欢迎来到麦多课文档分享! | 帮助中心 海量文档,免费浏览,给你所需,享你所想!
麦多课文档分享
全部分类
  • 标准规范>
  • 教学课件>
  • 考试资料>
  • 办公文档>
  • 学术论文>
  • 行业资料>
  • 易语言源码>
  • ImageVerifierCode 换一换
    首页 麦多课文档分享 > 资源分类 > PDF文档下载
    分享到微信 分享到微博 分享到QQ空间

    SAE J 2994-2015 Brake Hydraulic Component Low Pressure Flow Rate Measurement.pdf

    • 资源ID:1027754       资源大小:472.76KB        全文页数:12页
    • 资源格式: PDF        下载积分:10000积分
    快捷下载 游客一键下载
    账号登录下载
    微信登录下载
    二维码
    微信扫一扫登录
    下载资源需要10000积分(如需开发票,请勿充值!)
    邮箱/手机:
    温馨提示:
    如需开发票,请勿充值!快捷下载时,用户名和密码都是您填写的邮箱或者手机号,方便查询和重复下载(系统自动生成)。
    如需开发票,请勿充值!如填写123,账号就是123,密码也是123。
    支付方式: 支付宝扫码支付    微信扫码支付   
    验证码:   换一换

    加入VIP,交流精品资源
     
    账号:
    密码:
    验证码:   换一换
      忘记密码?
        
    友情提示
    2、PDF文件下载后,可能会被浏览器默认打开,此种情况可以点击浏览器菜单,保存网页到桌面,就可以正常下载了。
    3、本站不支持迅雷下载,请使用电脑自带的IE浏览器,或者360浏览器、谷歌浏览器下载即可。
    4、本站资源下载后的文档和图纸-无水印,预览文档经过压缩,下载后原文更清晰。
    5、试题试卷类文档,如果标题没有明确说明有答案则都视为没有答案,请知晓。

    SAE J 2994-2015 Brake Hydraulic Component Low Pressure Flow Rate Measurement.pdf

    1、 _ SAE Technical Standards Board Rules provide that: “This report is published by SAE to advance the state of technical and engineering sciences. The use of this report is entirely voluntary, and its applicability and suitability for any particular use, including any patent infringement arising ther

    2、efrom, is the sole responsibility of the user.” SAE reviews each technical report at least every five years at which time it may be revised, reaffirmed, stabilized, or cancelled. SAE invites your written comments and suggestions. Copyright 2015 SAE International All rights reserved. No part of this

    3、publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of SAE. TO PLACE A DOCUMENT ORDER: Tel: 877-606-7323 (inside USA and Canada) Tel: +1 724-776-49

    4、70 (outside USA) Fax: 724-776-0790 Email: CustomerServicesae.org SAE WEB ADDRESS: http:/www.sae.org SAE values your input. To provide feedback on this Technical Report, please visit http:/www.sae.org/technical/standards/J2994_201508 SURFACE VEHICLE RECOMMENDED PRACTICE J2994 AUG2015 Issued 2015-08 B

    5、rake Hydraulic Component Low Pressure Flow Rate Measurement RATIONALE The purpose of this recommended practice is to provide a standardized set of test conditions, methodology, data processing, and reporting for the measurement of fluid flows across brake hydraulic components. This recommended pract

    6、ice addresses these topics for the low pressure differential regime (defined as below 1 bar pressure differential, as typical on the feed side of a hydraulic pump). Below are noted key points in the rationale used by the founding task force to set the parameters in this recommended practice: Every e

    7、ffort was made to give the user flexibility to define the test specimen (as a component or subsystem comprised of multiple components) according to the measurement needs, but provide enough structure to ensure repeatable measurements from lab to lab. It is critical that a clear definition of the tes

    8、t specimen be determined before the test and documented with the test results. FOREWORD This Foreword is included with the intention of providing future users with information regarding the background and rationale that guided the development of this standard. The expectation of the founding task fo

    9、rce was that a similar test apparatus and test conditions could be usefully applied to a wide range of hydraulic components in the brake system. It was also determined that distinctly different flow regimes would generally be of interest. The low pressure differential regime, which is covered in thi

    10、s recommended practice, is generally below 1 bar pressure differential and would apply to components such as the master cylinder, master cylinder to chassis controls unit pipes, flex-hoses, and couplings, and check valves. It was anticipated that this would be useful towards characterizing flow that

    11、 affects the response time of hydraulic pumps due to fluid feed conditions (such as Electronic Stability Control and Active Cruise Control). The high pressure differential regime, which can involve very high, transient pressure differentials, usually results for components that are downstream of a h

    12、igh pressure source, such as a hydraulic pump or a power-boosted master cylinder during a panic apply or step-input condition. Flow measurement for hydraulic brake components with pressure differentials above 1 bar is addressed in recommended practice SAE J3052. Two test classifications are defined,

    13、 to fit with two commonly occurring needs for flow data, but with different priorities. The first classification seeks to establish uniform test conditions from lab to lab, so that components may be validated to a specification for flow characteristics. The second classification seeks to establish t

