23.100.01 流体动力系统综合 标准查询与下载

KS B ISO 9110-1:2013 液压传动 测量技术 第1部分：通用测量准则

Hydraulic fluid power－Measurement techniques－Part 1：General measurement principles

KS B ISO 9110-2:2013 液压传动 测量技术 第2部分：密闭回路中平均稳定压力的测量

Hydraulic fluid power－Measurement techniques－Part 2：Measurement of average steady-state pressure in a closed conduit

KS B ISO 4413:2013 液压传动 系统及其组件用安全性要求和通用规则

Hydraulic fluid power－General rules relating to systems

BS ISO 6358-1:2013 气压液动. 采用可压缩流体对部件流量特性的测定. 稳态流的一般规则和试验方法

Pneumatic fluid power. Determination of flow-rate characteristics of components using compressible fluids. General rules and test methods for steady-state flow

BS ISO 6358-2:2013 气压传动. 使用可压缩流体组件的流速特性测定. 替代试验方法

Pneumatic fluid power. Determination of flow-rate characteristics of components using compressible fluids. Alternative test methods

NF E49-160-1*NF ISO 6358-1:2013 气压液动. 采用可压缩流体对部件流量特性的测定. 第1部分: 稳态流的一般规则和试验方法

Pneumatic fluid power - Determination of flow-rate characteristics of components using compressible fluids - Part 1: general rules and test methods for steady-state flow

NF E49-160-2:2013 气压液动. 采用可压缩流体对部件流量特性的测定. 第2部分: 替代试验方法

Pneumatic fluid power - Determination of flow-rate characteristics of components using compressible fluids - Part 2: alternative test methods

ISO/TR 10686:2013 液压传动.液压系统清洁度到系统组件和液压机液体清洁度相关方法

This Technical Report describes methods that can be used to: —relate the cleanliness of a hydraulic system to the cleanliness of its components and the hydraulic fluid belonging to the system; —estimate the final cleanliness level of an assembled hydraulic system filled with the hydraulic fluid, upon its release from the manufacturing area. The estimation of the final cleanliness level is based on the cleanliness level of each component in the system and on the cleanliness level of the filling fluid; —calculate and manage cleanliness requirements of components and subassemblies that make up a system and of the fluid filling it so as to achieve a required cleanliness level (RCL) for the final system. These methods can apply whatever the particle size considered and can also be used for other types than hydraulic fluid power.

Hydraulic fluid power - Method to relate the cleanliness of a hydraulic system to the cleanliness of the components and hydraulic fluid that make up the system

JIS B 8370:2013 气压传动.系统及其组件的一般规则和安全性要求

Pneumatic fluid power.General rules and safety requirements for systems and their components

JIS B 8361:2013 液压传动.系统及其组件用安全性要求和一般规则

Hydraulic fluid power -- General rules and safety requirements for systems and their components

SAE J1502-2013 液压动力和一般用途的液压管接头的连接诊断

SAE J1502 specifies dimensions, performance requirements, and test procedures for the male half of a diagnostic coupler with either a metric M14x1.5 or an inch 9/16-18 straight thread stud end. The coupler is designed for use with a mineral based hydrualic fluid. It is used on machines specified in SAE J1116. It does not apply to the mating hydraulic quick action couplings not on the machine. Diagnostic couplings in accordance with SAE J1502 may be used at a working pressure of 42 MPa. The permissible working pressure depends upon the materials, design, working conditions, applications, etc. Conformance to the dimensional information in this part of SAE J15

Connections for Fluid Power and General Use Hydraulic Couplings Diagnostic

ISO 6358-2:2013 气压传动.使用可压缩流体组件的流速特性测定.第2部分:替代试验方法

This part of ISO 6358 specifies a discharge test and a charge test as alternative methods for testing pneumatic fluid power components that use compressible fluids, i.e. gases, and that have internal flow passages that can be either fixed or variable in size to determine their flow-rate characteristics. However, this part of ISO 6358 does not apply to components whose flow coefficient is unstable during use, i.e. components that exhibit remarkable hysteretic behaviour (because they can contain flexible parts that deform under the flow) or that have an internal feedback phenomenon (such as regulators),or components that have a cracking pressure such as non-return (check) valves and quick-exhaust valves. In addition, it does not apply to components that exchange energy with the fluid during flow-rate measurement, e.g. cylinders, accumulators, etc.

