G40 橡胶制品综合 标准查询与下载

JIS K 6353 AMD 1 ERRATUM 1:2008 勘误表

ERRATM

HG/T 3870-2008 硫化橡胶溶胀指数测定方法

警告：使用本标准的人员应有正规实验室工作的实践经验。本标准并未指出所有可能的安全问题。使用者有责任采取适当的安全和健康措施，并保证符合国家有关法规规定的条件。 本标准规定了测定硫化橡胶溶胀指数的试验方法。 本标准适用于测定天然橡胶及通用合成橡胶的硫化胶在各硫化阶段的硫化程度。

Rubber, vulcanized.Determination method of swelling index

HG/T 3868-2008 硫化橡胶.高温拉伸强度和拉断伸长率的测定

本标准规定了硫化橡胶高温拉伸强度、拉断伸长率及耐热系数的测定方法。 本标准不适用于硬质橡胶及类似的低伸长率材料。

Vulcanized rubber.Determination of tensile strength and elongation at break in high temperature

HG/T 3863-2008 硬质橡胶.压碎强度的测定

警告：使用本标准的人员应熟悉正规实验室操作规程。本标准无意涉及因使用本标准可能出现的所有安全问题。制定相应的安全和健康制度并确保符合国家法规是使用者的责任。 本标准规定了硬质橡胶压碎强度的测定方法。 本标准适用于耐介质、耐电、耐热、耐冲击等硬质橡胶。

Ebonite.Determination of crushing strength

HG/T 3849-2008 硬质橡胶.拉伸强度和拉断伸长率的测定

警告：使用本标准的人员应熟悉正规实验室操作规程。本标准无意涉及因使用本标准可能出现的所有安全问题。制定相应的安全和健康制度并确保符合国家法规是使用者的责任。 本标准规定了硬质橡胶拉伸强度和拉断伸长率的测定。 本标准适用于耐介质、耐电、耐热、耐冲击等硬质橡胶。

Ebonite.Determination of tensile strength and elongation at break

HG/T 3848-2008 硬质橡胶.抗剪切强度的测定

警告：使用本标准的人员应熟悉正规实验室操作规程。本标准无意涉及因使用本标准可能出现的所有安全问题。制定相应的安全和健康制度并确保符合国家法规是使用者的责任。 本标准规定了硬质橡胶抗剪切强度的测定方法。 本标准适用于耐介质、耐电、耐热、耐冲击等硬质橡胶。

Ebonite.Determination of shearing strength

HG/T 3847-2008 硬质橡胶.马丁耐热温度的测定

警告：使用本标准的人员应熟悉正规实验室操作规程。本标准无意涉及因使用本标准可能出现的所有安全问题。制定相应的安全和健康制度并确保符合国家法规是使用者的责任。 本标准规定了硬质橡胶耐热温度的测定方法。 本标准适用于耐介质、耐电、耐热、耐冲击等硬质橡胶。

Ebonite.Determination of martin heat resistance temperature

HG/T 3846-2008 硬质橡胶.硬度的测定

警告：使用本标准的人员应熟悉正规实验室操作规程。本标准无意涉及因使用本标准可能出现的所有安全问题。制定相应的安全和健康制度并确保符合国家法规是使用者的责任。 本标准规定了在一定负荷下，通过钢球压入测定硬质橡胶硬度的方法。 本标准适用于耐介质、耐电、耐热、耐冲击等硬质橡胶。

Ebonite.Determination of hardness by means of a durometer

HG/T 3845-2008 硬质橡胶.冲击强度的测定

警告：使用本标准的人员应熟悉正规实验室操作规程。本标准无意涉及因使用本标准可能出现的所有安全问题。制定相应的安全和健康制度并确保符合国家法规是使用者的责任。 本标准规定了用具有一定位能的摆捶冲击试样，测定硬质橡胶折断时所消耗能的方法。 本标准适用于耐介质、耐电、耐热、耐冲击等硬质橡胶。

