J21 润滑与润滑装置 标准查询与下载

JB/T 8810.1-2016 油脂润滑泵 第1部分：电动润滑泵（40MPa）

Grease Lubrication Pump Part 1: Electric Lubrication Pump (40MPa)

JB/T 12694-2016 单线分配器(31.5MPa)

Single line distributor (31.5MPa)

JB/T 12695-2016 动静压轴承用稀油润滑装置

Thin oil lubrication device for dynamic and static pressure bearings

JB/T 8810.3-2016 油脂润滑泵 第3部分：多点润滑泵（31.5MPa）

Grease lubrication pump part 3: multi-point lubrication pump (31.5MPa)

JB/T 12693-2016 油气润滑站

Oil and gas lubrication station

JB/T 12701-2016 润滑系统 自动换向阀(40MPa)

Lubrication system automatic reversing valve (40MPa)

JB/T 8462-2016 双线分配器（40MPa）

Two-line distributor (40MPa)

JB/T 12692-2016 油气分配器

Oil and gas distributor

JB/T 12704-2016 自动控制润滑泵站(40MPa)

Automatic control lubrication pump station (40MPa)

EN ISO 6743-4:2015 润滑剂,工业用油和有关产品(L类).分类.第4部分:H系列（液压系统）（ISO 6743-4:2015）

Dieser Teil von ISO 6743 beinhaltet die genaue Klassifikation von Flüssigkeiten der Familie H (Hydraulische Systeme), die zur Klasse L (Schmierstoffe, Industrieöle und verwandte Erzeugnisse) gehören. Der vorliegende Teil ist dafür vorgesehen, in Zusammenhang mit ISO 6743-99 gelesen zu werden. Bremsflüssigkeiten für Kraftfahrzeuge oder Hydraulikflüssigkeiten für Flugzeuge sind in diesem Klassifikationssystem nicht enthalten.

Lubricants@ industrial oils and related products (class L) - Classification - Part 4: Family H (Hydraulic systems)

JB/T 8522-2014 稀油润滑装置 型式、基本参数与尺寸

本标准规定了稀油润滑装置的基本参数、系统原理、主要元件与部件、控制要求、型式、尺寸与标记。本标准适用于机械设备稀油循环润滑系统的稀油润滑装置(以下简称装置)。

The oil lubrication equipment.The type, basic parameter and size

DIN 69090-4:2014 MQL加工技术. 第4部分: 攻丝夹头和锁片/冷成型锁片

MQL processing technology - Part 4: Tapping chuck and tab/cold forming tab

ASTM E2793-10 E274摩擦力测量系统和设备的评估,校正,和相关性的标准指南

Friction characteristics of road surfaces are monitored by friction measurement systems, and the operating procedure for the use of these systems is found in Test Method . However, mechanical or electronic system anomalies, over time, could result in measurement errors or inaccuracies. This requires that each of these systems be evaluated, calibrated and correlated on a regular basis. This guide defines the process of ensuring that Test Method systems produce consistent and accurate data and correlating the Test Method systems to national benchmark Test Method systems.1.1 This guide describes the evaluation, calibration, and correlation of Test Method friction measurement systems as conducted at a Field Test Center (FTC) . The evaluation, calibration and correlation process; using the specialized equipment, facilities, surfaces, trained personnel, and Area Reference Friction Measurement Systems (ARFMS) available at each FTC; are conducted using the procedures described below. 1.2 The FTC complies with the requirements of Guide . Guide requires a more stringent calibration process and requires all ARFMS system be correlated together once a year on three surfaces at three speeds with twelve repeats each for a total of 108 pairs. 1.3 This guide is offered as a process to identify and quantify the variables that affect system performance, to minimize the effect of these variables, and to provide a means to relate Test Method friction measurement systems to reference skid measurement systems. 1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered 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 the Evaluation, Calibration, and Correlation of E274 Friction Measurement Systems and Equipment

