1.1本试验方法涵盖了评估汽车发动机油与五种参考弹性体（与这些机油接触的密封材料中使用的典型弹性体）兼容性的定量程序。当弹性体试样在油中浸泡指定时间和温度时，通过测定体积、硬度和拉伸性能的变化来评估兼容性。 1.2有效的密封作用要求用于任何密封的弹性体的物理性能对其浸入的液体或油具有高水平的阻力。当存在如此高的阻力时，弹性体与液体或油相容。 笔记 1-本试验方法的使用者应熟练使用试验方法D 412 （拉伸性能），D 471 （橡胶浸入液体的影响），D 2240 （硬度计硬度）和D 5662 （齿轮油与典型油封弹性体的兼容性），所有这些都涉及本试验方法操作的执行。 1.3本试验方法仅对油/弹性体相容性进行初步或一阶评估。由于密封件可能承受静态或动态载荷，或同时承受静态或动态载荷，并且它们可能在一系列条件下运行，因此在任何使用条件下，对任何弹性体-油组合的潜在密封性能的完整评估通常需要本试验方法中所述试验之外的其他试验。 1.4选择本试验方法中规定的五种参考弹性体配方，以代表重型柴油发动机中使用的配方。然而，本试验方法中描述的程序也可用于评估汽车发动机油与不同弹性体类型/配方的兼容性，或与本试验方法中使用的不同试验持续时间和温度的兼容性。 笔记 2-在这种情况下，第12节中的精度和偏差声明不适用。除约定可接受的精度限制外，在相关情况下，用户和供应商还应约定: (1) 使用的试验温度和浸泡时间； (2) 弹性体的配方和典型性能；和 (3) 弹性体板材的采购和质量控制。 笔记 3-TMC也可以就此事项发布信息函。 1.5以国际单位制表示的数值应视为标准。括号中给出的值仅供参考。 1.6 本标准并非旨在解决与其使用相关的所有安全问题（如有）。本标准的用户有责任在使用前制定适当的安全和健康实践，并确定监管限制的适用性。 1.7本试验方法安排如下: 部分 范围 1. 参考文件 2. 术语 3. 试验方法总结 4. 意义和用途 5. 仪器 6. 标准物质 7. 程序 8. 计算 9 TMC 1006-1参考油 10 汇报 11 精度和偏差 12 关键词 13 参考弹性体的配方和物理性能 附件A1 ====意义和用途====== 一些发动机机油配方已被证明与用于汽车发动机密封件的某些弹性体不兼容。新发动机机油（即未暴露于发动机中的机油）对弹性体的这些有害影响最大 ’ s操作环境）以及暴露在高温下时。 本试验方法要求非参考油与参考油TMC 1006-1平行试验，TMC 1006-1已知在工作条件下对某些参数具有侵蚀性。这 相对的 兼容性允许决定在役非参考油的预期或预测性能。 弹性体材料的物理性能可能会发生显著变化，不仅在批次之间，而且在板材内部以及板材之间。使用参考油获得的结果由测试实验室提交给TMC，以允许其不断更新总的和实验室内的标准偏差估计值。因此，这些估算包含了参考弹性体特性变化对试验可变性的影响。 该测试方法适用于规范符合性测试、质量控制、仲裁测试以及研发。 本试验方法中涉及的参考弹性体、参考油和物理特性满足发动机油的具体要求。尽管存在其他弹性体与液体相容性的测试，但这些测试对于发动机机油来说过于笼统。

1.1 This test method covers quantitative procedures for the evaluation of the compatibility of automotive engine oils with five reference elastomers typical of those used in the sealing materials in contact with these oils. Compatibility is evaluated by determining the changes in volume, Durometer A hardness and tensile properties when the elastomer specimens are immersed in the oil for a specified time and temperature. 1.2 Effective sealing action requires that the physical properties of elastomers used for any seal have a high level of resistance to the liquid or oil in which they are immersed. When such a high level of resistance exists, the elastomer is said to be compatible with the liquid or oil. Note 1—The user of this test method should be proficient in the use of Test Methods D 412 (tensile properties), D 471 (effect of rubber immersion in liquids), D 2240 (Durometer hardness), and D 5662 (gear oil compatibility with typical oil seal elastomers), all of which are involved in the execution of the operations of this test method. 1.3 This test method provides a preliminary or first order evaluation of oil/elastomer compatibility only. Because seals may be subjected to static or dynamic loads, or both, and they may operate over a range of conditions, a complete evaluation of the potential sealing performance of any elastomer-oil combination in any service condition usually requires tests additional to those described in this test method. 1.4 The five reference elastomer formulations specified in this test method were chosen to be representative of those used in heavy-duty diesel engines. The procedures described in this test method can, however, also be used to evaluate the compatibility of automotive engine oils with different elastomer types/formulations or different test durations and temperatures to those employed in this test method. Note 2—In such cases, the precision and bias statement in Section 12 does not apply. In addition to agreeing acceptable limits of precision, where relevant, the user and supplier should also agree: (1) test temperatures and immersion times to be used; (2) the formulations and typical properties of the elastomers; and (3) the sourcing and quality control of the elastomer sheets. Note 3—The TMC may also issue Information Letters on this matter. 1.5 The values stated in SI units are to be regarded as the standard. The values given 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. 1.7 This test method is arranged as follows: Section Scope 1 Referenced Documents 2 Terminology 3 Summary of Test Method 4 Significance and Use 5 Apparatus 6 Reference Materials 7 Procedure 8 Calculations 9 TMC 1006-1 Reference Oil 10 Report 11 Precision and Bias 12 Keywords 13 Formulations and Physical Properties for the Reference Elastomers Annex A1 ====== Significance And Use ====== Some engine oil formulations have been shown to lack compatibility with certain elastomers used for seals in automotive engines. These deleterious effects on the elastomer are greatest with new engine oils (that is, oils that have not been exposed to an engine ’ s operating environment) and when the exposure is at elevated temperatures. This test method requires that non-reference oil(s) be tested in parallel with a reference oil, TMC 1006-1, known to be aggressive for some parameters under service conditions. This relative compatibility permits decisions on the anticipated or predicted performance of the non-reference oil in service. Elastomer materials can show significant variation in physical properties, not only from batch-to-batch but also within a sheet and from sheet-to-sheet. Results obtained with the reference oil are submitted by the test laboratories to the TMC to allow it to update continually the total and within-laboratory standard deviation estimates. These estimates, therefore, incorporate effects of variations in the properties of the reference elastomers on the test variability. This test method is suitable for specification compliance testing, quality control, referee testing, and research and development. The reference elastomers, reference oil and the physical properties involved in this test method address the specific requirements of engine oils. Although other tests exist for compatibility of elastomers with liquids, these are considered too generalized for engine oils.