ANSI TIA-455-12-B-2008 FOTP-12 Fluid Immersion Test for Fiber Optic Components.pdf

1、 TIA-455-12-B (Revision of TIA-455-12-A) May 2008FOTP-12 Fluid Immersion Test for Fiber Optic Components ANSI/TIA-455-12-B-2008 APPROVED: MAY 14, 2008 REAFFIRMED: AUGUST 2, 2013 NOTICE TIA Engineering Standards and Publications are designed to serve the public interest through eliminating misunderst

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19、EREOF, AND THESE CONTENTS WOULD NOT BE PUBLISHED BY TIA WITHOUT SUCH LIMITATIONS. ANSI/TIA-455-12B i FOTP-12 FLUID IMMERSION TEST FOR FIBER OPTIC COMPONENTS TABLE OF CONTENTS Section Page Foreword iii 1 Introduction 1 2 Normative References 2 3 Apparatus 3 4 Hazards 4 5 Sampling and Specimens 5 6 Pr

20、ocedure 5 7 Calculations or Interpretation of Results 8 8 Documentation 9 9 Specification Information 9 Table I Immersion Test Fluids and Test Conditions Standard Cable Test 11 Table II Immersion Test Fluids, Test Conditions, and Cycles Standard Connector and Device Test 12 Table III Immersion Test

21、Fluids and Test Conditions U.S. Military Test 13 Annex A (Informative) Changes in the U.S. Military Fluids Listing 14 Annex B (Informative) Comparison between FOTP-12 and IEC and ITU requirements. 17 ANSI/TIA-455-12B ii This page blank. ANSI/TIA-455-12B iii FOTP-12 FLUID IMMERSION TEST FOR FIBER OPT

22、IC COMPONENTS Foreword (This foreword is informative and is not a part of this standard.) This document comes from TIA Standards Proposal No. 3-1790-RV2, formulated under the cognizance of TIA FO-4.2, Subcommittee on Optical Fibers and Cables, and TIA FO-4.3, Subcommittee on Passive Optical Devices

23、and Components. This FOTP was originally published in Recommended Standard RS-455-4 as FOTP-12. It was revised and published as EIA/TIA-455-12A, which also superseded FOTP-40. This FOTP is part of the series of test procedures included within Recommended Standard TIA/EIA-455. There are two Annexes,

24、both informative. Key words: exposure, cable, connector, splash, wet patch, Military ANSI/TIA-455-12B iv This page blank. ANSI/TIA-455-12B 1 FOTP-12 FLUID IMMERSION TEST FOR FIBER OTPIC COMPONENTS 1 Introduction 1.1 Intent The intent of this test is to establish the ability of a fiber optic componen

25、t (cable, connecting device, etc.) to resist degradation when exposed to specific fluids with which the component may come into contact during its service life. (Note: For fluid immersion testing of optical fiber, refer to FOTP-741). The primary tests defined herein are for accelerated aging and con

26、tinuous immersion evaluation by complete immersion of samples for specified times at specified temperatures. A secondary method is defined only for non-Military cables and defines proximity or periodic exposure. This test is a “wet patch” test and is only used if specified by the Detail Specificatio

27、n. 1.2 Failure modes Potential failure modes for this test include, but are not limited to: 1.2.1 Swelling of any materials. (Exception materials that are functionally designed to swell, e.g., swellable water blocking tapes.) 1.2.2 Dimensional changes other than swelling. 1.2.3 Softening of any mate

28、rials. 1.2.4 Loss of seal or adhesive bonding between two bonded surfaces. 1.2.5 Discoloration of materials, finishes, and marking (may or may not be considered detrimental). 1.2.6 Changes in mating and/or coupling characteristics. 1.2.7 Corrosion of any materials, finish peeling, cracking, or flaki

29、ng. 1.2.8 Inability to mate or unmate (connector, device, or cable assembly). 1.2.9 Degradation of cable/connector optical transmission characteristics. 1 FOTP-74 supersedes FOTP-75, Fluid Immersion Test for Optical Waveguide Fibers. ANSI/TIA-455-12B 2 2 Normative References Test or inspection requi

30、rement may include, but are not limited to, the following references: 2.1 ASTM Documents ASTM D 56, 2005 Standard Test Method For Flash Point by Tag Closed Cup Tester ASTM D 4814, 20052 Standard Specification for Automotive Spark-Ignition Engine Fuel ASTM D 543, 1995 Standard Practices for Evaluatin

31、g the Resistance of Plastics to Chemical Reagents 2.2 TIA Documents FOTP-13 (EIA-455-13A, 1996) Visual and Mechanical Inspection of Fiber Optic Components, Devices, and Assemblies FOTP-20 (EIA-455-20B, 2004) IEC 60793-1-46 Optical Fibres Part 1-46: Measurement Methods and Test Procedures Monitoring

32、of Changes in Optical Transmittance FOTP-74 (TIA-455-74A, 20033) IEC 60793-1-53 - Optical Fibres Part 1-53: Measurement Methods and Test Procedures Water Immersion 2.3 Federal and Military Specifications4 NOTE Because of the prevalence of references to Table III of FOTP-12, Rev. A, for U.S. Military