Ebonite.Determination of impact strength

HG/T 3844-2008 硬质橡胶.弯曲强度的测定

警告：使用本标准的人员应熟悉正规实验室操作规程。本标准无意涉及因使用本标准可能出现的所有安全问题。制定相应的安全和健康制度并确保符合国家法规是使用者的责任。 本标准规定了在硬质橡胶两支座间的中心位置施加静力使试样弯曲，对试样弯曲强度进行测定的一种方法。 本标准适用于耐介质、耐电、耐热、耐冲击等硬质橡胶。

Ebonite.Determination of cross breaking strength

HG/T 3843-2008 硫化橡胶.短时间静压缩试验方法

本标准规定了硫化橡胶短时间静压缩试验的测定方法。 本标准适用于用试验机测定硫化橡胶短时间静压缩性能。

Vulcanized rubber.Test method for short time static compression

HG/T 3837-2008 橡胶.总烃含量的测定.热解法

警告：使用本标准的人员应有正规实验室工作的实践经验。本标准并未指出所有可能的安全问题。使用者有责任采取适当的安全和健康措施，并保证符合国家有关法规规定的条件。 本标准规定了用热解法测定橡胶中总烃含量的方法。 本标准适用于以下几种聚合物单独存在或以并用形式存在的生胶、混炼胶和硫化橡胶: 天然的或合成的聚异戊二烯橡胶； 聚丁二烯橡胶； 丁二烯-苯乙烯橡胶； 丁基橡胶； 丙烯酸酯橡胶； 三元乙丙橡胶； 二元乙丙橡胶； 聚醚。 由于橡胶中除碳、氢、氧以外的元素随碳化易分解，所以本方法不适用于丁腈橡胶和氯丁橡胶。 由于硫化使用其他元素与橡胶烃结合，因此虽然产生某些炭化，但误差却较小。其他引起正误差的来源与混合物中存在的填料和结合硫有关。当加热到裂解温度时，陶土、硅酸盐和白炭黑等填料会失去水分，由此产生的失重可能达到填料质量的15%。有些炭黑也相似，当加热时将失去挥发分（主要是烃类）。此外，某些不能用溶剂抽提的方法除去的物质，如铅盐、钴盐、酚醛树脂和其他树脂等当加热时间同样也将产生裂解而失重。因此，本方法也不适用于含有上述在热解温度下产生失重物质的混炼胶和硫化橡胶。

Rubber.Determination of total hydrocarbon.Pyrolytic method

HG/T 3323-2008 橡胶浆粘度测定方法（旋转粘度计法）

警告：使用本标准的人员应有正规实验室工作的实践经验。本标准并未指出所有可能的安全问题。使用者有责任采取适当的安全和健康措施，并保证符合国家有关法规规定的条件。 本标准规定了使用旋转粘度计测定橡胶浆粘度的方法。 本标准适用于采用旋转粘度计法进行橡胶浆粘度的测定。

Rubber latex bord-determination of viscosity(Rotating viscometer method)