Pneumatic fluid power.Determination of flow-rate characteristics of components using compressible fluids.Part 2: Alternative test methods

ISO 6358-1:2013 气压传动.使用可压缩流体组件的流速特性测定.第1部分:稳态流的通用规则和试验方法

This part of ISO 6358 specifies a steady-state method for testing pneumatic fluid power components that use compressible fluids, i.e. gases, and that have internal flow paths that can be either fixed or variable in size, to determine their flow-rate characteristics. However, this part of ISO 6358 does not apply to components whose flow coefficient is unstable during use, i.e. components that exhibit remarkable hysteretic behaviour (because they can contain flexible parts that deform under the flow) or that have an internal feedback phenomenon (such as regulators). In addition, it does not apply to components that exchange energy with the fluid during flow-rate measurement, e.g. cylinders, accumulators, etc.

Pneumatic fluid power.Determination of flow-rate characteristics of components using compressible fluids.Part 1: General rules and test methods for steady-state flow

GSO ISO 6072:2013 橡胶 液压油和标准弹性材料之间的兼容性

This International Standard specifies test methods for evaluating the effect of hydraulic fluids on standard elastomeric materials that have been manufactured in accordance with specified processes. It allows baseline comparisons of fluids with standard elastomers. This International Standard provides formulations, mixing procedures and vulcanization procedures for five types of elastomeric composition: a) acrylonitrile-butadiene rubbers (NBR 1 and NBR 2); b) fluorocarbon rubber (FKM 2); c) ethylene propylene diene rubber (EPDM 1); d) hydrogenated acrylonitrile-butadiene rubber (HNBR 1). These procedures evaluate the effect of mineral-based, fire-resistant and biodegradable hydraulic fluids on such compositions by measurement, under controlled conditions, of physical properties of standard test pieces of the elastomer before and after immersion in the fluids. This International Standard does not provide formulations of elastomeric materials for actual service, although service elastomers may be tested using these compatibility procedures if required.

Rubber - Compatibility between hydraulic fluids and standard elastomeric materials

KS B 6452-2012 液压破碎锤

이 표준은 유압을 이용하여 암반, 콘크리트 등을 파쇄하는 건설 기계의 선택작업장치(어태치먼

Hydraulic breakers

SAE J1176-2012 液压系统外部泄漏分级

This document has been declared "Stabilized" and will no longer be subjected to periodic reviews for currency. Users are responsible for verifying references and continued suitability or technical requirements. New technology may exist. Establish a uniform guide for defining the degree of external leakage on a hydraulic system. The leakage classifications include dusty and dust-free conditions. The choice of classification is intended to be by visual means rather than with the aid of instruments. It describes the leakage state at the observed time, considering that the state may change over a period of time.

External Leakage Classifications for Hydraulic Systems

DB43/T 671-2012 水轮泵能量试验台技术规范与试验要求

Technical specifications and test requirements for water turbine pump energy test bench

KS B 6612-2011 自动控温阀

이 표준은 공급수 온도 120 ℃ 이하, 상용 압력 1.0 MPa 이하인 난방수를 공급하는

Automatic temperature control system for heating

JIS B 8672-2:2011 气动液能.通过测试评估部件可靠性.第2部分:方向控制阀

Pneumatic fluid power -- Assessment of component reliability by testing -- Part 2: Directional control valves

KS B 6613-2011 加热自动控温多系统测试方法

이 표준은 공급수 온도 120 ℃ 이하, 상용 압력 1.0 MPa 이하인 난방수를 공급하는

Test methods of automatic temperature control multi system for heating