This new McKinney bakery sells Nutella babkas and gelato but you better get in line early
Cremcrittos offers everything from almond cream cronuts to housemade gelato, and on weekends sometimes sells out of its goods before 9:30 a.m.
Cremcrittos usually sells out of its pastries by 9:30 on weekend mornings.(Courtesy Cremcrittos)
For brothers Young and Mark Yim, opening their bakery in McKinney was a no-brainer.
“We live in McKinney and love McKinney,” Mark Yim said. “We have been seeing how fast North Dallas has expanded, so it was an easy decision to open [here].”
Their new bakery and gelateria, Cremcrittos, opened at the end of November, and word has gotten out about their delicate, sometimes elusive-to-the-area pastries, like the Nutella babka and white chocolate cookie bread.
GRASP Lab’s coolest robot yet
Mark Yim, Asa Whitney Professor of Mechanical Engineering in the School of Engineering and Applied Science, has seen any number of innovative robots walk, fly, hop, roll and otherwise propel themselves about the GRASP Lab, where he serves as Ruzena Bajcsy Director. But the lab’s latest creation is, quite literally, its coolest yet: it’s made out of ice. IceBot’s structural components are made out of ice, which could be cut and shaped to specification in remote environments. (Image: Penn Engineering Today)
ModLab, Yim’s own group within the GRASP Lab, focuses on modular robotic systems. These robots can reconfigure themselves on the fly to adapt to new environments or tasks. Some are composed of identical units that can link up in different ways, such as the flying ModQuads or rolling SMORES-EP, but what happens when those units are themselves not suited to a given job?
In a new study delivered to the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), scientists Devin Carroll and Mark Yim from the University of Pennsylvania s GRASP Lab have put forth a proposal to send robots partially made of frozen H2O to icy exoplanets, where they can make use of local resources to self-fix in the event of a breakdown.
Credit: The GRASP Lab at the University of Pennsylvania
Their intriguing paper examines various methods of manufacturing robotic structural components from ice by employing additive and subtractive manufacturing processes, with the endgame of developing a proof-of-concept for robots that can display “self-reconfiguration, self-replication, and self-repair.”
Self-repairing ice robots may be perfect for exploring other planets
Shane McGlaun - Jan 7, 2021, 5:56am CST
A major challenge when it comes to using robots to explore other planets is keeping them operating when there’s no way to repair them from Earth. Researchers at the GRASP Lab at the University of Pennsylvania have conducted what they call very preliminary work on robots made from ice that can repair themselves. The team, including Devin Carroll and Mark Yim, note they have only begun exploring the possibility of making robots from ice.
Building robots from ice is a serious challenge, but scientists believe ice exists on most planets, making it an abundant building material. Some things can’t be created from ice, such as batteries and electronic components. One big benefit of using ice for structural components of robots is that it’s easily modified using heat, and it can be cut and sculpted.
Spiders, Caterpillars, Dragonflies Inspire Construction Material Research
The National Science Foundation awarded grants to three universities to develop new technologies and materials to be used in biomanufacturing, cyber manufacturing and eco-manufacturing.
December 10, 2020
University of Pennsylvania, Rowan University
Researchers at the University of Pennsylvania have used geometry-based structural optimization techniques to create human-scale structures out of concrete. The researchers will mimic evolution’s approach toward minimizing the use of material while maximizing its performance as part of their NSF “Future Manufacturing” project.
University of Pennsylvania
Teams of researchers at a handful of universities will work together to research and develop new building materials using protein-based polymers, which are strong but light materials that make up spider webs, dragonfly wings and caterpillar silk thread.