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ASTM International has fully redesigned its International Laboratory Directory, the only directory in the world dedicated to helping manufacturers find the right labs to test their products. Independent laboratories throughout the world rely on thousands of standards and test methods, including many developed by ASTM International. By working with these labs, manufacturers can help ensure that…, Contact:, Anna Spektor, tel +1.610.832.9756; aspektor@astm.org, Media Inquiries:, Dan Bergels, tel +1.610.832.9602; dbergels@astm.org Release #10110
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A proposed new ASTM International standard will provide the electrical power industry with a relatively straightforward test for oxidation stability of natural esters. Natural esters, also known as vegetable oils, can be used as an alternative to mineral oil as an insulating liquid in power transformers and other electrical equipment. The proposed standard is ASTM WK21616 , Test Method for…, ASTM Committee D27 Next Meeting:, Nov. 9-11, 2014, November Committee Week, New Orleans, La., Technical Contact:, Kevin J. Rapp, Cargill Industrial Specialties, Brookfield, Wis., Phone: 262-797-5584; kevin_rapp@cargill.com, ASTM Staff Contact:, Kelly Paul, Phone: 610-832-9745; kpaul@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9618
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A proposed new ASTM International test method will describe a single specific integration technique that can be applied to tabulated digital measurement data acquired by modern instrumentation used for studying weathering and durability. ASTM WK45298 , Test Method for the Integration of Digital Spectral Data for Weathering and Durability Applications, is being developed by Subcommittee G03.09 on…, ASTM Committee G03 Next Meeting:, Jan. 25-27, 2015, January Committee Week, New Orleans, La., Technical Contact:, Aron Habte, National Renewable Energy Laboratory, Golden, Colo., Phone: 303-384-6389; aron.habte@nrel.gov , ASTM Staff Contact:, Jeffrey Adkins, Phone: 610-832-9738; jadkins@astm.org , ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9637
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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
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A proposed new ASTM International standard will improve the accuracy and usefulness of radiometry-related uncertainty estimates in a wide range of fast developing solar renewable energy applications, such as system performance and acceptance testing, resource assessment and solar energy system design engineering. The proposed standard, ASTM WK36479 , Practice for Uncertainty Evaluation of…
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Manufacturers of solar radiometers and testing laboratories for solar energy, materials and durability testing will be among the primary users of a new ASTM International standard that outlines procedures using indoor test methods to calibrate radiometers with dissimilar detectors. The new standard, ASTM G207 , Test Method for Indoor Transfer of Calibration from Reference to Field Pyranometers,…, ASTM Committee G03 Next Meeting:, Jan. 29-31, 2012, January Committee Week, Atlanta, Ga., Technical Contact:, Daryl Myers, National Renewable Energy Laboratory, Golden, Colo., Phone: 303-384-6768; daryl.myers@nrel.gov, ASTM Staff Contact:, Jeff Adkins, Phone: 610-832-9738; jadkins@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #8965
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A new ASTM International standard provides a more detailed and complete description of a test protocol that has been used for more than 40 years in code requirements and specifications for fire-retardant-treated wood. This test is now also used in some codes for building products that are not wood. The new standard, ASTM E2768 , Test Method for Extended Duration Surface Burning Characteristics of…
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Consumers who are purchasing building materials for homes want to be assured that the materials are mold resistant. A proposed new ASTM standard will allow for a mold-resistance rating to be given to specific materials, depending on how the materials perform to the test method. The proposed new standard, ASTM WK32079 , Test Method for Determination of Mold Growth on Building Products Designed for…
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As part of its ongoing work supporting the Federal Aviation Administration to develop a Special Federal Aviation Regulation for small Unmanned Aircraft Systems, ASTM International Committee F38 on Unmanned Air Vehicle Systems is currently working on a proposed registration and marking standard. ASTM WK27055 , Specification for the Registration and Marking of Unmanned Aircraft System, is under the…, Technical Contact:, Rocky Gmeiner, Raytheon Co., Arlington, Va.; Phone: 703-284-4308; regmeiner@raytheon.com, ASTM Staff Contact:, Daniel Schultz, Phone: 610-832-9716; dschultz@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #8609
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ASTM International Committee F38 on Unmanned Aircraft Systems (UAS) was recently requested by the Federal Aviation Administration to assist with the development of industry consensus standards to support the integration of small unmanned aircraft systems (sUAS) into the U.S. national airspace system (NAS). Following a model that was successfully used for the integration of light sport aircraft…