E39 液压油液 标准查询与下载

NF T60-192-1*NF EN ISO 20783-1:2011 石油和相关产品.抗火液体的乳剂稳定性测定.第1部分:高水基乳化液(HFAE)类液体

Petroleum and related products - Determination of emulsion stability of fire-resistant fluids - Part 1 : fluids in category HFAE.

BS DD ISO/TS 11365:2011 石油和相关产品.三芳基磷酸酯涡轮机控制液的维护和使用指南

Petroleum and related products. Guidance for the maintenance and use of triaryl phosphate ester turbine-control fluids

NF T60-169*NF EN ISO 20843:2011 石油和相关产品.HFAE、HFAS和HFC类别中抗燃液压油pH值的测定

Petroleum and related products - Determination of pH of fire-resistant fluids within categories HFAE, HFAS and HFC.

ISO/TS 11365:2011 石油和相关产品.三芳基磷酸酯涡轮机控制液的使用和维护指南

WARNING — The use of this Technical Specification may involve hazardous materials, operations and equipment. This Technical Specification does not purport to address all of the safety problems associated with its use. It is the responsibility of the user of this Technical Specification to establish appropriate safety and health practices and to determine the applicability of regulatory limitations prior to use. This Technical Specification applies to the use of triaryl phosphate esters as fire-resistant fluids for turbine control and other hydraulic systems in power generation. This Technical Specification is intended to - help power equipment operators appreciate the important properties of triaryl phosphate esters; - provide information on their safe handling, storage and use. This Technical Specification addresses the causes of fluid deterioration and sets out procedures for examining consignments of new fluid, for monitoring the fluid in use and for maintaining an adequate fluid condition.

Petroleum and related products - Guidance for the maintenance and use of triaryl phosphate ester turbine-control fluids

NF T60-635*NF ISO 7745:2011 液压油.耐火(FR)流体.使用导则和要求

Hydraulic fluid power - Fire-resistant (FR) fluids - Requirements and guidelines for use.

DIN EN ISO 4404-2:2011 石油和相关产品.难燃液压液抗腐蚀性的测定.第2部分:无水油液(ISO 4404-2-2010).德文版本EN ISO 4404-2-2010

This part of ISO 4404 specifies a procedure for the determination of the corrosion-inhibiting properties of nonaqueous hydraulic fluids within the category HFD, as classified in ISO 6743-4.

Petroleum and related products - Determination of the corrosion resistance of fire-resistant hydraulic fluids - Part 2: Non-aqueous fluids (ISO 4404-2:2010); German version EN ISO 4404-2:2010

BS ISO 7745:2010 液压传动 耐火液压油 使用导则和要求

Hydraulic fluid power. Fire-resistant FR fluids. Requirements and guidelines for use

BS EN ISO 20783-1:2011 石油及相关产品.测定抗燃液体的乳剂稳定性.HFAE类液体

Petroleum and related products. Determination of emulsion stability of fire-resistant fluids. Fluids in category HFAE

SAE AIR81C-2011 航空器液压机液体重要的物理和化学性能

This document discusses the relative merits of the physical and chemical properties of hydraulic fluids in relation to the aerospace hydraulic system design, and the related materials compatibility. The discussion in this report applies both to hydrocarbon and phophate ester based aircraft hydraulic fluids. In some cases, numerical limits are suggested, but, in general, the significance and effect of a property is noted qualitatively.

Importance of Physical and Chemical Properties of Aircraft Hydraulic Fluid

NB/SH/T 0849-2010 汽车空调合成冷冻机油

本标准规定了以聚乙二醇类合成油为基础油，添加抗氧化剂、防腐蚀剂等添加剂制成的汽车空调合成冷冻机油的要求和试验方法、检验规则、包装、标志、贮存和运输。 本标准所属产品适用于以R134a为制冷介质的汽车空调压缩机。适用温度范围：-30℃～+150℃。