HG/T 3836-2008 硫化橡胶.滑动磨耗试验方法

本标准规定了用格拉西里磨耗机测定硫化橡胶滑动磨耗的试验方法。 本标准适用于硫化橡胶滑动磨耗的测定。

Vulcanized rubber.Test method for abrasion resistance under slipping

ASTM D2000-08 汽车用橡胶制品的标准分类系统

1.1 This classification system covers the properties of vulcanized rubber materials (natural rubber, reclaimed rubber, synthetic rubbers, alone or in combination) that are intended for, but not limited to, use in rubber products for automotive applications. Note 18212;This classification system may serve many of the needs of other industries in much the same manner as SAE numbered steels. It must be remembered, however, that this system is subject to revision when required by automotive needs. It is recommended that the latest revision always be used. 1.2 This classification system is based on the premise that the properties of all rubber products can be arranged into characteristic material designations. These designations are determined by types, based on resistance to heat aging, and classes, based on resistance to swelling in oil. Basic levels are thus established which, together with values describing additional requirements, permit complete description of the quality of all elastomeric materials. 1.3 In all cases where the provisions of this classification system would conflict with those of the detailed specifications for a particular product, the latter shall take precedence. Note 28212;When the rubber product is to be used for purposes where the requirements are too specific to be completely prescribed by this classification system, it is necessary for the purchaser to consult the supplier in advance, to establish the appropriate properties, test methods, and specification test limits. 1.4 The values stated in SI units are to be regarded as standard.

Standard Classification System for Rubber Products in Automotive Applications

ASTM D7427-08e2 天然橡胶和其乳胶衍生产品中四种主要致敏蛋白质 (Hev b 1, 3, 5和6. 02) 免疫学测量的标准试验方法

5.1 IgE-mediated allergic reactions to protein allergens in natural rubber latex derived from the Hevea brasiliensis tree emerged in the 1990s as a concern with occasional allergic manifestations. Symptoms encompassing hives, uriticaria, rhinitis, asthma and anaphylaxis have all been reported in latex allergic individuals exposed to products derived from natural rubber latex. 5.2 Since no safe level of Hevea latex allergen exposure is known, avoidance is the primary mode of treating latex allergy. 5.3 As a result of investigations conducted by many scientists across the world, thirteen latex allergens have so far been identified and categorized by the Allergen Nomenclature Sub-Committee of the International Union of Immunological Societies (IUIS) as Hev b 1 to Hev b 13 (Table 1) (see Specification D1193). Reported sensitization rates for these allergenic Hev b proteins vary among the many reports as a result of differences in the study populations, IgE antibody assay methods and the quality of the Hev b allergens used as calibrators and quality control reagents in the analysis. Most studies, however, agree that Hev b 1 and Hev b 3 are important allergens for individuals (for example, children with spina bifida) who are exposed through mucosal contact as a result of multiple surgeries or latex catheter use for an extended period of time. Additionally, investigators performing sensitization studies also agree that Hev b 5 and Hev b 6.02 are important allergens that may elicit sensitization in genetically-predisposed individuals who are exposed to natural rubber latex (2-4). On the basis of these clinical studies, assays for these four allergenic proteins (that is, Hev b 1, Hev b 3, Hev b 5 and Hev b 6.02) have been developed and they are thus the subject of this standard. Adoption of immunoenzymetric assay reagents and standard proteins needed to quantify other latex allergens (other than Hev b 1, 3, 5, and 6.02) in extracts of natural rubber latex products will require separate documentation and validation.TABLE 1 Characterized Latex AllergensNote 1—Hev b 1, 3, 5. and 6.02 have been set in boldface because these are the allergenic proteins that are quantified by the immunoenzymetic assays covered in this standard. Name

Standard Test Method for Immunological Measurement of Four Principal Allergenic Proteins (Hev b 1, 3, 5 and 6.02) in Natural Rubber and Its Products Derived from Latex

ASTM D1566-08 橡胶相关的标准术语

1.1 This terminology covers definitions of technical terms used in the rubber industry. Terms that are generally understood or adequately defined in other readily available sources are not included. 1.2 Definitions for terms that have been established by other bodies recognized as expert in the field will, after ballot approval, be inserted in this terminology without change, and the source of the definition will be identified. Exceptions to this rule will be where the meaning of the term as used in the rubber industry is different from the common meaning of the term. 1.3 Users of this terminology who require mathematical expressions for the time and temperature dependent physical properties of some terms found in this standard should refer to Guide D 5992 and other standards listed under referenced documents. Selected terms from Guide D 5992 may be found in Annex A1. 1.4 Although this terminology standard avoids the inclusion of jargon and archaic terms as much as possible, some terms have been retained for historical reasons.

