ASTM-D471 › Historical Revision Information
Standard Test Method for Rubber Property-Effect of Liquids
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Scope
1.1 This test method covers the required procedures to evaluate the comparative ability of rubber and rubber-like compositions to withstand the effect of liquids. It is designed for testing: (1) specimens of vulcanized rubber cut from standard sheets (see Practice D 3182
1.2 ASTM Oils No. 2 and No. 3, formerly used in this test method as standard test liquids, are no longer commercially available and in 1993 were replaced with IRM 902 and IRM 903, respectively (see Appendix X1 for details).
1.3 ASTM No. 1 Oil, previously used in this test method as a standard test liquid, is no longer commercially available and in 2005 was replaced with IRM 901; refer to Table 1, Footnote A, and Appendix X3 for details.
1.4 This test method includes the following:
Change in Mass (after immersion) | Section 10 |
Change in Volume (after immersion) | Section 11 |
Dimensional-Change Method for Water-Insoluble Liq- uids and Mixed Liquids | Section 12 |
Change in Mass with Liquid on One Surface Only | Section 13 |
Determining Mass of Soluble Matter Extracted by the Liquid | Section 14 |
Change in Tensile Strength, Elongation and Hardness (after immersion) | Section 15 |
Change in Breaking Resistance, Burst Strength, Tear Strength and Adhesion for Coated Fabrics | Section 16 |
Calculation (of test results) | Section 18 |
1.5 The values stated in SI units are to be regarded as the standard. The values in parentheses are for information only.
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.
TABLE 1 Specifications and Typical Properties of ASTM and IRM Reference Oils
Property | ASTM Oil No. 1A | ASTM Oil No. 5 | IRM 901 | IRM 902 | IRM 903 | ASTM Method |
---|---|---|---|---|---|---|
Specified Properties: | ||||||
Aniline Point, °C (°F) | 124 ± 1 (255 ± 2) | 115 ± 1 (239± 2) | 124 ± 1 (255 ± 2) | 93 ± 3 (199 ± 5) | 70± 1 (158 ± 2) | D 611 |
Kinematic Viscosity | ||||||
(mm2/s [cSt]) | ||||||
38°C (100°F) | ... | ... | ... | 31.9–34.1 | D 445 | |
99°C (210°F) | 18.7–21.0 | 10.8–11.9 | 18.12–20.34 | 19.2–21.5 | ... | D 445 |
Gravity, API, 16°C (60°F) | ... | ... | 28.8 ± 1 | 19.0–21.0 | 21.0–23.0 | D 287 |
Viscosity-Gravity Constant | ... | ... | 0.790–0.805 | 0.860–0.870 | 0.875–0.885 | D 2140 |
Flash Point COC, °C (°F) | 243 (469) min | 243 (469) min | 243(469) min | 240 (464) min | 163 (325) min | D 92 |
Naphthenics, CN (%) | ... | ... | 27 (avg) | 35 min | 40 min | D 2140 |
Paraffinics, CP (%) | ... | ... | 65 min | 50 max | 45 max | D 2140 |
Typical Properties: | ||||||
Pour Point, °C (°F) | ... | −15 (5) | −12 (10) | −12 (10) | −31 (−24) | D 97 |
ASTM Color | ... | L 1.0 | L 3.5 | L 2.5 | L 0.5 | D 1500 |
Refractive Index | ... | 1.4808 | 1.4848 | 1.5105 | 1.5026 | D 1747 |
UV Absorbance, 260 nm | ... | ... | 0.8 | 4.0 | 2.2 | D 2008 |
Aromatics, CA (%) | ... | 4 | 3 | 12 | 14 | D 2140 |
A ASTM Oil No. 1 is no longer commercially available, the specifications are left in place for the purpose of reference until such time as an interlaboratory test program is conducted to determine precision and bias. Refer to Appendix X3.
Significance and Use
Certain rubber articles, for example, seals, gaskets, hoses, diaphragms, and sleeves, may be exposed to oils, greases, fuels, and other fluids during service. The exposure may be continuous or intermittent and may occur over wide temperature ranges.
Properties of rubber articles deteriorate during exposure to these liquids, affecting the performance of the rubber part, which can result in partial failure.
This test method attempts to simulate service conditions through controlled accelerated testing, but may not give any direct correlation with actual part performance, since service conditions vary too widely. It yields comparative data on which to base judgment as to expected service quality.
This test method is suitable for specification compliance testing, quality control, referee purposes, and research and development work.
Keywords
elevated temperature; fluid immersion; liquid immersion; reference fuel; rubber articles; rubber products; service liquid; Accelerated aging/testing--rubber/related materials; Breaking strength/tenacity--rubber; Bursting strength--rubber; Change in length; Dimensional change; Elevated temperature tests--rubber; Elongation--rubber; Evaporation loss; Fluid immersion; Fuel oils; Fuels (test medias); Hardness tests; Immersion--rubber materials/applications; Liquids immersion--effect on rubber; Oils (test medias); Reference fuel; Rubber adhesion; Service liquid; Tear resistance; Tensile properties/testing--rubber/relatged materials; Testing methods--rubber; Volume change; Water displacement test; Accelerated aging/testing--rubber/related materials; Breaking strength/tenacity--rubber; Bursting strength--rubber; Change in length; Dimensional change; Elevated temperature tests--rubber; Elongation--rubber; Evaporation loss; Fluid immersion; Fuel oils; Fuels (test medias); Hardness tests; Immersion--rubber materials/applications; Liquids immersion--effect on rubber; Oils (test medias); Reference fuel; Rubber adhesion; Service liquid; Tear resistance; Tensile properties/testing--rubber/relatged materials; Testing methods--rubber; Volume change; Water displacement test
To find similar documents by ASTM Volume:
09.01 (Rubber, Natural and Synthetic -- General Test Methods; Carbon Black)
To find similar documents by classification:
83.060 (Rubber Raw rubber, see 83.040.10)
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Document Number
ASTM-D471-06e1
Revision Level
2006(E1) EDITION
Status
Superseded
Modification Type
Editorially changed
Publication Date
Sept. 1, 2008
Document Type
Test Method
Page Count
13 pages
Committee Number
D11.15