Rob MacCurdy /mechanical/ en How to print a robot from scratch: Combining liquids, solids could lead to faster, more flexible 3D creations /mechanical/2022/04/18/how-print-robot-scratch-combining-liquids-solids-could-lead-faster-more-flexible-3d How to print a robot from scratch: Combining liquids, solids could lead to faster, more flexible 3D creations Anonymous (not verified) Mon, 04/18/2022 - 14:53 Research 2022 Homepage News Rob MacCurdy Spring Professor Robert MacCurdy has developed a new way to 3D-print liquid and solid materials together, potentially leading to more dynamic and useful products—from robots to wearable electronic devices. window.location.href = `/today/2022/04/18/how-print-robot-scratch-new-3d-printing-approach-melds-solids-liquids`;

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Traditional 0 On White ]]> Mon, 18 Apr 2022 20:53:57 +0000 Anonymous 3777 at /mechanical A new design workflow for an integral piece of soft robotic systems /mechanical/2021/09/08/new-design-workflow-integral-piece-soft-robotic-systems A new design workflow for an integral piece of soft robotic systems Anonymous (not verified) Wed, 09/08/2021 - 13:09 Graduate Â鶹ŇůÔş Robotics and Systems Design 2021 Fall Rob MacCurdy Pneumatic Soft Actuators Project Video[video:https://www.youtube.com/watch?v=re_9QF8w0bk&t=2s]

A Department of Mechanical Engineering that presents an innovative workflow for designing and fabricating pneumatic soft actuators has won the at the 2021 CASE Conference in Lyon, France.

The award recognizes the significance of new applications on technical merit, originality, impact on the field and clarity of presentation. The accolade comes with a $1,000 prize to be shared by all authors.

PhD students Lawrence Smith and Travis Hainsworth, graduate student Zachary Jordan and Professor Robert MacCurdy co-authored the paper—titled “A Seamless Workflow for Design and Fabrication of Multimaterial Pneumatic Soft Actuators.” High School Research Assistant Xavier Bell is a co-author as well.

Pneumatic soft actuators are a fundamental part of soft robotic systems. We asked Smith about their project and the team's future plans.

Lawrence Smith, Dpt. of Mechanical Engineering PhD student Question: How would you describe the results of this work?Answer: In this paper, we introduce design tools that our lab developed to help soft robotics students enter the field. We noticed that designing, simulating and fabricating soft robots is a time-intensive and manual process, which typically requires multi-domain expertise. Our paper introduces a seamless workflow for designing soft robots that uses an intuitive graphical user interface for design and visualization, and automates the trickiest parts of the process – interfacing with finite element software and preparing designs for 3D printing. Question: Was there a particular aspect of this work that was hard to complete?Answer: The trickiest part of this work was building an approachable and intuitive interface for our design tools. We wanted to create software that is enjoyable to play and explore with to encourage students to discover new designs, without being bogged down in unnecessary complexity. Question: What's next with this project?Answer: We plan to build on this research by migrating these design tools from their current embodiment â€“ a App – to a public website. That way anyone can access our design tools on the web without downloading and installing any software. Question: What are you and your co-authors’ plans for the $1,000 prize?Answer: 3D printer filament, probably! 
Smith, Hainsworth, Jordan and MacCurdy developed the novel workflow in at CU Boulder’s Department of Mechanical Engineering.  Three mechanical engineering students and Professor Robert MacCurdy developed the novel workflow and published it in a paper that won the IEEE-CASE Best Application Paper Award at the 2021 CASE Conference in France.

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Traditional 0 On White ]]> Wed, 08 Sep 2021 19:09:23 +0000 Anonymous 3367 at /mechanical New healthcare-related grants enable research into pandemics, rheumatoid arthritis /mechanical/2020/12/03/new-healthcare-related-grants-enable-research-pandemics-rheumatoid-arthritis New healthcare-related grants enable research into pandemics, rheumatoid arthritis Anonymous (not verified) Thu, 12/03/2020 - 17:35 All News Research Corey Neu Debanjan Mukherjee Homepage News Rob MacCurdy The AB Nexus Research Collaboration Grant program announced its inaugural round of grants totaling $625,000 for novel research projects integrating expertise from the CU Anschutz and CU Boulder campuses. Three of these projects were born out of the Paul M. Rady Department of Mechanical Engineering. window.location.href = `/engineering/2020/12/03/new-healthcare-related-grants-enable-research-pandemics-rheumatoid-arthritis`;

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Traditional 0 On White ]]> Fri, 04 Dec 2020 00:35:41 +0000 Anonymous 2975 at /mechanical Infectious disease containment, anxiety disorder interventions among collaborative projects funded by AB Nexus grants /mechanical/2020/11/20/infectious-disease-containment-anxiety-disorder-interventions-among-collaborative Infectious disease containment, anxiety disorder interventions among collaborative projects funded by AB Nexus grants Anonymous (not verified) Fri, 11/20/2020 - 00:00 All News Research Corey Neu Debanjan Mukherjee Homepage News Rob MacCurdy The AB Nexus Research Collaboration Grant program announced its inaugural round of grants totaling $625,000 for novel research projects integrating expertise from the CU Anschutz and CU Boulder campuses. window.location.href = `/researchinnovation/2020/11/20/infectious-disease-containment-anxiety-disorder-interventions-among-collaborative`;

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Traditional 0 On White ]]> Fri, 20 Nov 2020 07:00:00 +0000 Anonymous 2969 at /mechanical