    14、he most realistic in-vehicle test set-up, so that flow data may be generated to support system-level modeling activities. A negative pressure source was specified in order to be consistent with actual vehicle usage for some of the components to which this document is expected to be applied. . SAE IN

    15、TERNATIONAL J2994 AUG2015 Page 2 of 12 A pressure range of 200 to 400 mBar was specified for component validation (Test Classification 1), in order to avoid excessively high flows (in ambient conditions) on the high end of the pressure range, and excessively low flows (in cold conditions) on the low

    16、 end of the pressure range. This pressure range was expanded up to 100 to 700 mBar for Test Classification 2, in order to generate a more thorough mapping of component performance versus operating conditions. The transient portion of the flow measurements (e.g., the ramp up from static fluid to full

    17、y developed flow) is not recorded or analyzed. The founding task force recognized that the transient behavior may govern system-level behavior such as pressure response times and therefore be of interest, however, the transient behavior may also be highly dependent upon the pressure source. The foun

    18、ding task force deemed that the complexity in the test set-up of insuring accurate transient/flow acceleration behavior would be prohibitive and in many cases unnecessary, and therefore based this document on steady-state flow characterization only. 1. SCOPE The SAE Recommended Practice specifies a

    19、standardize method and test procedure to measure low pressure differential ( 1 bar) flows. 2. REFERENCES There are no referenced publications specified herein. 3. TEST CLASSIFICATIONS Two different test classifications are defined, each related to a different purpose for the testing. The classificat

    20、ions are listed below: 3.1 Classification 1 - Component Validation Flow measurement for comparison to specification, and for comparing one component design to another. a. Brake Fluid use the current SAE standard reference fluid (RM6606 at the time of initial publication of this standard). Test fluid

    21、 properties are to be measured before test (viscosity, density, and water content). An alternate fluid may be used if agreed to by all stakeholders in the test result. b. Plumbing and test fixturing not part of test specimen specified in sufficient detail to allow re-creation of test conditions. 3.2

    22、 Classification 2 - Model Input Generation Flow measurement to characterize flow through a component for modeling and performance diagnostics. a. Brake Fluid Design intent fluid, test under design intent conditions. b. Test specimen will typically be an entire subsystem (e.g., complete master cylind

    23、er and connection pipes to ESC unit) SAE INTERNATIONAL J2994 AUG2015 Page 3 of 12 4. LOW PRESSURE DIFFERENTIAL TEST PROCEDURE AND SET-UP 4.1 Test Apparatus Please refer to figures 1 through 3 for diagrams and an example photograph of the test apparatus. Recommended specifications for some equipment

    24、may be found in Appendix A (based on equipment used in the development of this recommended practice). 4.1.1 Test Specimen The object of the test may be a single component, such as a master cylinder, or it may be a set of components in series, such as a master cylinder, a connecting pipe to an chassi

    25、s controls unit, and a flex-pipe with couplings. If the subject of the test is a single component, than any additional plumbing installed to connect the specimen to instrumentation shall be selected to have negligible flow resistance in comparison to the component on test (see 4.1.10). The definitio

    26、n of the test specimen may have an impact on the flow measurements for example, a different flow vs. pressure drop behavior may be measured on a master cylinder and remote reservoir subsystem, versus a measurement of the master cylinder by itself. It is important that what is considered the test spe

    27、cimen be well defined in the test documentation. 4.1.2 Negative Pressure (Vacuum) Source A source (typically a vacuum source or a hydraulic pump) capable of generating a sustained pressure differential across the test specimen between 15 millibar and 700 millibar shall be applied to the outlet side

    28、fixturing of the test specimen. For Component Validation Classification, the pressure source must be capable of achieving an initial (start of test) pressure differential within 2% of the target value, and must maintain the pressure within 5% of the target while the flow measurement takes place. 4.1

    29、.3 Environmental Enclosure The test specimen, the brake fluid supply, and the fluid-carrying portion of the test fixturing shall be enclosed in an environmental chamber capable of maintaining temperatures between -25 C and 25 C. The required accuracy is + 0 /- 3 C. 4.1.4 Test Fixturing The test spec

    30、imen, plumbing, and fluid reservoir shall be mounted in fixture to securely hold the components in the intended position through the test. If the test specimen is a brake master cylinder, then the fixturing shall include a provision for setting the input rod/plunger to the desired position relative

    31、to the master cylinder body. 4.1.5 Pressure Transducers The test rig shall be equipped with electronic pressure transducers for measuring the hydraulic pressure differential across the test specimen (the placement shall exclude the flow meter from the measurement). The minimum required accuracy of t

    32、he pressure transducer(s) is 0.5% of full scale accuracy. Full scale is recommended to be as close to 1 bar as practicable. A minimum of two individual pressure transducers, or a differential pressure transducer that can span the test specimen, is required. 4.1.6 Flow Meter The test rig shall be equ

