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ASTM International and the Open Geospatial Consortium (OGC) will collaborate on developing and disseminating standards, best practices, and other tools that support the growing geospatial industry. The organizations plan to work together in areas such as data acquisition and dissemination, location-based services, and unmanned (autonomous) navigation. Daniel Smith, vice president, technical…, Media Inquiries:, Nathan Osburn, director, corporate communications, ASTM International, tel +1.610.832.9603, nosburn@astm.org or Denise McKenzie, executive director, communications & outreach, OGC, tel +1.314.546.4569, dmckenzie@opengeospatial.org, ASTM Staff Contact:, Pat Picariello, director, developmental operations, tel +1.610.832.9720; ppicariello@astm.org, OGC Staff Contact:, Scott Simmons, executive director, standards program, tel +1.970.682.1922; ssimmons@opengeospatial.org Release #10034
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A proposed ASTM guide will make it easier for businesses to create parts using additive manufacturing, also known as 3D printing. Specifically, the guide will provide overarching principles of design rules in this fast-growing field. “It is very hard to come up with a single ‘right way’ to create a part using additive manufacturing,” says ASTM member Paul Witherell, a mechanical engineer at the U…, ASTM Committee F42 on Additive Manufacturing Technologies Next Meeting:, Jan. 25-28, 2016, ASTM headquarters, West Conshohocken, Pa. , Media Inquiries:, Nathan Osburn, tel +1.610.832.9603; nosburn@astm.org, Technical Contact:, Paul Witherell, National Institute of Standards and Technology, Gaithersburg, Md., tel +1.301.975.5330; paul.witherell@nist.gov , ASTM Staff Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #9946
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ASTM International Committee F42 on Additive Manufacturing Technologies is working on a standard that will be used to evaluate mechanical properties for additively manufactured materials. The standard (WK49229, Guide for Anisotropy Effects in Mechanical Properties of AM Parts) will serve as a guideline for using currently available standards for measuring mechanical properties, such as fracture…, Media Inquiries:, Nathan Osburn, tel +1.610.832.9603; nosburn@astm.org, Technical Contact:, Mohsen Seifi, Case Western Reserve University, Cleveland, Ohio, tel +1.216.368.3711; mohsen.seifi@case.edu, ASTM Staff Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #9828 ###
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A proposed new ASTM International standard will describe how to plan and conduct an interlaboratory study involving additive manufacturing processes or materials. The standard (WK49230, Guide for Conducting Round Robin Studies for Additive Manufacturing) will focus on how to manage a “round robin,” providing guidance for planning to ensure that process, logistics and tools are identified and…, Media Inquiries:, Nathan Osburn, tel +1.610.832.9603; nosburn@astm.org, Technical Contact:, Shawn P. Moylan, Ph.D., National Institute of Standards and Technology, Gaithersburg, Md., tel +1.301.975.4352; shawn.moylan@nist.gov, ASTM Staff Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #9821 ###
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An ASTM subcommittee is developing a new guide (WK48549, Specification for AMF Support for Solid Modeling: Voxel Information, Constructive Solid Geometry Representations and Solid Texturing) that will lead to better interoperability with the industry design format, and ultimately to retain higher quality information for three-dimensional prints. This will build on the subcommittee’s previous work…, Media Inquiries, : Nathan Osburn, tel +1.610.832.9603; nosburn@astm.org, Technical Contact:, Jérémie Farret, Parallel Geometry Inc., Outremont, Quebec, Canada, tel +1.514.961.2375; jeremie.farret@llgeometry.com , ASTM Staff Contact:, Pat Picariello, tel +1.610.832.9720; ppicariello@astm.org Release #9792 ###
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A new ASTM International standard for powder bed fusion of plastic materials will provide a common set of terms and definitions, best practices and practices to facilitate ordering and delivery of parts. ASTM F3091 , Specification for Powder Bed Fusion of Plastic Materials, will be used to specify end use properties for polyamide parts produced using laser sintering. Properties include mechanical…, ASTM Committee F42 Next Meeting:, Jan. 26-27, 2015, ASTM International Headquarters, West Conshohocken, Pa., Technical Contact:, David Bourell, University of Texas at Austin, Austin, Texas, Phone: 512-471-3170; dbourell@mail.utexas.edu, ASTM Staff Contact:, Pat Picariello, Phone: 610-832-9720; ppicariello@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9656
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Products for medical implants and aerospace components are two of the applications of powder bed fusion additive manufacturing. A proposed new ASTM standard, WK46188, Practice for Metal Powder Bed Fusion to Meet Rigid Quality Requirements, describes the operation and production control of powder bed fusion machines and processes to meet rigid quality standards. According to Shane Collins, ASTM…, ASTM Committee F42 Next Meeting:, Jan. 26-27, 2015, ASTM International Headquarters, West Conshohocken, Pa., Technical Contact:, Shane Collins, Incodema3D LLC, Ithaca, N.Y., Phone: 805-427-0019; scollins@incodema3d.com, ASTM Staff Contact:, Pat Picariello, Phone: 610-932-9720; ppicariello@astm.org , ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9630