ASTM G204-10 评估相互接触的硬质表面在磨损条件下发生的损坏的标准试验方法

Fretting wear and corrosion are potential serviceability factors in many machines. They have always been factors in shipping finished goods by truck or rail. Packing materials rubbing on a product in transit can make the product unsalable. Beverage cans and food cans can lose their trade dress and consumers often equate container damage to content damage. Clamping surfaces on injection molds are damaged by fretting motions on clamping. This damage is a significant cause for mold replacement. Machines in shipment are subject to fretting damage in the real area of contact of the bearings on the machines. Operating vibration and movement of mechanically clamped components, like screwed assemblies, can produce damage on the clamped faces and other faces that affects machine function or use. Many times fretting damage appears in the form of pits, which are stress concentrators that can lead to mechanical fractures. Electrical contacts in any device that is subject to vibration are susceptible to failure (open circuit) due to fretting damage at real areas of contact. This test method is intended to be used to identify mating couples that may be less prone to fretting damage than others. This information in turn is used to select materials of construction or surface treatments that are less prone to fretting damage for applications where fretting conditions are known or perceived to exist.1.1 This test method covers the studying or ranking the susceptibility of candidate materials to fretting corrosion or fretting wear for the purposes of material selection for applications where fretting corrosion or fretting wear can limit serviceability. 1.2 This test method uses a tribological bench test apparatus with a mechanism or device that will produce the necessary relative motion between a contacting hemispherical rider and a flat counterface. The rider is pressed against the flat counterface with a loading mass. nbsp;nbsp;nbsp;The test method is intended for use in room temperature air, but future editions could include fretting in the presence of lubricants or other environments. 1.3 The purpose of this test method is to rub two solid surfaces together under controlled fretting conditions and to quantify the damage to both surfaces in units of volume loss for the test method. 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 Test Method for Damage to Contacting Solid Surfaces under Fretting Conditions

ASTM G203-10 测定往复运动摩擦系统中的摩擦能耗散的标准指南

Many sliding systems exhibit intermittent high friction force excursions compared to competing tribosystems. However, where friction forces or friction coefficients are averaged, the test data may show that the two systems have the same friction characteristics, when in fact they were not the same; there was a friction “problem” in the one with the periodic aberrations. The FED takes into account all friction forces that occur in the test increment. It is all of the friction energy that the couple dissipated in the designated test duration. It captures the friction profile of a system in a single number that can be used to screen candidate couples for friction characteristics. If the friction energy used in a reciprocating tribosystem is of concern this metric along with the friction recording, average coefficient of friction, and standard deviation of the force readings, produces the most meaningful data. It is a metric of the energy loss in a tribosystem.1.1 This guide covers and is intended for use in interpreting the friction forces recorded in reciprocating tribosystems. The guide applies to any reciprocating tribosystem, whether it is a wear or fretting test or an actual machine or device. 1.2 nbsp;nbsp;nbsp;The energy dissipation guide was developed in analyzing friction results in the Test Method G133 reciprocating ball-on-flat test, but it applies to other ASTM or ISO reciprocating tests. This technique is frequently used to record the friction response in fretting tribosystems. 1.3 Specimen material may play some role in the results if the materials under test display viscoelastic behavior. This guide as written is for metals, plastics, and ceramics that do not display viscoelastic behavior. It also applies to lubricated and non-lubricated contacts. 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 Determining Friction Energy Dissipation in Reciprocating Tribosystems

ASTM E2793-10e1 E274摩擦力测量系统和设备的评估,校正,和相关性的标准指南

Friction characteristics of road surfaces are monitored by friction measurement systems, and the operating procedure for the use of these systems is found in Test Method . However, mechanical or electronic system anomalies, over time, could result in measurement errors or inaccuracies. This requires that each of these systems be evaluated, calibrated and correlated on a regular basis. This guide defines the process of ensuring that Test Method systems produce consistent and accurate data and correlating the Test Method systems to national benchmark Test Method systems.1.1 This guide describes the evaluation, calibration, and correlation of Test Method friction measurement systems as conducted at a Field Test Center (FTC) . The evaluation, calibration and correlation process; using the specialized equipment, facilities, surfaces, trained personnel, and Area Reference Friction Measurement Systems (ARFMS) available at each FTC; are conducted using the procedures described below. 1.2 The FTC complies with the requirements of Guide . Guide requires a more stringent calibration process and requires all ARFMS system be correlated together once a year on three surfaces at three speeds with twelve repeats each for a total of 108 pairs. 1.3 This guide is offered as a process to identify and quantify the variables that affect system performance, to minimize the effect of these variables, and to provide a means to relate Test Method friction measurement systems to reference skid measurement systems. 1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered 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 the Evaluation, Calibration, and Correlation of E274 Friction Measurement Systems and Equipment