Standard Terminology Relating to Rubber

ASTM D926-08(2013) 橡胶属性标准试验方法:塑性与回复性行(平行板法)测试

4.1 The plasticity number and the recovery of the test specimen are related to the flow properties and the elastic properties, respectively, and may be useful in predicting processing characteristics, such as ease of forming and extrusion characteristics. 4.1.1 In this test method, plasticity is measured in an inverse manner, as noted by the final height of the specimen. Thus, high plasticity rubbers (high degree of flow during test) are indicated by a low plasticity number. 1.1 This test method covers the determination of plasticity and recovery of unvulcanized rubber by means of the parallel plate plastometer. Uncompounded, compounded, and reclaim rubber may be tested. Note 1—ISO 2007 and Test Method D3194 use a principle similar to this test method although the apparatus, test conditions, and procedure are different. 1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.3 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.

Standard Test Method for Rubber Propertymdash;Plasticity and Recovery 40;Parallel Plate Method41;

ASTM D2663-08 橡胶中碳黑分散度的标准试验方法

Visual dispersion ratings correlate with certain important physical properties of the compound. A rating of 5 indicates a state of dispersion developing near maximum properties, while a rating of 1 would indicate a state of dispersion developing considerably depressed properties. Normally, the visual dispersion ratings indicate the following levels of compound quality: Visual Dispersion RatingClassification 4 to 5High 3 to 4Intermediate 2 to 3Low 1 to 2Very low1.1 These test methods cover the degree of dispersion of carbon black in rubber. Three test methods are described as follows: Sections Test Method A—Visual Inspection 3-11 Test Method B—Agglomerate Count12-23 Test Method C—Microroughness Measurement with Profilometer24-34 Test Method D—Microroughness Measurement with IFM35-43 1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.3 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.

Standard Test Methods for Carbon Blackx2014;Dispersion in Rubber

ASTM D5099-08(2013) 橡胶;采用毛细管流变仪测量加工特性的标准试验方法

4.1 These test methods are useful for characterization of raw, or compounded, unvulcanized rubber in terms of viscosity, or resistance to flow. 4.2 The data produced by these test methods have been found useful for both quality control tests and compound development. However, direct correlation with factory conditions is not implied. 4.3 Flow performance data permits quality control of incoming raw rubbers because the flow parameters are sensitive to molecular weight and to molecular weight distribution. Therefore, these test methods may distinguish differences between lots. 4.4 The shear viscosity or flow viscosity of compounded rubber batches in the raw (unvulcanized) state will not only be sensitive to the raw polymer molecular properties, but will also be affected by type and amount of filler, plasticizer or softener levels, amount and type of copolymer blend, and other compounding materials. These test methods can serve as a quality control tool for either incoming custom mixed compounds or for in-house quality assurance checks on production mixing. These test methods are useful for research and development of new products by measuring the rheological effect on a rubber compound of new polymers, resins, softeners, etc. 1.1 These test methods describe how capillary rheometry may be used to measure the rheological characteristics of rubber (raw or compounded). Two methods are addressed: Method A—using a piston type capillary rheometer, and Method B—using a screw extrusion type capillary rheometer. The two methods have important differences, as outlined in 7 – 10 and 11 – 14, respectively. 1.2 These test methods cover the use of a capillary rheometer for the measurement of the flow properties of thermoplastic elastomers, unvulcanized rubber, and rubber compounds. These material properties are related to factory processing. 1.3 Since piston type capillary rheometers impart only a small amount of shearing energy to the sample, these measurements directly relate to the state of the compound at the time of sampling. Piston type capillary rheometer measurements will usually differ from measurements with a screw extrusion type rheometer, which imparts shearing energy just before the rheological measurement. 1.4 Capillary rheometer measurements for plastics are described in Test Method D3835. 1.5 The values stated in SI units are to be regarded as 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.

Standard Test Methods for Rubbermdash;Measurement of Processing Properties Using Capillary Rheometry