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ASTM - ASTM D149 - STANDARD TEST METHOD FOR DIELECTRIC BREAKDOWN VOLTAGE AND DIELECTRIC STRENGTH OF SOLID ELECTRICAL INSULATING MATERIALS AT COMMERCIAL POWER FREQUENCIES Organization: ASTM
Date: 2009-10-01
Description: This test method covers procedures for the determination of dielectric strength of solid insulating materials at commercial power frequencies, under specified conditions.
ASTM - ASTM D3755 - STANDARD TEST METHOD FOR DIELECTRIC BREAKDOWN VOLTAGE AND DIELECTRIC STRENGTH OF SOLID ELECTRICAL INSULATING MATERIALS UNDER DIRECT-VOLTAGE STRESS Organization: ASTM
Date: 1997-03-10
Description: This test method covers the determination of dielectric breakdown voltage and dielectric strength of solid electrical insulating materials under direct-voltage stress.
ASTM - ASTM D3756 - STANDARD TEST METHOD FOR EVALUATION OF RESISTANCE TO ELECTRICAL BREAKDOWN BY TREEING IN SOLID DIELECTRIC MATERIALS USING DIVERGING FIELDS Organization: ASTM
Date: 1997-09-10
Description: Eichorn, Chapter 4, "Treeing in Solid Organic Dielectric Materials," Engineering Dielectrics, Vol IIA, Electrical Properties of Solid Insulating Materials: Molecular Structure and Electrical Behavior, R.
ASTM - ASTM D2149 - STANDARD TEST METHOD FOR PERMITTIVITY (DIELECTRIC CONSTANT) AND DISSIPATION FACTOR OF SOLID DIELECTRICS AT FREQUENCIES TO 10 MHZ AND TEMPERATURES TO 500°C Organization: ASTM
Date: 2013-05-01
Description: Bartnikas, Chapter 2, "Alternating-Current Loss and Permittivity Measurements," Engineering Dielectrics, Vol IIB, Electrical Properties of Solid Insulating Materials, Measurement Techniques, R.
ASTM - ASTM D150 - STANDARD TEST METHODS FOR AC LOSS CHARACTERISTICS AND PERMITTIVITY (DIELECTRIC CONSTANT) OF SOLID ELECTRICAL INSULATION Organization: ASTM
Date: 2011-08-01
Description: Bartnikas, Editor, STP 926, ASTM, Philadelphia, 1987. 3 R. Bartnikas, Chapter 1, "Dielectric Loss in Solids," Engineering Dielectrics, Vol IIA, Electrical Properties of Solid Insulating Materials: Molecular Structure and Electrical Behavior, R.
IPC - TM-650 2.5.5.5C - STRIPLINE TEST FOR PERMITTIVITY AND LOSS TANGENT (DIELECTRIC CONSTANT AND DISSIPATION FACTOR) AT X-BAND Organization: IPC
Date: 1998-03-01
Description: Measurements are made under stripline conditions using a resonant element pattern card, which is separated from the ground planes by sheets of the material to be tested. Further information about this method may be found in ASTM D3380-75. Definitions: Terms used in this method include: Complex Relative Permittivity The values for relative permittivity and dissipation factor considered as a complex number.
ASTM - ASTM D877 - STANDARD TEST METHOD FOR DIELECTRIC BREAKDOWN VOLTAGE OF INSULATING LIQUIDS USING DISK ELECTRODES Organization: ASTM
Date: 2002-10-10
Description: 2 RR: D27–1006, Round-Robin Data Using Modified VDE Electrode Cell for Dielectric Strength Tests on Oil, is available from ASTM Headquarters.
ASTM - ASTM D877/D877M - STANDARD TEST METHOD FOR DIELECTRIC BREAKDOWN VOLTAGE OF INSULATING LIQUIDS USING DISK ELECTRODES Organization: ASTM
Date: 2013-12-01
Description: Use Procedure B to establish the breakdown voltage of an insulating liquid where an ASTM specification does not exist or when developing a value for an ASTM guide or standard.
IPC - TM-650 2.5.6B - DIELECTRIC BREAKDOWN OF RIGID PRINTED WIRING MATERIAL Organization: IPC
Date: 1986-05-01
Description: This method is based on the test technique described as ASTM D229.
IPC - TM-650 2.5.6.2A - ELECTRIC STRENGTH OF PRINTED WIRING MATERIAL Organization: IPC
Date: 1997-08-01
Description: The values determined by this method generally decrease with increasing specimen thickness for otherwise identical material. This method is based on the techniques described in ASTM D149.
ASTM - ASTM D5288 - STANDARD TEST METHOD FOR DETERMINING TRACKING INDEX OF ELECTRICAL INSULATING MATERIALS USING VARIOUS ELECTRODE MATERIALS (EXCLUDING PLATINUM) Organization: ASTM
Date: 2014-11-01
Description: ., Chapter 4, "Surface Failure Measurements," Engineering Dielectrics, Vol IIB, Electrical Properties of Solid Insulating Materials, Measurement Techniques, R.