Synthetic refrigerator oil for automotive air-condition

NB/SH/T 0846-2010 抗磨液压油高压柱塞泵试验法

本标准规定了用高压柱塞泵台架评定抗磨液压油的试验方法。 本标准采用国际单位制[SI]单位。 本标准的应用可能涉及到某些有危险性的材料、操作和设备，但并未对此有关的所有安全问题都提出建议，用户在使用本标准前有责任制定相应的安全和保护措施，并确定相关规章限制的适用性。

Test method for evaluating performance of hydraulic oil in high pressure piston type pump

ASTM E2657-11 测定易混合水的金属加工液中内毒素浓度的标准试验方法

The determination of endotoxin concentrations in metalworking fluids is a parameter that can be used in decision-making for prudent fluid management practices (fluid draining, cleaning, recharging or biocide dosages). This standard provides a test method for analysts who perform quantitative endotoxin analyses of water-miscible metalworking fluids.1.1 This test method covers quantitative methods for the sampling and determination of bacterial endotoxin concentrations in water miscible metalworking fluids (MWF). 1.2 Users of this test method need to be familiar with the handling of MWF. 1.3 This method gives an estimate of the endotoxin concentration in the sampled MWF. 1.4 This method replaces Test Method E2250. 1.5 This test method seeks to minimize inter-laboratory variation of endotoxin data but does not ensure uniformity of results. 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 Method for Determination of Endotoxin Concentrations in Water-Miscible Metalworking Fluids

NF T60-150-3:2011 石油及相关产品.使用透平油稳定性(TOST)试验测定防腐蚀矿物油和液体老化性.第3部分:合成液压液的无水规程.

Petroleum and related products - Determination of the ageing behaviour of inhibited oils and fluids using the TOST test - Part 3 : anhydrous procedure for synthetic hydraulic fluids.

ANSI/ASTM E2657:2011 水溶性金属加工液中内毒素浓度测定试验方法

Test Method for Determination of Endotoxin Concentrations in Water-Miscible Metalworking Fluids

ASTM D4998-11 评估拖拉机液压油耐磨特性的标准试验方法

Many modern tractor designs use the hydraulic fluid to lubricate the transmission and final drive gears. This test method is used to assess the suitability of the tractor hydraulic fluids as lubricants for transmission and final drive gears of tractors.1.1 This test method is used to screen lubricants for gear wear. It is primarily applicable to tractor hydraulic fluids but may be suitable for other applications. 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. Specific warning information is given in Sections 7 and 9.

Standard Test Method for Evaluating Wear Characteristics of Tractor Hydraulic Fluids

ANSI/ASTM E2694:2011 测量水溶性金属加工液中三磷酸腺苷含量的试验方法

Test Method for Measurement of Adenosine Triphosphate in Water-Miscible Metalworking Fluids

ANSI/ASTM E2148b:2011 金属加工或金属切削液卫生与安全相关文献的使用指南

Guide For Using Documents Related To Metalworking Or Metal Removal Fluid Health And Safety

ASTM D6006-11 液流生物降解性评定的标准指南

This guide discusses ways to assess the likelihood that a hydraulic fluid will undergo biodegradation if it enters an environment that is known to support biodegradation of some substances, for example the material used as the positive control in the test. The information can be used in making or assessing claims of biodegradability of a fluid formula. Biodegradation occurs when a fluid interacts with the environment, and so the extent of biodegradation is a function of both the chemical composition of the hydraulic fluid and the physical, chemical, and biological status of the environment at the time the fluid enters it. This guide cannot assist in judging the status of a particular environment, so it is not meant to provide standards for judging the persistence of a hydraulic fluid in any specific environment either natural or man-made. If any of the tests discussed in this guide gives a high result, it implies that the hydraulic fluid will biodegrade and will not persist in the environmental compartment being considered. If a low result is obtained, it does not mean necessarily that the substance will not biodegrade in the environment, but does mean that further testing is required if a claim of biodegradability is to be made. Such testing may include, but is not limited to, other tests mentioned in this guide or simulation tests for a particular environmental compartment.1.1 This guide covers and provides information to assist in planning a laboratory test or series of tests from which may be inferred information about the biodegradability of an unused fully formulated hydraulic fluid in its original form. Biodegradability is one of three characteristics which are assessed when judging the environmental impact of a hydraulic fluid. The other two characteristics are ecotoxicity and bioaccumulation. 1.2 Biodegradability may be considered by type of environmental compartment: aerobic fresh water, aerobic marine, aerobic soil, and anaerobic media. Test methods for aerobic fresh water, aerobic soil and anaerobic media have been developed that are appropriate for the concerns and needs of testing in each compartment. 1.3 This guide addresses releases to the environment that are incidental to the use of a hydraulic fluid but is not intended to cover situations of major, accidental release. The tests discussed in this guide take a minimum of three to four weeks. Therefore, issues relating to the biodegradability of hydraulic fluid are more effectively addressed before the fluid is used, and thus before incidental release may occur. Nothing in this guide should be taken to relieve the user of the responsibility to properly use and dispose of hydraulic fluids. 1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.5 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 Guide for Assessing Biodegradability of Hydraulic Fluids

