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SAE AMS3726 - SHIMS, FILLED RESIN COMPOUND Organization: SAE
Date: 2011-08-01
Description: Class 3: Precatalyzed epoxy or modified epoxy base polymer supplied as a liquid in a tube or other suitable container. Safety - Hazardous Materials: While the materials, methods, applications, and processes described or referenced in this specification may involve the use of hazardous materials, this specification does not address the hazards which may be involved in such use.
DS/ISO 15759 - MEDICAL INFUSION EQUIPMENT - PLASTICS CAPS WITH INSERTED ELASTOMERIC LINER FOR CONTAINERS MANUFACTURED BY THE BLOW-FILL-SEAL (BFS) PROCESS Organization: DS
Date: 2014-05-09
Description: ISO 15759:2005 specifies the dimensional and functional requirements for plastics caps with inserted elastomeric liners, attached to the infusion container [blow-fill-seal (BFS) container] by welding or by collar technique.
ASTM D7387 - STANDARD TEST METHOD FOR VIBRATION TESTING OF INTERMEDIATE BULK CONTAINERS (IBCS) USED FOR SHIPPING LIQUID HAZARDOUS MATERIALS (DANGEROUS GOODS) Organization: ASTM
Date: 2013-02-01
Description: This test method covers vibration testing of filled intermediate bulk containers (IBCs) intended to contain liquid hazardous materials (dangerous goods) and is suitable for testing IBCs of any design or material with any means of closure.
DS/EN 60475 - METHOD OF SAMPLING INSULATING LIQUIDS Organization: DS
Date: 2012-02-03
Description: This International Standard is applicable to the procedure to be used for insulating liquids in delivery containers and in electrical equipment such as power and instrument transformers, reactors, bushings, oil-filled cables, oil-filled tank-type capacitors, switchgear and load tap changers (LTCs).
CENELEC - EN 60475 - METHOD OF SAMPLING INSULATING LIQUIDS Organization: CENELEC
Date: 2011-12-01
Description: This International Standard is applicable to the procedure to be used for insulating liquids in delivery containers and in electrical equipment such as power and instrument transformers, reactors, bushings, oil-filled cables, oil-filled tank-type capacitors, switchgear and load tap changers (LTCs).
IEC 60475 - METHOD OF SAMPLING INSULATING LIQUIDS - EDITION 2.0 Organization: IEC
Date: 2011-10-01
Description: This International Standard is applicable to the procedure to be used for insulating liquids in delivery containers and in electrical equipment such as power and instrument transformers, reactors, bushings, oil-filled cables, oil-filled tank-type capacitors, switchgear and load tap changers (LTCs).
CEI EN 60475 - METHOD OF SAMPLING INSULATING LIQUIDS Organization: CEI
Date: 2012-07-01
Description: This International Standard is applicable to the procedure to be used for insulating liquids in delivery containers and in electrical equipment such as power and instrument transformers, reactors, bushings, oil-filled cables, oil-filled tank-type capacitors, switchgear and load tap changers (LTCs).
CGA/GAS - CGA C-9 - STANDARD COLOR MARKING OF COMPRESSED GAS CONTAINERS FOR MEDICAL USE - FIFTH EDITION Organization: CGA/GAS
Date: 2013-01-01
Description: This standard does not apply to the following: – containers for delivery to foreign countries or to United States military agencies that have established color marking standards that differ from this standard; – containers used in hospitals or other medical institutions for purposes other than medical use; – containers used in industrial applications; – nonportable storage vessels; – containers that are attached to and form a part of any over-the-highway vehicle; – containers when the contents are classified as medical devices or to supplementary medical equipment used with these containers, for example gases or gas mixtures specifically intended for use in calibrating medical equipment; – containers that are filled from home fill oxygen concentrator systems; and – containers that are filled from home fill liquid oxygen systems.
ASTM D999 - STANDARD TEST METHODS FOR VIBRATION TESTING OF SHIPPING CONTAINERS Organization: ASTM
Date: 2008-08-01
Description: These test methods cover vibration tests of filled shipping containers. Such tests may be used to assess the performance of a container, with its interior packing and means of closure, both in terms of its strength and of the protection it provides its contents when it is subjected to vibration such as it experiences in transportation.
