共找到 493 条与 安全控制技术 相关的标准,共 33 页
ELEMENT OF INDUSTRIAL PLANTS. METALLIC RAILS. TERMINOLOGY. DIMENSIONS. TESTS.
Definitions and information relating to the electrical impedance of the human body and the effects of current (a.c. with frequencies between 15 and 100 Hz and d.c.) on the body.
Guide to effects of current passing through the human body. General aspects
Guidance on the effects of alternating current with frequencies above 100 Hz, with special waveforms or in the form of short duration unidirectional single impulses.
Guide to effects of current on human beings and livestock. Special aspects relating to human beings
Safety requirements for the design of technical equipment; protecting devices; definitions, safety distances for adults and childrenDiese Norm enth?lt sicherheitstechnische Festlegungen im Sinne des Gesetzes über technische Arbeitsmittel (Ger?te-sicherhe
Safety design of technical products; Safety devices; Concepts, safety distances for adults and children
6nL-4V TITANIUM ALLOY PER PROCUREMENT SPECIFICATION.
Field Force, Protection from (Rev. 3)
General Principles for the Safety Design of Technical Products
This test method does not require an overall rigid standardization of the apparatus. Samples are tested either unconfined or confined in confinement cups. For confined tests, some of the important cup parameters, such as cup material, cup wall thickness, and fit between the cup and the striking pin, are standardized. Data generated from unconfined and confined tests will not, in general, exhibit the same relative scale of sensitivities, and must be identified as confined or unconfined data and compared separately. This test method applies to all testing where the intent is to establish a relative sensitivity scale for hazardous materials. It is not intended to prohibit testing process-thickness samples nor prohibit the use of other than standard tool masses and striking diameters to generate data for special purposes or for in-house comparisons. In addition, the test method is not intended to restrict the generation of results at other than the H50 point as may be desirable for hazard analysis techniques. The normalized data will serve as a measure of the relative sensitivities of hazardous materials at the 50 % probability of reaction level. The normalized H50 values can also be used in conjunction with additional data relating to other probability of reaction levels (not a part of this test method) to assess hazards associated with the manufacture, transportation, storage, and use of hazardous materials.1.1 This test method , is designed to determine the relative sensitivities of solid-phase hazardous materials to drop weight impact stimulus. For liquid-phase materials refer to Test Method D2540. 1.2 This standard may involve hazardous materials, operations, and equipment. This standard does not purport to address all of the safety problems associated with its use. It is the responsibility of whoever uses this standard to consult and establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Standard Test Method for Drop Weight Impact Sensitivity of Solid-Phase Hazardous Materials
This method does not require an overall rigid standardization of the apparatus. Samples are tested either unconfined or confined in confinement cups. For confined tests, some of the important cup parameters, such as cup material, cup wall thickness, and fit between the cup and the striking pin, are standardized. Data generated from unconfined and confined tests will not, in general, exhibit the same relative scale of sensitivities, and must be identified as confined or unconfined data and compared separately. This method applies to all testing where the intent is to establish a relative sensitivity scale for hazardous materials. It is not intended to prohibit testing process-thickness samples nor prohibit the use of other than standard tool masses and striking diameters to generate data for special purposes or for in-house comparisons. In addition, the method is not intended to restrict the generation of results at other than the H50 point as may be desirable for hazard analysis techniques. The normalized data will serve as a measure of the relative sensitivities of hazardous materials at the 50 % probability of reaction level. The normalized H50 values can also be used in conjunction with additional data relating to other probability of reaction levels (not a part of this method) to assess hazards associated with the manufacture, transportation, storage, and use of hazardous materials.1.1 This test method, is designed to determine the relative sensitivities of solid-phase hazardous materials to drop weight impact stimulus. For liquid-phase materials refer to Method D 2540.This standard may involve hazardous materials, operations, and equipment. This standard does not purport to address all of the safety problems associated with its use. It is the responsibility of whoever uses this standard to consult and establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Standard Test Method for Drop Weight Impact Sensitivity Of Solid-Phase Hazardous Materials
This specification covers one type of restraintlrelease system for use in rigging the type A-22 airdrop container loads in cargo aircraft
TIEDOWN ASSEMBLY, CARGO, AIRDROP, TYPE A-1
Chain locksDiese Noim ist in Zusammenarbeit mit dem Hauptverband der gewerblichen Berufsgenossenschaften, Zentralstelle für Unfallverhütung, Fachausschcts ?Bauiicàe Eimichtungen, Bonn, aufgestellt worden.
Chain locks
Electrical form and parameters of planar slotted metal blasting
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