ASTM D7752-11 评估液压油混合物兼容性的标准操作规程

Hydraulic fluid compatibility is important to hydraulic equipment users because a mixture of incompatible fluids may produce a substance that is markedly inferior to its constituents. Even in identical base stocks, the formation of a precipitate may occur as a result of additive interactions. In this practice, compatibility will be determined using ISO 13357-1 filterability test method. Since hydraulic systems utilize fine-filtration to protect components from wear, incompatibility often exhibits itself as premature filter plugging. Because of such occurrences, suppliers recommend evaluating the compatibility of hydraulic fluids prior to mixing. A flowchart is provided in Annex A1 to aid in interpretation of the test results and hydraulic system conversion. Although new hydraulic fluids may be compatible, in-service fluid of the same type may be degraded or contaminated to such an extent that the new fluid added may not be compatible with the system fluid. In-service fluid compatibility with new fluid additions should be evaluated on a case by case basis. The oxidation resistance and wear protection of different fluids of the same type can vary widely, and compatibility does not imply equivalent performance.1.1 This practice covers the compatibility of mixtures of hydraulic fluids as defined by Specifications D6158, DIN 51524, ISO 11158, and ISO 15380. 1.2 This practice can be used to evaluate new (unused) lubricant compatibility or the effects of combining new (replacement) lubricant with in-service (original) lubricant in the system. 1.3 To evaluate primary compatibility using this method, the replacement fluid must pass the ISO 13357-1 Stage II filterability test. The original fluid is not required to pass ISO 13357-1 filterability test, Stage I or II. 1.4 Primary testing is conducted on fluid mixtures in 2:98, 10:90, and 50:50 ratios using the ISO 13357-1 Filterability Test, Stage II. 1.5 Secondary testing is suggested when circumstances indicate the need for additional testing. 1.6 This practice does not evaluate the wear prevention characteristics, load carrying capacity, or the mechanical shear stability of lubricant mixtures while in service. If anti-wear (AW), extreme pressure (EP), or shear stability are to be evaluated, further testing of these parameters may be required. 1.7 This practice does not purport to cover all test methods that could be employed. 1.8 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 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 and health practices and determine the applicability of regulatory limitations prior to use.

Standard Practice for Evaluating Compatibility of Mixtures of Hydraulic Fluids

ISO 7745:2010 液压传动.耐火液压油.使用导则和要求

This International Standard specifies the operational characteristics for the various categories of fire-resistant fluids defined by ISO 6743-4. This International Standard details the factors to be considered when selecting a fluid from these categories for a proposed application. This International Standard identifies difficulties which might arise from the use of such fluids and indicates how they may be minimized. Appropriate procedures are given for replacing one fluid with another from a different category. Health and safety aspects when handling and disposing of fire-resistant fluids are also covered. This International Standard does not apply to fire-resistant fluids used in the hydraulic systems of commercial or military aircraft. The appropriate aviation standards are also usually applied where aircraft hydraulic fluids are filled into ground-based systems.

Hydraulic fluid power - Fire-resistant (FR) fluids - Requirements and guidelines for use