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With support from industry and government leaders, ASTM International will host an organizational meeting to potentially create a new technical committee that develops voluntary consensus standards for commercial spaceflight. This meeting comes in part as a result of the updated U.S. Commercial Space Launch Competitiveness Act of 2015 (CSLCA). The U.S. Federal Aviation Administration’s…, ASTM Commercial Spaceflight Meeting:, Oct. 24, 2016, RTCA, Inc.; 1150 18th St. NW, 4th Floor, Washington, DC 20036, Media Inquiries:, Dan Bergels, tel +1.610.832.9602; dbergels@astm.org, ASTM Staff Contact:, Christine DeJong, tel +1.610.832.9736; cdejong@astm.org Release #10170
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A new ASTM International standard will help oil spill responders evaluate the stability of water-in-oil mixtures. Specifically, the new standard (soon to be published as F3045, Test Method for the Evaluation of the Stability of Water-in-Oil Mixtures Formed from Crude Oil and Petroleum Products Mixed with Saline Water) provides a laboratory test method to determine the tendencies of emulsions and…, ASTM Committee F20 on Hazardous Substances and Oil Spill Response Next Meeting, : Oct. 25-26, 2016, October Committee Week, Orlando, Fla., Media Inquiries:, Nathan Osburn, tel +1.610.832.9603; nosburn@astm.org, Technical Contact:, Mervin Fingas, Edmonton, Alberta, Canada, tel +1.780.989.6059; fingasmerv@shaw.ca , ASTM Staff Contact:, Jeffrey Adkins, tel +1.610.832.9738; jadkins@astm.org Release #9936
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A proposed new ASTM standard will provide a lab test to determine how various types of oil will interact with water in oil spill situations. Information gleaned from such testing will ultimately lead to more effective oil spill recovery. All interested parties are welcome to join in the ongoing development of the standard ( WK41247 , Test Method for the Evaluation of the Stability of Water-in-Oil…, ASTM Committee F20 on Hazardous Substances and Oil Spill Response Next Meeting:, Oct. 27-28, 2015, October committee week, Tampa, Fla., Technical Contact:, Mervin Fingas, Edmonton, Alberta, Canada, tel +1.780.989.6059; fingasmerv@shaw.ca, ASTM Staff Contact:, Jeffrey Adkins, tel +1.610.832.9738; jadkins@astm.org, ASTM PR Contact:, Nathan Osburn, tel +1.610.832.9603; nosburn@astm.org Release #9772
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Overhead conductors used to transmit electricity typically consist of stranded aluminum wires that surround a stranded steel wire core. However, a more recently developed conductor consists of composite materials of carbon and glass fibers that replace the stranded steel-supporting member. This new type of conductor will be covered in a new ASTM International standard, ASTM B987 , Specification…, ASTM Committee B01 Next Meeting:, April 29, 2015, April Committee Week, Anaheim, Calif., Technical Contact:, Eric Bosze, Ph.D., CTC Global, Irvine, Calif., Phone: +1.949.381.7262; ebosze@ctcglobal.com, ASTM Staff Contact:, Kristy Straiton, Phone: +1.610.832.9640; kstraiton@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: +1.610.832.9603; bschindl@astm.org Release #9694
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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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ASTM B986 , Test Method for Determination of Tensile Strength by Mass Method for Stranded Conductors Intended for use in Electronic Application, will be used within the electronics and aerospace industries to validate tensile strength specification requirements for electrical conductors. ASTM B986 was developed by Subcommittee B01.02 on Methods of Test and Sampling Procedure , part of ASTM…, ASTM Committee B01 Next Meeting:, Oct. 23, 2013, October Committee Week, Jacksonville, Fla., Technical Contact:, Stephen Childers, IWG High Performance Conductors Inc., Inman, S.C., Phone: 864-472-0438; stephen.childers@iwghpc.com , ASTM Staff Contact:, Kristy Straiton, Phone: 610-832-9640; kstraiton@astm.org , ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org Release #9364
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Coated fabric products used for oil spill response procedures can deteriorate when stored for long periods of time. A proposed new ASTM standard will provide a nondestructive test for stored equipment to be evaluated for continued suitability over time. ASTM WK37298 , Test Method for Determining Storage Life of Coated Fabric Products, is being developed by Subcommittee F20.11 on Control , part of…, ASTM Committee F20 Next Meeting:, Oct. 23-24, 2012, October Committee Week, Atlanta, Ga., Technical Contact:, Peter Lane, Applied Fabric Technologies Inc., Applied Fabric Technologies Inc., Morris Skimmers International LLC, Orchard Park, N.Y., Phone: 716-662-0632; lane@afti.com, ASTM Staff Contact:, Jeffrey Adkins, Phone: 610-832-9738; jadkins@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org R elease #9310
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ASTM International Committee F20 on Hazardous Substances and Oil Spill Response has approved several standards for in-situ burning. The latest proposed standard on this subject, ASTM WK37324 , Guide for Evaluation of In-Situ Burning Effectiveness, is currently being developed by Subcommittee F20.15 on In-Situ Burning . In-situ burning is a controlled burning, at the spill location, of oil that…, ASTM Committee F20 Next Meeting:, Oct. 23-24, 2012, October Committee Week, Atlanta, Ga., Technical Contact:, Steve Potter, SL Ross Environmental Research Ltd., Ottawa, Ontario, Canada, Phone: 613-232-1564; steve@slross.com, ASTM Staff Contact:, Jeffrey Adkins, Phone: 610-932-9738; jadkins@astm.org, ASTM PR Contact:, Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org R elease #9294
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The construction of an unprecedented number of overhead power lines around the world has increased the demand for accurate data and models for electrical conductors. A proposed new standard, ASTM WK35208, Test Methods for Stress-Strain and Creep Testing for Overhead Electrical Conductors, will answer this global need. ASTM WK35208 is being developed by Subcommittee B01.02 on Methods of Test and…
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A new ASTM International standard will be a useful document for vendors, buyers and regulators in determining the applicability of different types of booms to be used for oil spill response. ASTM F2683 , Guide for Selection of Booms for Oil Spill Response, was developed by Subcommittee F20.11 on Control , part of ASTM International Committee F20 on Hazardous Substances and Oil Spill Response .…