a customer service engineer about our industrial-grade 3D printing services.
We’re excited to test drive this new technology that looks to be a dramatic leap ahead in 3D printing. We are looking forward to collaborating with HP on this new platform that promises to be faster and more economical than currently available 3D printing options.
Proto Labs’ staffers take a short photo break during RAPID underway all week in Orlando. From left, Joe Cretella, Greg Thompson, Rob Connelly and Thomas Davis. Visit Proto Labs at booth #443.
Proto Labs is one of several companies HP is working with as part of the company’s Early Customer Engagement Program, which conducts product testing and garners user feedback.
We were chosen because of our extensive experience as a prime user of industrial-grade 3D printing technology (also known as additive manufacturing) for our prototyping and low-volume manufacturing services.
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We have a saying here at Proto Labs, “Materials Matter.”
To learn more about selecting the right material for 3D printing, download our free white paper.
Indeed, material properties are an especially key piece to consider in the case of industrial 3D printing, or additive manufacturing, which is different from traditional manufacturing methods.
To help you sort through the properties — from tensile strength to yield strength, elongation at break to hardness — we’ve published a comprehensive new white paper, “Selecting the Right Material for 3D Printing.” The paper explores recent improvements and advancements in materials used in 3D printing, and then goes in depth to cover materials that work best for three frequently used technologies: direct metal laser sintering, selective laser sintering and stereolithography.
This new white paper is part of a range of resources in our online library of 3D printing content that includes design tips, case studies, videos and other white papers. We also have a staff of experienced customer service engineers who can discuss design questions that may arise. Find us at protolabs.com or call us at 877-479-3680.
DOWNLOAD WHITE PAPER
The growth of our country’s aging population is perhaps the most powerful force shaping today’s economy and the outlook for medical device companies in particular. For instance, the bulk of baby boomers now are 70 or older, while the U.S. Census Bureau projects the 65-and-over U.S. population to double to nearly 84 million by 2050.
The ways that rapid manufacturing companies such as Proto Labs can help med tech companies serve this aging population is the focus of a column by Rob Bodor, Proto Labs’ VP and GM of the Americas, in Med Device Online. Bodor’s column is the first in a four-part series, “Building Better Prototypes,” for the med tech website.
Bodor’s current column covers factors that drive rapid manufacturing’s viability in the med tech space, and explores the various processes and materials that med-device companies should consider.
You can read the entire column here.
The commercial-grade Indago Quadcopter unmanned aerial vehicle (UAV) or drone, from Bethesda, Maryland-based Lockheed Martin, is soaring in popularity with law enforcement agencies, defense customers, firefighters, real estate firms, farmers and construction companies.
The high demand stems mostly from the drone’s versatility, range and small, 5-pound, fold-up size, says Miguel Perez, an engineer for Lockheed’s Procerus subsidiary, which developed the drone with prototyping and low-volume production help from Proto Labs.
Lockheed Martin’s Indago drone is a small, 5-pound, fold-up quadcopter capable of work at various ranges — up to 1.5 miles (2.5 kilometers) using integrated antenna solutions — from its ground controller.
For the Metropolitan Museum of Art’s exhibition, “Ancient Egypt Transformed: The Middle Kingdom,” on view at the New York museum through Jan. 24, 2016, exhibit planners decided to reconstruct the pyramid complex of King Senwosret III in both a virtual and physical model.
The scale model of the pyramid site is displayed in the Metropolitan Museum of Art’s galleries.
The physical 1:150-scaled model of the site is based on a 3D virtual model that was produced first, and modeled after 3D-printed prototype parts that were created by Proto Labs. For perspective, the main pyramid of the original complex was more than 206-ft.high. In the scaled model, it is 1.5 feet. The creation of the model, which is intended to bring this important Middle Kingdom era to life for visitors to the exhibition, involved a process that was an intriguing blend of traditional and digital methods. This process included traditional sculpting, model-making, mold-making, casting, carpentry and faux painting, plus digital methods of fabrication, specifically 3D printing. The additive manufacturing process by Proto Labs served as the Met’s prototyping phase that helped replicate the unique parts of the model. Continue reading