ASTM F2649-08a 波纹状高密度聚乙烯(HDPE)油脂拦截槽用规范

1.1 This specification covers material, design, structural performance, and manufacturing practice requirements for monolithic or sectional corrugated polyethylene grease interceptor tanks with volumes equal to or greater than 333 gal (1,260 L). 1.2 The corrugated high density polyethylene (HDPE) grease interceptor tanks are placed between commercial food service (kitchen) drains and sanitary sewer interceptors to minimize the impact of commercial food service effluent containing grease, oils, soap scum and other typical commercial food service wastes on the sanitary sewer system. Typical sources of commercial kitchen effluent are scullery sinks, pot and pan sinks, dishwashers, soup kettles and floor drains where grease containing materials may exist. 1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.4 This specification covers pipe and fittings for horizontally laid corrugated HDPE grease interceptor tanks as illustrated in Fig. 1. 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 Specification for Corrugated High Density Polyethylene (HDPE) Grease Interceptor Tanks

JB/T 10465-2004 稀油润滑装置.技术条件

本标准规定了稀油润滑装置产品的技术要求、试验方法及标志、包装、运输、储存。 　　本标准适用于JB/T 8522中的装置。

Thin oil lubrication equipment-Technical requirements

ASTM E2336-04(2009) 耐火润滑脂管道密封系统的标准试验方法

These test methods are intended to evaluate the ability of the grease duct enclosure system to do the following: Resist the effects of a standardized fire exposure, Retain its integrity, or Exhibit both properties dependent upon the type of test assembly involved during a predetermined test exposure. These test methods provide for the following measurements and evaluations where applicable: Capability of the enclosure material to resist flaming (combustion) when exposed to 1382°F (750°C). Loadbearing ability of the tested support system and fastening system to carry the load of the grease duct enclosure system during a standardized fire-engulfment test. Ability of a fire stop to meet the requirements of Test Method E 814 when used with a grease duct enclosure system. Ability of the enclosure material to resist the passage of flames and hot gases during a standardized fire resistance test and a standardized internal fire test. Transmission of heat through the grease duct and the enclosure material(s) during a standardized fire resistance test and a standardized internal fire test. Ability of the grease duct enclosure system to resist the passage of water during a standardized hose stream test. Comparative measurement of temperature aging of the enclosure material(s) when subjected to standardized cyclic thermal transmissions. These test methods do not provide the following: Full information as to performance of the enclosure material or the grease duct enclosure system constructed with components, densities, or dimensions other than those tested. Evaluation of the degree by which the enclosure material or grease duct enclosure system contributes to the fire hazard by generation of smoke, toxic gases, or other products of combustion. Measurement of the degree of control or limitation of the passage of smoke or products of combustion through the grease duct enclosure system. Measurement of flame spread over the surface of the grease duct enclosure system. Note 28212;The information in 5.3.2-5.3.4 is usually determined by other suitable test methods. For example, 5.3.4 is typically determined using Test Method E 84. In these test methods, the test specimens are subjected to one or more specific tests under laboratory conditions. When different test conditions are substituted or the end-use conditions are changed, it is not always possible by, or from, these test methods to predict changes to the characteristics measured. Therefore, the results of these laboratory tests are valid only for the exposure conditions described in these test methods. Various test methods in these test methods require a test specimen to be exposed to a standard fire that is controlled to achieve specified temperatures throughout a specified time period. The fire-engulfment and vertical fire resistance tests are followed by the application of a standardized hose stream test. These test methods provide a relative measure of the fire-test-response of comparable enclosure materials and grease duct enclosure systems under these exposure conditions. The fire exposure is not representative of all fire conditions because conditions vary with changes in the amount, nature and distribution of fire loading, ventilation, compartment size and configuration, and heat sink characteristics of the compartment. Variation from the test conditions or test specimen construction, such as size, materials, method of assembly, also affects the fire-test-response. For these reasons, evaluation of the variation is required for application to construction in the field. ......

Standard Test Methods for Fire Resistive Grease Duct Enclosure Systems

ANSI/ASTM E2336:2004 防火润滑脂管道封装系统的试验方法

Test Methods For Fire Resistive Grease Duct Enclosure Systems