ASTM - ASTM D1389 - STANDARD TEST METHOD FOR PROOF-VOLTAGE TESTING OF THIN SOLID ELECTRICAL INSULATING MATERIALS Organization: ASTM
Date: 2007-05-01
Description: IIA, Engineering Dielectrics, R. Bartnikas and R. M. Eichorn, Editors, ASTM STP 783, ASTM, Philadelphia, 1983.
ASTM - ASTM D2303 - STANDARD TEST METHODS FOR LIQUID-CONTAMINANT, INCLINED-PLANE TRACKING AND EROSION OF INSULATING MATERIALS Organization: ASTM
Date: 1997-09-10
Description: Mathes, Chapter 4, "Surface Failure Measurements," Engineering Dielectrics, Vol IIB, Electrical Properties of Solid Insulating Materials, Measurement Techniques, R.
ASTM - ASTM D3874 - STANDARD TEST METHOD FOR IGNITION OF MATERIALS BY HOT WIRE SOURCES Organization: ASTM
Date: 2013-11-01
Description: Mathes, Chapter 4, "Surface Failure Measurements", Engineering Dielectrics, Vol. IIB, Electrical Properties of Solid Insulating Materials, Measurement Techniques, R.
SAE J399 - ANODIZED ALUMINUM AUTOMOTIVE PARTS Organization: SAE
Date: 1976-04-01
Description: These are: ASTM B110--Dielectric Strength of Anodically coated Aluminum ASTM B457--Measuring Impedance of Anodic Coatings of Aluminum ASTM B244--Measuring Thickness of Anodic Coatings on Aluminum with Eddy Current Instruments ASTM B136--Resistance of Anodically Coated Aluminum to Staining by Dyes ASTM B137--Weight of Coating on Anodically Coated Aluminum ASTM B368--Copper-Accelerated Acetic Acid Salt Spray (Fog) Testing (CASS Test) ASTM B538--Fact (Ford Anodized Aluminum Corrosion Test) Testing ASTM B580--Guide to the Specification of Anodic Oxide Coatings on Aluminum ASTM 429--Measurement and Calculation of Reflecting Characteristics of Metallic Surfaces Using Integrating Sphere Instruments ASTM E430--Measurement of Gloss of High Gloss Metal Surfaces Using Abridged Goniophotometer or Goniophotometer
ICEA S-70-547 - WEATHER-RESISTANT POLYETHYLENE COVERED CONDUCTORS Organization: ICEA
Date: 2016-06-27
Description: The user may want to give consideration to the dielectric compatibility of the covering, insulator, and conductor/insulator tie.
ASTM - ASTM D6780 - STANDARD TEST METHOD FOR WATER CONTENT AND DENSITY OF SOIL IN PLACE BY TIME DOMAIN REFLECTOMETRY (TDR) Organization: ASTM
Date: 2005-05-01
Description: Procedure A involves two tests in the field, an in-place test and a test in a mold containing material excavated from the in-place test location. The apparent dielectric constant is determined in both tests.
IEEE C57.121 - GUIDE FOR ACCEPTANCE AND MAINTENANCE OF LESS FLAMMABLE HYDROCARBON FLUID IN TRANSFORMERS Organization: IEEE
Date: 1998-09-16
Description: These liquids are also known as high molecular weight hydrocarbon (HMWH) fluids. HMWH dielectric fluids are hereby defined as those fluids having an ASTM D92 fire point of 300 ° C or greater, being primarily composed of, but not restricted to, hydrocarbons.
UL - 2583 BULLETIN - UL STANDARD FOR SAFETY OUTLINE OF INVESTIGATION FOR FUEL TANK ACCESSORIES Organization: UL
Date: 2011-07-15
Description: The use fuels are intended to be formulated in accordance with 40 CFR Part 80 "Regulation of Fuels and Fuel Additives" and meet the following ASTM Fuel Specifications and blend limitations: a) ASTM D975, Standard Specification for Diesel Fuel Oils, with biodiesel blends up to a maximum of 5 percent (B5); b) ASTM D7467, Standard Specification for Low Blend Biodiesel, with biodiesel blends between 6 to 20 percent (B6 to B20); c) ASTM D4814Standard Specification for Automotive Spark-Ignition Engine Fuel, gasoline or oxygenated gasoline, with limited ethanol blends up to a maximum of 10 percent (E10); d) ASTM D5798, Standard Specification for Fuel Ethanol (Ed75 – Ed85) for Automotive Spark- Ignition Engines, high blend ethanol, with gasoline/ethanol mixtures in the nominal E85 range (E70 – E90); and e) Mid Range Ethanol Blends (E11 to E69) using variable mixtures of ASTM D4814, Low Blend Ethanol and ASTM D5798, High Blend Ethanol.
ASTM - ASTM D6432 - STANDARD GUIDE FOR USING THE SURFACE GROUND PENETRATING RADAR METHOD FOR SUBSURFACE INVESTIGATION Organization: ASTM
Date: 2011-05-01
Description: GPR is most often employed as a technique that uses high-frequency electromagnetic (EM) waves (from 10 to 3000 MHz) to acquire subsurface information. GPR detects changes in EM properties (dielectric permittivity, conductivity, and magnetic permeability), that in a geologic setting, are a function of soil and rock material, water content, and bulk density.

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