Friday, February 27, 2015
Posted by Sara Ebright at 7:25 PM
Monday, February 16, 2015
In honor of Presidents Day, here is a sampling of presidential sites we've 3D scanned at Direct Dimensions.
Last Friday Direct Dimensions was on-site at George Washington's Mount Vernon to fully digital document this historical home. The 3D scans will help preservationists determine the age of building components, from nails to floor planks, allowing them to decipher what parts of the home date back to Washington himself, and what parts are more "modern" repairs or additions. You can read more about the 3D documentation of Mount Vernon here.
Over 200 feet in the air, a monumental sculpture of George Washington sits atop the first Washington Monument in Baltimore's Mount Vernon neighborhood. As part of an extensive renovation project the sculpture was digitized for documentation and restoration purposes. Two different scanning technologies were employed, the Faro Focus and a handheld Artec EVA scanner.
Perhaps the most well known presidential monument is the Lincoln Memorial in Washington DC. This image is from an actual 3D laser scan of the Memorial and was performed in Dec. 2001 as a demonstration of lidar technology. You can visit our Sketchfab page and download the model for 3D printing for free!
Happy Presidents Day!
Posted by Sara Ebright at 9:34 PM
Wednesday, February 11, 2015
While there are many medical applications for 3D scanning, some of the more significant projects we’ve seen use the technology to promote healing, dignity, and even a sense of community. The creation of prosthetic limbs is an incredible example of how 3D scanning and 3D printing are enriching lives. On one end of the spectrum we see new limbs that can be incredibly detailed and realistic, at the other end is an amazing crowd sourcing movement that helps create simple, futuristic, robotic prostheses for those who can't afford them otherwise.
An example of the first type of prosthetic was a patient who came to our facility that had lost a hand in a tragic accident. The goal was to create a new life-like hand including the fine details of skin texture. His doctor was interested in how 3D laser scanning might augment his typical methods. The doctor came to Direct Dimensions’ lab with a plaster casting he had taken of his patient’s intact hand. We scanned this casting two different ways to ensure the highest quality of data possible: first with a laser line scanner mounted on a Faro Arm and second with a laser line scanner mounted on a motorized precision coordinate measuring machine, or CMM.The resulting data from the scans was incredibly detailed, containing millions of 3D polygons. During the modeling process, utilizing PolyWorks software, the model was also flipped to create a mirror of the plaster casting and a faithful re-creation of the clients lost hand.
The high resolution 3D digital model was used to create a 3D print at an incredibly high resolution. The prototype prosthetic hand which we delivered was so lifelike that you could even see pores and hair follicles. Using the prototype hand a finalized prosthetic in silicone was created with no loss of detail - truly an exceptional achievement,
Another example of innovative prosthetic creation is the amazing hand project powered by a community of makers with desktop 3D printers. A group called e-NABLE facilitates the effort by crowdsourcing the design and fabrication of 3D printed ‘robot’ hands. These plastic hands give function to those in need, particularly children, missing hands for various reasons, and usually unsuited for expensive prosthetics. We are proud to have contributed over a dozen 3D printed hands to the project as well as authoring an illustrated instruction manual for assembly for the international e-NABLE community.
Posted by Sara Ebright at 4:24 PM