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High grade biomedical implants, automotive and aerospace parts are among the objects that can be made from metal powders using additive manufacturing processes. The makers and users of metal powders will be among those who will benefit from a new ASTM International standard, ASTM F3049 , Guide for Characterizing Properties of Metal Powders Used for Additive Manufacturing Processes. John A.…, ASTM Committee F42 Next Meeting:, Jan. 26-27, 2015, ASTM International Headquarters, West Conshohocken, Pa., Technical Contact:, John A. Slotwinski, Ph.D., National Institute of Standards and Technology, Gaithersburg, Md., Phone: 301-975-2171; john.slotwinski@nist.gov, ASTM Staff Contact:, Pat Picariello, Phone: 610-832-9720; ppicariello@astm.org , ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9614
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ASTM International Committee F42 on Additive Manufacturing Technologies continues to develop and approve standards for the growing additive manufacturing community. The committee’s most recently approved standards include a practice on test specimen data reporting and two specifications on nickel alloy powder bed fusion., ASTM F2971, Test Specimen Data Reporting, ASTM F2971 , Practice for Reporting Data for Test Specimens Prepared by Additive Manufacturing, will provide the additive manufacturing industry with the means to consistently document the materials and processing history associated with specimens undergoing test or evaluation. F2971, developed by Subcommittee F42.01 on Test Methods, establishes minimum data requirements for reporting material…, ASTM F3055/ASTM F3056, Powder Bed Fusion, Many companies may be interested in exploring the use of additive manufacturing alloys in their work process, but don’t have existing company proprietary specifications to cover the materials and process aspects required to produce additive manufactured components. ASTM International Committee F42 on Additive Manufacturing Technologies has now approved new standards intended for the use of…, ASTM Committee F42 Next Meeting:, July 9-10, 2014, The Nottingham Belfry, Nottingham, England, Technical Contact:, (ASTM F2971) Kenneth R. Sargent, Lockheed Martin, Montverde, Fla., Phone: 407-469-2024; kenneth.sargent@lmco.com ; (ASTM F3055) Karl D’Ambrosio, Exotic Metals Forming Co. LLC, Kent, Wash, Phone: 253-395-3710; karld@exoticmetals.com ; (ASTM F3056) Hank Phelps, Lockheed Martin, Marietta, Ga., Phone: 770-793-0014; henry.phelps@lmco.com , ASTM Staff Contact:, Pat Picariello, Phone: 610-832-9720; ppicariello@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9647
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ASTM International Committee F38 on Unmanned Aircraft Systems has approved seven new standards that cover all major facets of small unmanned aircraft systems operations, including design, construction, operation and maintenance requirements. The seven new ASTM standards, written for all sUAS that are permitted to operate over a defined area and in airspace defined by a nation’s governing aviation…, ASTM F2908, Specification for Aircraft Flight Manual (AFM) for a Small Unmanned Aircraft System (sUAS), − ASTM F2908 defines minimum requirements for the aircraft flight manual, which provides guidance to owners, mechanics, pilots, crew members, airports, regulatory officials and aircraft and component manufacturers who perform or provide oversight of sUAS flight operations. •, ASTM F2909, Practice for Maintenance and Continued Airworthiness of Small Unmanned Aircraft Systems (sUAS), − ASTM F2909 establishes a practice for the maintenance and continued airworthiness of sUAS. Requirements for continued airworthiness, inspections, maintenance and repairs/alterations are included. •, ASTM F2910, Specification for Design and Construction of a Small Unmanned Aircraft System (sUAS), − ASTM F2910 defines the design, construction and test requirements for sUAS. In addition to general requirements, ASTM F2910 covers requirements for structure, propulsion, propellers, fuel and oil systems, cooling, documentation and other key areas. •, ASTM F2911, Practice for Production Acceptance of Small Unmanned Aircraft System (sUAS), − ASTM F2911 defines production acceptance requirements for sUAS. Requirements covered include several aspects of production, system level production acceptance, quality assurance and documentation. •, ASTM F3002, Specification for Design of the Command and Control System for Small Unmanned Aircraft Systems (sUAS), − ASTM F3002 provides a consensus standard in support of an application to a nation’s governing aviation authority to operate an sUAS for commercial or public use. The standard focuses on command and control (C2) links, including a diagram of a C2 system and general requirements for C2 system components. •, ASTM F3003, Specification for Quality Assurance of a Small Unmanned Aircraft System (sUAS), − ASTM F3003 defines quality assurance requirements for design, manufacture and production of small unmanned aircraft systems. Guidance is given to sUAS manufacturers for the development of a quality assurance program. •, ASTM F3005, Specification for Batteries for Use in Small Unmanned Aircraft Systems (sUAS), − ASTM F3005 defines requirements for battery cells used in sUAS. Mechanical design and safety, and electrical design battery maintenance are primary battery-related areas that are covered. “The introduction of these standards developed by F38 will help to provide a safe and appropriate path for near-term routine sUAS operations in airspace systems of the United States and other countries,” says…, Technical Contact:, Theodore J. Wierzbanowski, Phone: 626-429-8864; wierzbanowski@uasinthenas.com, ASTM Staff Contact:, Stephen Mawn, Phone: 610-832-9726; smawn@astm.org , ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9636