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ASTM-C1648:2006 Edition

ASTM-C1648:2006 Edition

$44.96

C1648-06 Standard Guide for Choosing a Method for Determining the Index of Refraction and Dispersion of Glass

Published By Publication Date Number of Pages
ASTM 2006 15
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1.1 This guide identifies and describes seven test methods for measuring the index of refraction of glass, with comments relevant to their uses such that an appropriate choice of method can be made. Four additional methods are mentioned by name, and brief descriptive information is given in Annex A1. The choice of a test method will depend upon the accuracy required, the nature of the test specimen that can be provided, the instrumentation available, and (perhaps) the time required for, or the cost of, the analysis. Refractive index is a function of the wavelength of light; therefore, its measurement is made with narrow-bandwidth light. Dispersion is the physical phenomenon of the variation of refractive index with wavelength. The nature of the test-specimen refers to its size, form, and quality of finish, as described in each of the methods herein. The test methods described are mostly for the visible range of wavelengths (approximately 400 to 780m); however, some methods can be extended to the ultraviolet and near infrared, using radiation detectors other than the human eye.

1.1.1 List of test methods included in this guide:

Becke line (method of central illumination),

Apparent depth of microscope focus (the method of the Duc de Chaulnes),

Critical Angle Refractometers (Abbe type and Pulfrich type),

Metricon system,

Vee-block refractometers,

Prism spectrometer, and

Specular reflectance.

1.1.2 Test methods presented by name only (see Annex A1):

Immersion refractometers,

Interferometry,

Ellipsometry, and

Method of oblique illumination.

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.

1.2 Warning -Refractive index liquids are used in several of the following test methods. Cleaning with organic liquid solvents also is specified. Degrees of hazard associated with the use of these materials vary with the chemical nature, volatility, and quantity used. See manufacturer’s literature and general information on hazardous chemicals.

PDF Catalog

PDF Pages PDF Title
1 Scope
Referenced Documents
Terminology
2 Significance and Use
Precision, Bias, and Accuracy (see Terminology
)
TABLE 1
3 Becke Line (Method of Central Illumination)
4 FIG. 1
5 Apparent Depth of Microscope Focus (the Duc de Chaulnes’ Image Displacement Method)
6 Critical Angle Refractometers (Abbe Type and Pulfrich Type)
FIG. 2
7 FIG. 3
8 The Metricon
System
9 Vee-Block Refractometers
FIG. 4
10 FIG. 5
11 Prism Spectrometer
FIG. 6
12 Specular Reflectance
13 Keywords
A1. FOUR ADDITIONAL METHODS FOR MEASURING REFRACTIVE INDEX
A1.1 Immersion Refractometer
A1.2 Interferometry
A1.3 Ellipsometry
14 A1.4 Method of Oblique Illumination
X1. ANALYSES FOR THE APPARENT DEPTH OF MICROSCOPE FOCUS METHOD (SECTION
X1.1
X1.2
15 REFERENCES

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