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ASTM International’s additive manufacturing technologies committee ( F42 ) is developing a suite of proposed standards that will be used for quality assurance and quality control of materials and components used for additive construction with cementitious materials. The suite includes the following: Practice for Additive Manufacturing -- Fresh and Very Early Age Properties of Concretes Used for…, Media Inquiries:, Gavin O’Reilly, tel +1.610.832.9618; goreilly@astm.org, Committee Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #11820 ###
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ASTM International’s additive manufacturing technologies committee ( F42 ) is developing a proposed standard that will be used to assign part grades across automotive industries that use AM to produce parts. “The proposed standard is the first step in providing an AM parts grading system for the automotive industry,” says ASTM member Chuck Nostedt. “This document is one step toward adding part…, Media Inquiries:, Gavin O’Reilly, tel +1.610.832.9618; goreilly@astm.org, Committee Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #11749 ###
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Today,, ASTM International announced the expansion of its Powder Bed Fusion – Laser Beam (PBF-LB) Machine Operator Certification program. The expansion includes two additional machine original equipment manufacturers (OEMs), 3D Systems Corporation and Nikon SLM Solutions, and added more metal AM systems from EOS. The program was developed by the ASTM International Additive Manufacturing Center of…, AM CoE Contact, : Ethan Myers, tel +1.610.832.9835; emyers@astm.org Release #11747 ###
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ASTM International’s robotics, automation, and autonomous systems committee ( F45 ) is seeking participation in the development of proposed standards for testing and recording assembly capabilities of robot systems. According to ASTM member Kenny Kimble, a mechanical engineer with the National Institute of Standards and Technology, the proposed standards ( WK87213 and WK87214 ) will provide a…, Media Inquiries:, Gavin O’Reilly, tel +1.610.832.9618; goreilly@astm.org, Committee Contact:, Nora Nimmerichter, tel +1.610.832.9815; nnimmerichter@astm.org Release #11721 ###
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ASTM International’s robotics, automation, and autonomous systems committee ( F45 ) has proposed a test method ( WK86916 ) for disturbance rejection testing of legged robots. “Our goal is to develop detailed testing methods and measurements that can accurately evaluate the locomotion stability of a legged robot (i.e., walking without falling-over),” according to ASTM member Bowen Weng. “The…, Media Inquiries:, Gavin O’Reilly, tel +1.610.832.9618; goreilly@astm.org, Committee Contact:, Nora Nimmerichter HER , tel +1.610.832.9815; nnimmerichter@astm.org Release #11698 ###
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ASTM International Releases Technology Readiness Report on Additive Manufacturing In-Situ MonitoringASTM International, a global standards organization, has announced its Strategic Guide: Additive Manufacturing In-Situ Technology Readiness report. This comprehensive report is the culmination of the second Specialty Workshop series organized by the ASTM Additive Manufacturing Center of Excellence (AM CoE) and sponsored by the U.S. National Aeronautics and Space Administration (NASA) in…, Media Inquiries:, Gavin O’Reilly, tel +1.610.832.9618; goreilly@astm.org, AM CoE Contact:, Amy Teal, tel +1.240.436.4855; ateal@astm.org Release #11677 ###
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ASTM International’s additive manufacturing technologies committee ( F42 ) has developed a new standard specification for maraging steel in powder bed fusion. Maraging steel is a class of precipitation-hardened steel strengthened through aging heat treatment, with properties useful for automotive, sporting goods, aerospace, and other industries. The standard (currently WK82609 ) will soon be…, Media Inquiries:, Gavin O’Reilly, tel +1.610.832.9618; goreilly@astm.org, Committee Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #11667 ###
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ASTM International’s robotics, automation, and autonomous systems committee ( F45 ) is developing a proposed standard that will focus on the use of hardware and peripherals in robotic training systems. According to ASTM member Anton Koretskov, the proposed standard (WK84838) will help to ensure that hardware and peripherals from different manufacturers can work seamlessly, allowing for greater…, Media Inquiries:, Dan Bergels, tel +1.610.832.9602; dbergels@astm.org, Committee Contact:, Nora Nimmerichter, tel +1.610.832.9815; nnimmerichter@astm.org Release #11634, ###
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ASTM International’s robotics, automation, and autonomous systems committee ( F45 ) is developing a proposed standard on grasp strength of robot end-effectors. The proposed standard ( WK83863 ) is a test method for evaluating grasp strength of these end-effectors, which will reveal capabilities of robotic hands, including limits of payload size and resistance to pull/push forces during operation…, Media Inquiries:, Dan Bergels, tel +1.610.832.9602; dbergels@astm.org, Committee Contact:, Nora Nimmerichter, tel +1.610.832.9815; nnimmerichter@astm.org Release #11617 ###
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ASTM International’s additive manufacturing committee ( F42 ) has developed two new standards that cover powder quality and aviation parts, respectively. The first standard developed by the committee ( F3571 ) is a guide for metal powder feedstock, intended to help manufacturers with quality control and assessing whether powder batches are within specification limits. ASTM member Terry Stauffer…, Media Inquiries:, Dan Bergels, tel +1.610.832.9602; dbergels@astm.org, Committee Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #11613 ###