首页|New Robotics and Automation Findings from Singapore University of Technology and Design Outlined (A Robust High-strength Multisurface Rapid Uv-curable Payload Installation System for Generic Multirotors Via Impact Delivery)
New Robotics and Automation Findings from Singapore University of Technology and Design Outlined (A Robust High-strength Multisurface Rapid Uv-curable Payload Installation System for Generic Multirotors Via Impact Delivery)
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Current study results on Robotics -Ro botics and Automation have been published. According to news reporting out of Si ngapore, Singapore, by NewsRx editors, research stated, "This letter details the design and development of a novel 3D-printed, lightweight and rapid-curing auto mated payload installation system for aerial robots, using a 3D printed resin-fi lled adhesive carrier tile (ACT). Its structure is designed to fracture and disp erse ultraviolet (UV) curable resin on impact, delivered with a lightweight spri ng-driven impactor that rams the tile against a target surface." Financial support for this research came from Ministry of Education, Singapore. Our news journalists obtained a quote from the research from the Singapore Unive rsity of Technology and Design, "The dispersed resin is then cured with UV light . Shear-testing experiments with 40 x 40 mm ACTs across common building material s, surface conditions and roughness demonstrate loading exceeding 900 N only aft er 10 seconds of curing, showcasing the strength, robustness and speed of the pr oposed system. Automated payload installation experiments show potential for app lications requiring strong and permanent bonds to wall structures, such as senso r payloads or tether points within urban environments."
SingaporeSingaporeAsiaRobotics and AutomationRoboticsSingapore University of Technology and Design
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