共找到 169 条与 其他流体动力系统部件 相关的标准,共 12 页
Fluid power systems and components-16 mm square electrical connector with earth contact-Characteristics and requirements
本部分规定了调速型液力偶合器与液力偶合器传动装置(以下简称液力偶合器)的型式试验的性能试验技术指标、可靠性试验技术指标及寿命考核指标。 本部分适用于由导管调节充液量的液力偶合器。
Variable speed fluid couplings and fluid coupling transmissions-Test-Part 4: Type test technical index
本部分规定了调速型液力偶合器与液力偶合器传动装置(以下简称液力偶合器)的出厂试验的检测台份及出厂试验技术指标。 本部分适用于由导管调节充液量的液力偶合器。
Variable speed fluid couplings and fluid coupling transmissions-Test-Part 2: Manufacturing test technical index
本部分规定了调速型液力偶合器与液力偶合器传动装置(以下简称液力偶合器)出厂试验的试验项目、试验装置和仪器仪表、试验用工作液体、试验方法和步骤以及出厂试验报告。 本部分适用于由导管调节充液量的液力偶合器。
Variable speed fluid couplings and fluid coupling transmissions-Test-Part 1: Manufacturing test method
Self-lubricating bushings with low creep rates are used in hydropower turbines and other applications in which bushing distortion could cause misalignment of shafts and linkages. An assumption is made that if the creep is satisfactory at 55 160 kPa [8000 psi], it will also be satisfactory at lower pressures.1.1 This test method determines the amount of creep exhibited by self-lubricating bushings exposed to a high load for an extended period of time.1.2 This test method is designed to reproduce conditions typical of those encountered by trunnion bushings in hydropower applications and any other bushings subjected to high continuous loading and low-speed oscillating applications.1.3 This test method is conducted on cut segments of the bushings.1.4 The values given in SI units are to be regarded as the standard in all property and dimensional tables.Note 1 -- There is no equivalent ISO 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 to determine the applicability of regulatory limitations prior to use.
Standard Test Method for Creep Measurement of Self-Lubricating Bushings
この規格は,油圧システムに用いるブラダ形アキュムレータ(以下,アキュムレータという。)の試験方法について規定する。
Hydraulic fluid power -- Bladder type accumulators -- Test methods
This SAE Aerospace Standard (AS) establishes the requirements and procedures for impulse testing of hose, tubing, and fitting assemblies for use in aerospace hydraulic systems of 8000 psi nominal operating pressure or less. It also refers to standard impulse test equipment to be used in conducting these impulse tests.
Impulse Testing of Hydraulic Hose, Tubing, and Fitting Assemblies
Self-lubricating bushings with low creep rates are used in hydropower turbines and other applications in which bushing distortion could cause misalignment of shafts and linkages. An assumption is made that if the creep is satisfactory at 55 160 kPa (8000 psi), it will also be satisfactory at lower pressures.1.1 This test method determines the amount of creep exhibited by self-lubricating bushings exposed to a high load for an extended period of time. 1.2 This test method is designed to reproduce conditions typical of those encountered by trunnion bushings in hydropower applications and any other bushings subjected to high continuous loading and low-speed oscillating applications. 1.3 This test method is conducted on cut segments of the bushings. 1.4 The values given in SI units are to be regarded as the standard in all property and dimensional tables. 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 to determine the applicability of regulatory limitations prior to use. Note 18212;There is no known ISO equivalent to this standard.
Standard Test Method for Creep Measurement of Self-Lubricating Bushings
Hydraulic fluid power-Gas-loaded accumulators with separator-Selection of preferred hydraulic ports
Hydraulic fluid power-Gas-loaded accumulators- Dimensions of gas ports
이 규격은 유압 유체 동력 시스템에 사용되는 가스 충전 어큐뮬레이터의 정의, 설계 및 시험
Hydraulic fluid power-Gas-loaded accumulators with separator-Ranges of pressures and volumes and characteristic quantities
Hydraulic fluid power-Gas-loaded accumulators with separator-Ranges of pressures and volumes and characteristic quantities
Pneumatic fluid power-Compressed air lubricators-Main characteristics to be included in supplier’s literature and product-marking requirements
Pneumatic fluid power-Compressed air lubricators-Main characteristics to be included in supplier’s literature and product-marking requirements
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Pneumatic fluid power-Compressed air lubricators-Main characteristics to be included in supplier’s literature and product-marking requirements
Hydraulic fluid power-Gas-loaded accumulators with separator-Ranges of pressures and volumes and characteristic quantities
This Technical Report describes the procedures used by the United States National Institute of Standards and Technology (NIST) for the certification of the calibration material SRM 2806, which is used in the primary calibration of liquid automatic particle counters. SRM 2806 is a suspension of ISO MTD in hydraulic fluid with a number size distribution certified using a scanning electron microscope (SEM) and image analysis techniques.
Hydraulic fluid power - Calibration of liquid automatic particle counters - Procedures used to certify the standard reference material SRM 2806
This Technical Report describes the procedures used by the United States National Institute of Standards and Technology (NIST) for the certification of the calibration material SRM 2806, which is used in the primary calibration of liquid automatic particle counters. SRM 2806 is a suspension of ISO MTD in hydraulic fluid with a number size distribution certified using a scanning electron microscope (SEM) and image analysis techniques.
Hydraulic fluid power - Calibration of liquid automatic particle counters - Procedures used to certify the standard reference material SRM 2806
This part of ISO 10771 specifies a method of fatigue testing the pressure-containing envelopes of components used in hydraulic fluid power systems under sustained steady cyclic internal pressure loads. This part of ISO 10771 is only applicable to component pressure-containing envelopes that: — are manufactured from metals; — are operated at temperatures that exclude creep and low-temperature embrittlement; — are only subjected to pressure-induced stresses; — are not subjected to loss of strength due to corrosion or other chemical action; — may include gaskets, seals and other non-metallic components; however, these are not considered part of the pressure-containing envelope being tested, (see note 3 in 5.5). This part of ISO 10771 does not apply to piping as defined in ISO 4413 (i.e. connectors, hose, tubing, pipe). See ISO 8434-5, ISO 6803 and ISO 6605 for methods of fatigue testing of piping devices. This part of ISO 10771 establishes a general test method that is applicable for many hydraulic fluid power components, but additional requirements or more specific methods that may be required for particular components are contained in the annexes or other standards.
Hydraulic fluid power - Fatigue pressure testing of metal pressure-containing envelopes - Test method
This part of ISO 10771 specifies a method of fatigue testing the pressure-containing envelopes of components used in hydraulic fluid power systems under sustained steady cyclic internal pressure loads. This part of ISO 10771 is only applicable to component pressure-containing envelopes that: — are manufactured from metals; — are operated at temperatures that exclude creep and low-temperature embrittlement; — are only subjected to pressure-induced stresses; — are not subjected to loss of strength due to corrosion or other chemical action; — may include gaskets, seals and other non-metallic components; however, these are not considered part of the pressure-containing envelope being tested, (see note 3 in 5.5). This part of ISO 10771 does not apply to piping as defined in ISO 4413 (i.e. connectors, hose, tubing, pipe). See ISO 8434-5, ISO 6803 and ISO 6605 for methods of fatigue testing of piping devices. This part of ISO 10771 establishes a general test method that is applicable for many hydraulic fluid power components, but additional requirements or more specific methods that may be required for particular components are contained in the annexes or other standards.
Hydraulic fluid power - Fatigue pressure testing of metal pressure-containing envelopes - Part 1: Test method
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