23.100.01 – Fluid power systems in general – PDF Standards Store ?u= Wed, 06 Nov 2024 01:54:33 +0000 en-US hourly 1 https://wordpress.org/?v=6.7.1 ?u=/wp-content/uploads/2024/11/cropped-icon-150x150.png 23.100.01 – Fluid power systems in general – PDF Standards Store ?u= 32 32 JIS B 8370:1988 ?u=/product/publishers/jis/jis-b-83701988/ Wed, 06 Nov 2024 01:54:33 +0000 General Rule for Pneumatic Systems
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JIS 1988-03-01 28
]]> General Rule for Pneumatic Systems
Published By Publication Date Number of Pages
JIS 1988-03-01 28
]]> JIS B 8361:1982 ?u=/product/publishers/jis/jis-b-83611982/ Wed, 06 Nov 2024 01:54:28 +0000 General Rules for Hydraulic Systems
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JIS 1982-09-01 29
]]> General Rules for Hydraulic Systems
Published By Publication Date Number of Pages
JIS 1982-09-01 29
]]> JIS B 0142:1984 ?u=/product/publishers/jis/jis-b-01421984/ Wed, 06 Nov 2024 01:42:16 +0000 Glossary of Terms for Oil Hydraulics and Pneumatics
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JIS 1984-02-01 60
]]> Glossary of Terms for Oil Hydraulics and Pneumatics
Published By Publication Date Number of Pages
JIS 1984-02-01 60
]]> JIS B 0125-1:2020 ?u=/product/publishers/jis/jis-b-0125-12020/ Wed, 06 Nov 2024 01:42:08 +0000 Fluid power systems and components - Graphical symbols and circuit diagrams - Part 1: Graphical symbols for conventional use and data-processing applications
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JIS 2020-03-23 127
]]> This Standard specifies graphic symbols for fluid power systems and components.

NOTE The International Standard corresponding to this Standard and the symbol of degree of correspondence are as follows.

ISO 1219-1 : 2012 Fluid power systems and components — Graphical symbols and circuit diagrams — Part 1 : Graphical symbols for conventional use and data-processing applications and Amendment 1 : 2016 (MOD)

In addition, symbols which denote the degree of correspondence in the contents between the relevant International Standards and JIS are IDT (identical), MOD (modified), and NEQ (not equivalent) according to ISO/IEC Guide 21-1.

]]> JIS B 0125-2:2001 ?u=/product/publishers/jis/jis-b-0125-22001/ Wed, 06 Nov 2024 01:42:08 +0000 Fluid power systems and components - Graphic symbols and circuit diagrams - Part 2: Circuit diagrams
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JIS 2001-03-20 20
]]> Fluid power systems and components - Graphic symbols and circuit diagrams - Part 2: Circuit diagrams
Published By Publication Date Number of Pages
JIS 2001-03-20 20
]]> JIS B 0125-1:2007 ?u=/product/publishers/jis/jis-b-0125-12007/ Wed, 06 Nov 2024 01:42:07 +0000 Fluid Power Systems and Components - Graphic Symbols and Circuit Diagrams - Part 1: Graphic symbols for Conventional Use and Data Processing Applications
Published By Publication Date Number of Pages
JIS 2007-11-20 106
]]> Fluid Power Systems and Components - Graphic Symbols and Circuit Diagrams - Part 1: Graphic symbols for Conventional Use and Data Processing Applications
Published By Publication Date Number of Pages
JIS 2007-11-20 106
]]> ISO/TR 22165:2018 ?u=/product/publishers/iso/iso-tr-221652018/ Wed, 06 Nov 2024 01:15:47 +0000 Pneumatic fluid power — Application notes for the improvement of the energy efficiency of pneumatic systems
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ISO 2018-11 10
]]> This document gives advice on how to conceive pneumatic systems, which under consideration of functionality and economic efficiency, can be operated with increased energy efficiency. It does not focus on compressed air generation and distribution.

]]> ISO/TR 22164:2020 ?u=/product/publishers/iso/iso-tr-221642020/ Wed, 06 Nov 2024 01:15:45 +0000 Hydraulic fluid power — Application notes for the optimization of the energy efficiency of hydraulic systems
Published By Publication Date Number of Pages
ISO 2020-02 12
]]> This document gives advice on how to conceive hydraulic systems that can be operated with increased energy efficiency while maintaining the intended functionality of the machine.

]]> ISO/TR 19972-1:2009 ?u=/product/publishers/iso/iso-tr-19972-12009/ Wed, 06 Nov 2024 01:14:37 +0000 Hydraulic fluid power — Methods to assess the reliability of hydraulic components — Part 1: General procedures and calculation method
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ISO 2009-02 48
]]> ISO/TR 19972-1:2009 provides a means for determining the reliability of hydraulic fluid power components using:

  • estimates from a design analysis;
  • analysis of laboratory testing to failure or suspension;
  • analysis of field data;
  • analysis of a substantiation test.

These methods apply to the first failures without repairs, but exclude certain infant mortality failures. Specific component test procedures and exclusions are provided in subsequent parts of ISO/TR 19972. ISO/TR 19972-1:2009 also provides calculation methods, reporting descriptions and examples of reliability calculations.

]]> ISO/TR 16194:2017 ?u=/product/publishers/iso/iso-tr-161942017/ Wed, 06 Nov 2024 01:12:25 +0000 Pneumatic fluid power — Assessment of component reliability by accelerated life testing — General guidelines and procedures
Published By Publication Date Number of Pages
ISO 2017-04 66
]]> ISO/TR 16194:2017 provides general procedures for assessing the reliability of pneumatic fluid power components using accelerated life testing and the method for reporting the results. These procedures apply to directional control valves, cylinders with piston rods, pressure regulators, and accessory devices ? the same components covered by the ISO 19973 series of standards.

ISO/TR 16194:2017 does not provide specific procedures for accelerated life testing of components. Instead, it explains the variability among methods and provides guidelines for developing an accelerated test method.

The methods specified in this document apply to the first failure, without repairs.

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