E39 液压油液 标准查询与下载

GB/T 37222-2018 难燃液压液喷射燃烧持久性测定 空锥射流喷嘴试验法

Determination of spray flame persistence of fire-resistant fluids—Hollow-cone nozzle method

GB 12981-2012 机动车辆制动液

警告：本产品不属于易燃危险品，但对眼睛及皮肤有刺激作用，一旦接触应立即用清水冲洗；本产品对油漆有侵蚀作用。 范围：本标准规定了用于机动车辆液压制动和液压离合系统的非石油基制动液的要求和试验方法、检验规则及标志、包装、运输和贮存。 本标准适用于与丁苯橡胶（SBR）或三元乙丙橡胶（EPDM）制作的密封件相接触，以非石油基原料为基础液，并加入多种添加剂制成的机动车辆制动液。 本标准不适用于极地环境条件下使用的机动车辆制动液。

Motor vehicle brake fluids

GB 11118.1-2011 液压油（L-HL、L-HM、L-HV、L-HS、L-HG）

警告：如果不遵守适当的防范措施，本标准所属产品在生产、贮运和使用等过程中可能存在危险。本标准无意对与本产品有关的所有安全问题提出建议。用户在使用本标准之前，有责任建立适当的安全和防护措施，并确定相关规章限制的适用性。 本标准规定了 L-HL、L-HM(高压）、L-HM(普通）、L-HV、L-HS和L-HG液压油的分类和标记、要求和试验方法、检验规则及标志、包装、运输和贮存。 本标准适用于在流体静压液压系统中使用的液压油。

Hydraulic fluids of L-HL、L-HM、L-HV、L-HS and L-HG type

GB/T 21449-2008 水-乙二醇型难燃液压液

本标准规定了以水和二元醇（包括乙二醇、二乙二醇、丙二醇等）为基础组分，添加抗磨剂、油性剂、防锈剂等多种添加剂而制成的水-乙二醇型难燃液压液的要求和试验方法、检验规则及标志、包装、运输和贮存。 本标准所属产品适用于冶金、机械制造、采矿等行业中有难燃性需求的液压系统。例如：炼钢厂的电炉液压系统、高速线材机液压系统、热连轧厂的卷板机液压系统等。

Water glycol fire-resistant hydraulic fluids

GB 12981-2003 机动车辆制动液

本标准规定了机动车辆液压制动系统使用的非石油基型制动液的要求和试验方法。 本标准规定的产品适用于以丁苯橡胶或乙丙橡胶作为密封件、皮碗或双唇型密封材料的机动车辆液压制动系统。本标准规定的产品不推荐用于极地环境条件。 本标准适用于机动车辆制动液产品鉴定定型、出厂检验、用户复验等，也可作为国家质量技术监督机构进行市场产品质量抽检的技术依据。

Motor vehicle brake fluids

GB 10830-1998 机动车制动液使用技术条件

本标准规定了机动车制动系统用制动液的使用技术条件。 本标准适用于机动车制动系统用制动液的产品出厂检验、使用检验、社会质量抽查和行业统检等范围。

Specifications of using motor vehicle brake fluid

GB/T 16898-1997 难燃液压液使用导则

本标准对难燃液工作特性、优缺点以及选用难燃液应考虑的因素等提供了详尽的指南。规定了减少在难燃液使用中所引起困难应采取的措施，以及用不同的难燃液置换时必须采取的措施。 本标准还说明了使用难燃液的液压回路设置。

Guidelines for use of fire-resistant hydraulic fluids

GB 15058-1994 含铅普通标准汽油

本标准规定了含铅普通标准汽油的技术条件。 本标准适用于液体烃类（不包括合成汽油、热裂化汽油、焦化汽油和粗苯）调配而成，并加有适量铅抗爆剂和50ppm抗氧防胶剂的汽油。 符合本标准的产品适用于点燃式汽油发动机功率、油耗、废气排放等性能的鉴定、验收、检测、评定、认证以及仲裁试验。

Reference gasoline(leaded regular)

GB 11118.1-1994 矿物油型和合成烃型液压油

本标准规定了矿物油型和合成烃型液压油的技术条件。 本标准所属产品主要适用于流体静压液压系统，也可适用于其他机械设备。

Hydraulic fluids of mineral oil type and synthetic hydrocarbon type

BS ISO 11365:2017 石油和相关产品.三芳基磷酸酯涡轮机控制液的维护要求和指南

Petroleum and related products. Requirements and guidance for the maintenance of triaryl phosphate ester turbine control fluids

ISO 11365:2017 石油和相关产品.三芳基磷酸酯涡轮机控制液的维护要求和指南

This document is applicable to the use of triaryl phosphate esters as fire-resistant fluids for turbine control and other hydraulic systems in power generation. These fluids fall under category HFDR of This document is intended to: — assist the power equipment operator to maintain the fluid in a condition that will ensure the safe and reliable operation of the turbine while maximizing fluid life; — recommend procedures for examining consignments of new fluid and monitoring the fluid in use; — provide information on the safe handling, storage and disposal of the fluid; — offer background information on the causes of fluid degradation.