CGA/GAS - CGA G-6.1 - STANDARD FOR INSULATED LIQUID CARBON DIOXIDE SYSTEMS AT CONSUMER SITES - SEVENTH EDITION Organization: CGA/GAS
Date: 2013-01-01
Description: This publication covers the design, location, installation, operation, and maintenance of insulated liquid carbon dioxide supply systems located at user sites. The system covered is from the container fill connections to the user's process piping. NOTE—Small, stationary, insulated carbon dioxide systems with containers having individual capacities of 1000 lb or less and designed, manufactured, and certified in accordance with American Society of Mechanical Engineers (ASME) Boiler & Pressure Vessel Code, Section VIII, Division 1 requirements are not covered by this publication, refer to CGA G-6.5, Standard for Small, Stationary, Insulated Carbon Dioxide Supply Systems [1, 2].
CGA/GAS - CGA M-5 - GUIDE FOR HOME RESPIRATORY CARE FIRMS FILLING OR DISTRIBUTING LIQUID OXYGEN USP - SECOND EDITION Organization: CGA/GAS
Date: 2013-01-01
Description: Portions of this publication may apply to those HRC firms that also distribute other compressed medical gases (CMG).This publication includes the minimum regulatory requirements that shall be described in an HRC firm's written standard operating procedures (SOP) for the firm to receive, fill, test, and distribute liquid oxygen USP and includes the following: – establishment and responsibilities of the quality control unit (QCU); – qualifications of the person(s) performing and supervising the receipt, filling, testing, release, and distribution of liquid oxygen USP; – quality records; – building and facility requirements (including vehicles); – manufacturing equipment design and maintenance; – test equipment; – record and report requirements; – use of computer and other electronic equipment; – receipt and testing of vendor-supplied product into the HRC's storage tank; – receipt and testing of vendor-supplied product into vehicle-mounted vessels (VMVs) or other large cryogenic containers; – receipt and testing of vendor-supplied product into cryogenic home vessels (CHVs); – HRC filling and testing of VMVs and/or large cryogenic containers from an HRC company's storage tank; – HRC filling and testing CHVs; and – labeling requirements.
UL 2227 - UL STANDARD FOR SAFETY OVERFILLING PREVENTION DEVICES - SECOND EDITION; REPRINT WITH REVISIONS THROUGH AND INCLUDING JUNE 6, 2014 Organization: UL
Date: 2007-02-16
Description: These requirements cover devices for use on stationary containers or portable LP-Gas containers that consist of a shutoff mechanism that works in conjunction with a liquid level sensing device that shuts off the incoming flow of LP-Gas during a refilling operation when the liquid level reaches a predetermined point.
NASA-LLIS-0550 - LESSONS LEARNED – OXYGEN-DEFICIENT ATMOSPHERES Organization: NASA
Date: 1997-05-07
Description: The areas surrounding the larger, permanent containers do not normally present pockets in which to trap nitrogen; however, on still days there could be oxygen-deficient areas near the connection the vent, or the 90% fill valve. The smaller portable containers (dewars) could be located in potentially confined areas, also presenting the potential for an oxygen-deficient atmosphere.
CGA/GAS - CGA G-6.5 - STANDARD FOR SMALL STATIONARY INSULATED CARBON DIOXIDE SUPPLY SYSTEMS - FOURTH EDITION Organization: CGA/GAS
Date: 2013-01-01
Description: The system shall be designed so the container does not become liquid full at the pressure setting of the pressure relief device (PRD).
ANS 55.1 - SOLID RADIOACTIVE WASTE PROCESSING SYSTEM FOR LIGHT-WATER-COOLED REACTOR PLANTS Organization: ANS
Date: 1992-01-01
Description: The system includes facilities for temporary (up to 30 days of anticipated normal waste generation) on-site storage of packaged waste but terminates at the point of loading the filled drums and other containers on a vehicle for shipping off-site to a licensed disposal site or transfer to interim (up to 5 yr) on-site storage facilities.
