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Homepage>ASTM Standards>83>83.060>ASTM D5992-96R24 - Standard Guide for Dynamic Testing of Vulcanized Rubber and Rubber-Like Materials Using Vibratory Methods
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Released: 01.05.2024

ASTM D5992-96R24 - Standard Guide for Dynamic Testing of Vulcanized Rubber and Rubber-Like Materials Using Vibratory Methods

Standard Guide for Dynamic Testing of Vulcanized Rubber and Rubber-Like Materials Using Vibratory Methods

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Standard number:ASTM D5992-96R24
Released:01.05.2024
Status:Active
Pages:25
Section:09.01
Keywords:apparatus; damping; dynamic; elastic; elastomer; guide; methods; modulus; rubber; spring rate; stiffness; testing ;
DESCRIPTION

1.1 This guide covers dynamic testing of vulcanized rubber and rubber-like (both hereinafter termed “rubber” or “elastomeric”) materials and products, leading from the definitions of terms used, through the basic mathematics and symbols, to the measurement of stiffness and damping, and finally through the use of specimen geometry and flexing method, to the measurement of dynamic modulus.

1.2 This guide describes a variety of vibratory methods for determining dynamic properties, presenting them as options, not as requirements. The methods involve free resonant vibration, and forced resonant and nonresonant vibration. In the latter two cases the input is assumed to be sinusoidal.

1.3 While the methods are primarily for the measurement of modulus, a material property, they may in many cases be applied to measurements of the properties of full-scale products.

1.4 The methods described are primarily useful over the range of temperatures from −70°C to +200°C (−100°F to +400°F) and for frequencies from 0.01 to 100 Hz. Not all instruments and methods will accommodate the entire ranges.

1.5 When employed for the measurement of dynamic modulus, the methods are intended for materials having complex moduli in the range from 100 to 100 000 kPa (15 to 15 000 psi) and damping angles from 0 to 90°. Not all instruments and methods will accommodate the entire ranges.

1.6 Both translational and rotational methods are described. To simplify generic descriptions, the terminology of translation is used. The subject matter applies equally to the rotational mode, substituting “torque” and “angular deflection” for “force” and “displacement.”

1.7 This guide is divided into sections, some of which include:

 

Section

Terminology and Symbols

3

Factors Influencing Dynamic Measurement

7

Test Methods and Specimens

8

Nonresonant Analysis Methods and Their Influence on
Results

9

Report

10

Mechanical and Instrumentation Factors Influencing Dynamic Measurement

Annex A1

Guide to Further Reading

Appendix X1

Double-Shear Specimens—Derivation of Equations and Descriptions of Specimens

Appendix X2

Torsion Specimens—Derivation of Equations and Descriptions of Specimens

Appendix X3

Compression/Tension Specimens—Derivation of Equations and Descriptions of Specimens

Appendix X4

Free Resonant Vibration—Equations for Log Decrement and Stiffness

Appendix X5

Obtaining Loss Factor and Elastic Stiffness from Transmissibility Curves

Appendix X6

1.8 The values stated in SI units are to be regarded as the standard. The values given in parentheses are for information only.

1.9 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use.

1.10 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.