    33、ipped with an electronic flow meter to record brake fluid flow through the test specimen. The flow meter is typically installed in between the test specimen and the differential pressure source. The minimum required accuracy 0.05% of full scale accuracy. The recommended range of the flow meter is 0

    34、to 30 cc/s. 4.1.7 Thermocouples Thermocouples shall be installed in the test chamber and in the center of the fluid reservoir. SAE INTERNATIONAL J2994 AUG2015 Page 4 of 12 4.1.8 Viscometer (REQUIRED for Component Validation classification, optional for Model Input Generation classification) The test

    35、 rig shall be equipped with a viscometer plumbed into the hydraulic circuit downstream of the pressure transducers (upstream of the pressure source). The viscometer shall be installed in a manner that allows measurement of the brake fluid viscosity while in test conditions (in the environmental cham

    36、ber, if applicable) just prior to a flow measurement being conducted. It is acceptable to install the viscometer in parallel to the test specimen and to use valves to open and close the flow of fluid to the viscometer. 4.1.9 Junctions and Valves The use of junctions and valves should be minimized wi

    37、thin the hydraulic flow path over which the pressure differential is measured (including the test specimen). Piping and tubing that is not part of the test specimen should be selected to minimize the flow disturbance within the test specimen (this generally means avoiding sudden transitions in pipe

    38、size, and keeping junctions and valves as far away from the test specimen as practicable). It is recommended that valves be of the ball or plug type (typically with a 90 deg turn from open to closed), with a seal design that can withstand temperatures down to -40 C. This type of valve will minimize

    39、the change in flow path cross-sectional area over the valve. 4.1.10 Test Fixture Hydraulic Pipe Diameter The diameter of the piping in the hydraulic circuit outside of the test specimen can affect the flow measurement in two ways. (1) Fixture piping between the test specimen and either the upstream

    40、or the downstream pressure transducer can affect the flow characteristics if not sized correctly, and (2) fixture piping that completes the hydraulic circuit outside of the pressure transducers can contribute to excessive heating of the working fluid (brake fluid) and/or limit the flows that can be

    41、achieved if not sized adequately. It is recommended that the next larger industry standard size relative to the largest diameter pipe in the test specimen (if applicable) or relative to the largest port size (port size refers to the inner diameter of the flow passage of the port) in the test specime

    42、n (if applicable) be selected. Flow losses in fixture piping will vary approximately according to the equations below: 3 = 05 6 2 or 2 = 1283 0Where: D = diameter of the pipe (m) X = viscosity of the fluid (m2/s) U = density of fluid (kg/m3) L = length of the pipe in (m) Q = volumetric flow (m3/s) P

    43、 = pressure drop over the pipe in (Pa) SAE INTERNATIONAL J2994 AUG2015 Page 5 of 12 Example calculation: For a section of fixture pipe between the outlet of the test specimen (master cylinder port) and the downstream pressure transducer with the following parameters: D = 6.475mm (0.006475 m) ” outsi

    44、de diameter X = 0.000016 m2/s U = 1038 kg/m3L = 10 cm (0.010 m) Q = 10 cc/sec = 0.0001 m3/s P = 128 * 0.00001 * 0.000016 * 1038 * 0.01 / (S * 0.0064754) = 38.49 Pa = 0.38 millibar 4.1.11 Test Specimen Installation and Orientation The change in vertical position between pressure sensor locations and

    45、the test specimen inlet/outlet positions should be minimized. Additional test classification-based requirements follow below: 4.1.11.1 Component Validation Classification Test specimens should be oriented so that the component is in a horizontal position. The downstream pressure transducer shall be

    46、positioned within 10 cm of the vertical height of the test specimen. 4.1.11.2 Model Input Generation Classification Test specimens should be mounted as close to in-vehicle orientation as practicable. Specimens equipped with a remote fluid reservoir should maintain the in-vehicle vertical relationshi

    47、p between reservoir and test specimen. 4.1.11.3 Both Classifications The fluid pressure readings at both the upstream and downstream positions should be corrected for any differences in vertical height between the pressure transducer and the test specimen. It is important for the distinction between

    48、 test specimen and test fixture to be very clear for example, is a fluid reservoir on a master cylinder considered part of the test specimen (do not correct for fluid height difference), or part of the fixture (the object of the test is really the master cylinder itself, and the difference in fluid

    49、height between the reservoir fluid level and the master cylinder itself must be corrected for)? Corrections should be made according to equation 1 below (Note: for a test set-up with a depleting reservoir, the fluid height and static pressure may change over the course of the test in this case a correction based on the average fluid height over the


    注意事项

    本文(SAE J 2994-2015 Brake Hydraulic Component Low Pressure Flow Rate Measurement.pdf)为本站会员(outsidejudge265)主动上传,麦多课文档分享仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文档分享(点击联系客服),我们立即给予删除!




    关于我们 - 网站声明 - 网站地图 - 资源地图 - 友情链接 - 网站客服 - 联系我们

    copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
    备案/许可证编号:苏ICP备17064731号-1 

    收起
    展开