33、 applications, the content of 2.3 and Table III of that Revision and a document cross-reference listing are presented in Annex A. TT-I-7355 Isopropyl Alcohol MIL-PRF-5606 Hydraulic Fluid, Petroleum Base, Aircraft, Missile, and Ordnance MIL-DTL-5624 Turbine Fuel, Aviation, Grades JP-4 and JP-5 MIL-PR

34、F-16884 Fuel, Naval Distillate 2 Supersedes the original MIL-G-3056. See Annex A. 3 See footnote 1. 4 Available from Naval Publications and Forms Center, 5801 Tabor Avenue, Philadelphia, PA 19120-5099, or from the procuring activity, or as directed by the contracting officer. 5 Federal specification

35、 reinstated 6 June 2007. ANSI/TIA-455-12B 3 MIL-PRF-17331 Lubricating Oil, Steam Turbine and Gear, Moderate Service MIL-PRF-17672 Hydraulic Fluid, Petroleum, Inhibited MIL-PRF-23699 Lubricating Oil, Aircraft Turbine Engines, Synthetic Base, NATO Code Number O-156 MIL-DTL-83133 Turbine Fuels, Aviatio

36、n, Kerosene Types, NATO F-34 (JP-8), NATO F-35, and JP-8+100 MIL-PRF-83282 Hydraulic Fluid, Fire Resistant, Synthetic Hydrocarbon Base, Metric, NATO Code Number H-537 MIL-PRF-87252 Coolant Fluid, Hydrostatically Stable, Dielectric MIL-PRF-87257 Hydraulic Fluid, Fire Resistant, Low Temperature, Synth

37、etic Hydrocarbon Base, Aircraft and Missile 3 Apparatus 3.1 Test vessels Glass or stainless steel vessels of suitable volume, one for each test fluid. Vessels shall be of sufficient size and fluid capacity to permit the sample(s) under test to be appropriately immersed (complete immersion, in many i

38、nstances) in each fluid selected, without violating other physical constraints (e.g., minimum cable bending radius). Glass vessels shall be rated to withstand the test temperature. 3.2 Prepared immersion fluids 3.2.1 Unless otherwise specified, test fluids to be used shall be those listed in Tables

39、I, II, and III, as applicable: Table I is for cables Table II is for connectors, related devices, and other components; and Table III is for all U.S. Military applications. NOTE The fluids of Table III may be specified for applications other than U.S. Military testing, though that is the primary fun

40、ction. Prepare sufficient quantities of the required fluids to immerse the samples in the vessels to be used. 3.2.2 The use of the proximity exposure test of 6.6.6 requires that the Detail Specification specify the test fluids. Prepare sufficient quantities of the specified fluids in order to carry

41、out ANSI/TIA-455-12B 4 the test of 6.6.6, as indicated by ASTM D 543, Wet Patch Method, Practice B. Fluid temperatures shall be as required by the Detail Specification. 3.3 Other equipment 3.3.1 Immersion Thermometer, 0 to 200 C range. 3.3.2 Table stove, hot plate, circulating air oven, or other sui

42、table heat source, capable of attaining the specified temperatures and of maintaining temperatures within 2C of the required setting. 3.3.3 Timer. 3.3.4 Micrometer caliper. 3.3.5 Analytical balance. 3.4 Optical apparatus Optical transmittance change measurement apparatus as described in FOTP-20. 4 H

43、azards This test procedure may involve certain hazardous materials, operations, and equipment. It is the responsibility of whomever uses this procedure to establish appropriate safety practices and to determine the applicability of regulatory limitations prior to use. Note, in particular, that some

44、of the fluids that may be used (including some fluids not specified in the tables of this procedure, but that may be required by Detail Specification) are flammable or may constitute health hazards, or both. Test temperatures shall be at least 10C below the flash point of any fluid being used. Prope

45、r precautions shall be observed during handling and during the balance of the test. Chronic, prolonged, or excessive exposure to solvents such as Freon TMC, 1-1-1 Trichloroethane, Methylene Chloride, Methyl Isobutyl Ketone, or others may act as a carcinogen or damage internal organs. Use such test f

46、luids only in a well ventilated area (use of a gas mask may be advisable) and avoid skin contact as a standard precaution. Test personnel should consult safety data sheets for such materials. ANSI/TIA-455-12B 5 5 Sampling and Specimens 5.1 Optical Fiber Cable Unless otherwise specified in the Detail

47、 Specification, the test sample for the Cable Test shall be a representative sample of a completed optical fiber cable. The samples shall be long enough to yield the number of specimens required. Specimen length shall be 2 meters (6.6 ft) 5% for each fluid investigated. 5.2 Connecting Device Unless

48、otherwise specified in the Detail Specification, the test sample for the Connector Test shall be a connecting device prepared as described in any one of the following categories: 5.2.1 Two optical cables terminated by mated connectors. Each cable shall be of sufficient length to perform optical tran

49、smittance measurements. 5.2.2 An unmated pair of connector plugs, or unmated plug and receptacle, shall terminate sufficient lengths of optical fiber cable to permit performance of optical transmittance measurements. 5.2.3 An unmated and unterminated connector. 5.3 Other components The test sample shall be a component prepared as required by the Detail Specification. 6 Procedure 6.1 Pre-immersion Examination of all Samples Visually examine samples in accordance with the requirements of FOTP-13, checking for defects (e.g., chips, cracks, tears, loose or