CENELEC - EN 60601-2-24 - MEDICAL ELECTRICAL EQUIPMENT - PART 2-24: PARTICULAR REQUIREMENTS FOR THE BASIC SAFETY AND ESSENTIAL PERFORMANCE OF INFUSION PUMPS AND CONTROLLERS Organization: CENELEC
Date: 2015-05-01
Description: These particular standard does not apply to the following: a) devices specifically intended for diagnostic or similar use (e.g. angiography or other pumps permanently controlled or supervised by the OPERATOR); b) devices for extracorporeal circulation of blood; c) implantable devices; d) ME EQUIPMENT specifically intended for diagnostic use within urodynamics (measurement of pressure-volume relationship of the urinary bladder when filled through a catheter with water); e) ME EQUIPMENT specifically intended for diagnostic use within male impotence testing (measurement of amount of liquid infused, necessary to maintain a preset pressure level for maintaining penile erection: cavernosometry, cavernosography); f) devices covered by ISO 28620.
CEI - EN 60601-2-24 - MEDICAL ELECTRICAL EQUIPMENT PART 2: PARTICULAR REQUIREMENTS FOR BASIC SAFETY AND ESSENTIAL PERFORMANCE OF INFUSION PUMPS AND CONTROLLERS Organization: CEI
Date: 2016-01-01
Description: These particular standard does not apply to the following: a) devices specifically intended for diagnostic or similar use (e.g. angiography or other pumps permanently controlled or supervised by the OPERATOR); b) devices for extracorporeal circulation of blood; c) implantable devices; d) ME EQUIPMENT specifically intended for diagnostic use within urodynamics (measurement of pressure-volume relationship of the urinary bladder when filled through a catheter with water); e) ME EQUIPMENT specifically intended for diagnostic use within male impotence testing (measurement of amount of liquid infused, necessary to maintain a preset pressure level for maintaining penile erection: cavernosometry, cavernosography); f) devices covered by ISO 28620.
CSA C22.2 NO 60601-2-24 - MEDICAL ELECTRICAL EQUIPMENT - PART 2-24: PARTICULAR REQUIREMENTS FOR THE SAFETY OF INFUSION PUMPS AND CONTROLLERS - SECOND EDITION Organization: CSA
Date: 2015-01-01
Description: These particular standard does not apply to the following: a) devices specifically intended for diagnostic or similar use (e.g. angiography or other pumps permanently controlled or supervised by the OPERATOR); b) devices for extracorporeal circulation of blood; c) implantable devices; d) ME EQUIPMENT specifically intended for diagnostic use within urodynamics (measurement of pressure-volume relationship of the urinary bladder when filled through a catheter with water); e) ME EQUIPMENT specifically intended for diagnostic use within male impotence testing (measurement of amount of liquid infused, necessary to maintain a preset pressure level for maintaining penile erection: cavernosometry, cavernosography); f) devices covered by ISO 28620.
ASTM C1703 - STANDARD PRACTICE FOR SAMPLING OF GASEOUS URANIUM HEXAFLUORIDE Organization: ASTM
Date: 2008-12-01
Description: This practice does not apply to gas sampling after the cylinder has been filled since the sample taken will not be representative of the cylinder. The scope of this practice does not include provisions for preventing criticality incidents.
IEC 60601-2-24 - MEDICAL ELECTRICAL EQUIPMENT – PART 2-24: PARTICULAR REQUIREMENTS FOR THE BASIC SAFETY AND ESSENTIAL PERFORMANCE OF INFUSION PUMPS AND CONTROLLERS - EDITION 2.0 Organization: IEC
Date: 2012-10-01
Description: These particular standard does not apply to the following: a) devices specifically intended for diagnostic or similar use (e.g. angiography or other pumps permanently controlled or supervised by the OPERATOR); b) devices for extracorporeal circulation of blood; c) implantable devices; d) ME EQUIPMENT specifically intended for diagnostic use within urodynamics (measurement of pressure-volume relationship of the urinary bladder when filled through a catheter with water); e) ME EQUIPMENT specifically intended for diagnostic use within male impotence testing (measurement of amount of liquid infused, necessary to maintain a preset pressure level for maintaining penile erection: cavernosometry, cavernosography); f) devices covered by ISO 28620.

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