ASTM F 660 : 1983 : R2002 : EDT 1
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Standard Practice for Comparing Particle Size in the Use of Alternative Types of Particle Counters
Hardcopy , PDF
11-11-2014
English
28-01-1983
CONTAINED IN VOL. 11.01, 2017 Defines a procedure for comparing the sizes of nonspherical particles in a test sample determined with different types of automatic particle counters, which operate on different measuring principles.
Committee |
D 19
|
DocumentType |
Standard Practice
|
Pages |
5
|
PublisherName |
American Society for Testing and Materials
|
Status |
Superseded
|
SupersededBy | |
Supersedes |
1.1 This practice provides a procedure for comparing the sizes of nonspherical particles in a test sample determined with different types of automatic particle counters, which operate on different measuring principles.
1.2 A scale factor is obtained by which, in the examination of a given powder, the size scale of one instrument may be multiplied to agree with the size scale of another.
1.3 The practice considers rigid particles, free of fibers, of the kind used in studies of filtration, such as: commercially available test standards of quartz or alumina, or fly ash, or some powdered chemical reagent, such as iron oxide or calcium sulfate.
1.4 Three kinds of automatic particle counters are considered:
1.4.1 Image analyzers, which view stationary particles under the microscope and, in this practice, measure the longest end-to-end distance of an individual particle.
1.4.2 Optical counters, which measure the area of a shadow cast by a particle as it passes by a window; and
1.4.3 Electrical resistance counters, which measure the volume of a particle as it passes through an orifice in an electrically conductive liquid.
1.5 This practice also considers the use of instruments that provide sedimentation analyses, which is to say provide measures of the particle mass distribution as a function of Stokes diameter. The practice provides a way to convert mass distribution into number distribution so that the meaning of Stokes diameter can be related to the diameter measured by the instruments in 1.4.
1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
ASTM F 662 : 1986 | METHOD FOR MEASUREMENT OF PARTICLE COUNT AND SIZE DISTRIBUTION IN BATCH SAMPLES FOR FILTER EVALUATION USING AN ELECTRICAL RESISTANCE PARTICLE COUNTER |
ASTM F 301 : 1991 | Practice for Open Bottle Tap Sampling of Liquid Streams (Withdrawn 2000) |
ASTM F 1877 : 2016 : REDLINE | Standard Practice for Characterization of Particles |
UNI EN ISO 12086-2 : 2006 | PLASTICS - FLUOROPOLYMER DISPERSIONS AND MOULDING AND EXTRUSION MATERIALS - PART 2: PREPARATION OF TEST SPECIMENS AND DETERMINATION OF PROPERTIES |
ASTM F 1067 : 1992 | Test Method for Determining the Performance of a Petroleum Product Filter Cartridge Using a Single-Pass Constant Rate Procedure (Withdrawn 2001) |
DIN EN ISO 12086-2:2006-05 | PLASTICS - FLUOROPOLYMER DISPERSIONS AND MOULDING AND EXTRUSION MATERIALS - PART 2: PREPARATION OF TEST SPECIMENS AND DETERMINATION OF PROPERTIES |
ASTM F 662 : 1986 | METHOD FOR MEASUREMENT OF PARTICLE COUNT AND SIZE DISTRIBUTION IN BATCH SAMPLES FOR FILTER EVALUATION USING AN ELECTRICAL RESISTANCE PARTICLE COUNTER |
ASTM F 661 : 1992 | Practice for Particle Count and Size Distribution Measurement in Batch Samples for Filter Evaluation Using an Optical Particle Counter (Withdrawn 2001) |
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