Petroleum and related products - Requirements and guidance for the maintenance of triaryl phosphate ester turbine control fluids

DIN 51524-3:2017 压力液体.液压油.第3部分:HLP液压油.最低要求

Pressure fluids - Hydraulic oils - Part 3: HVLP hydraulic oils, Minimum requirements

DIN 51524-1:2017 压力液体.液压油.第1部分:HL液压油.最低要求

Pressure fluids - Hydraulic oils - Part 1: HL hydraulic oils, Minimum requirements

DIN 51524-2:2017-06 压力液体.液压油.第2部分:HLP液压油.最低要求

Pressure fluids - Hydraulic oils - Part 2: HLP hydraulic oils, Minimum requirements

JIS K 2233:2017 非石油基摩托车制动液

Non-petroleum base motor vehicle brake fluids

ASTM D8029-17a 可生物降解的低水生生物毒性液压液的标准规格

1.1 This specification covers performance requirements for biodegradable hydraulic fluids with low aquatic toxicity used in industrial/mobile hydraulic applications. 1.2 In some cases, biodegradable fluids have been found to perform differently than traditional mineral oils, thus separate performance requirements are desirable. 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.4 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.

Standard Specification for Biodegradable, Low Aquatic Toxicity Hydraulic Fluids

ASTM D8029-17 可生物降解的低水生生物毒性液压液的标准规格

1.1 This specification covers performance requirements for biodegradable hydraulic fluids with low aquatic toxicity used in industrial/mobile hydraulic applications. 1.2 In some cases, biodegradable fluids have been found to perform differently than traditional mineral oils, thus separate performance requirements are desirable. 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, health and environmental practices and determine the applicability of regulatory limitations prior to use. 1.4 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.

Standard Specification for Biodegradable, Low Aquatic Toxicity Hydraulic Fluids

ASTM D7665-17 评估可生物降解传热流体的标准指南

4.1 The significance of each test method depends upon the system in use and the purpose of the test method as listed under Section 5. Use the most recent editions of ASTM test methods. 1.1 This guide2 covers general information, without specific limits, for selecting standard test methods for evaluating heat transfer fluids for quality and aging. These test methods are considered particularly useful in characterizing biodegradable water-free heat transfer fluids in closed systems. 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 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.

Standard Guide for Evaluation of Biodegradable Heat Transfer Fluids

ASTM D6046-17 环境影响液压液的标准分类

4.1 This classification establishes categories of hydraulic fluids which are distinguished by their response to certain standardized laboratory procedures. These procedures indicate the possible response of some environmental compartments to the introduction of the hydraulic fluid. One set of procedures measures the aerobic aquatic biodegradability (environmental persistence) of the fluids and another set of procedures estimates the acute ecotoxicity effects of the fluids. 4.1.1 Although this classification includes categories for both persistence and ecotoxicity, there is no relationship between the two categories. They may be used independently of each other, that is, a hydraulic fluid can be categorized with respect to both sets of laboratory procedures, or to persistence but not ecotoxicity, or to ecotoxicity but not persistence. 4.1.2 There is no relationship between the categories achieved by a hydraulic fluid for persistence and for ecotoxicity. The placing of a hydraulic fluid with regard to one set of categories has no predictive value as to its placement with regard to the other set of categories. 4.2 The test procedures used to establish the categories of hydraulic fluids are laboratory standard tests and are not intended to simulate the natural environment. Definitive field studies capable of correlating test results with the actual environmental impact of hydraulic fluids are usually site specific and so are not directly applicable to this classification. Therefore, the categories established by this classification can serve only as guidance to estimate the actual impact that the hydraulic fluids might have on any particular environment. 4.3 This classification can be used by producers and users of hydraulic fluids to establish a common set of references that describe some aspects of the anticipated environmental impact of hydraulic fluids which are incidental to their use. 4.4 Inclusion of a hydraulic fluid in any category of this classification does not imply that the hydraulic fluid is suitable for use in any particular hydraulic system application. 4.5 The composition of hydraulic fluids may change with use and any change could influence the environmental impact of a used hydraulic fluid. Therefore, the classification of a hydraulic fluid may change upon use depending on the type and extent of the use. 1.1 This classification covers all unused fully formulated hydraulic fluids in their original form. 1.2 This classification establishes categories for the impact of hydraulic fluids on different environmental compartments as shown in Table 1. Fluids are assigned designations within these categories; for example PwL, Pwe, and so forth, based on performance in specified tests. 1.3 In the current version of this classification the aspects of environmental impact included are environmental persistence of which biodegradability is one component and......

Standard Classification of Hydraulic Fluids for Environmental Impact

SH/T 0587-2016 二硫化钼锂基润滑脂

Molybdenum disulfide lithium based grease