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1、 Reference number ISO 14952-3:2003(E) ISO 2003 INTERNATIONAL STANDARD ISO 14952-3 First edition 2003-11-15 Space systems Surface cleanliness of fluid systems Part 3: Analytical procedures for the determination of nonvolatile residues and particulate contamination Systmes spatiaux Propret des surface
2、s en contact avec des fluides Partie 3: Modes opratoires analytiques pour la dtermination des residus non volatils et de la contamination particulaire ISO 14952-3:2003(E) PDF disclaimer This PDF file may contain embedded typefaces. In accordance with Adobes licensing policy, this file may be printed
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5、itable for use by ISO member bodies. In the unlikely event that a problem relating to it is found, please inform the Central Secretariat at the address given below. ISO 2003 All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by a
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7、 copyrightiso.org Web www.iso.org Published in Switzerland ii ISO 2003 All rights reserved ISO 14952-3:2003(E) ISO 2003 All rights reserved iii Contents Page Forewordiv Introduction v 1 Scope1 2 Normative references .1 3 Terms and definitions.1 4 Acceptance inspection.2 4.1 General.2 4.2 Visual insp
8、ection.2 4.3 Acidity and alkalinity test.2 4.4 Acceptance inspection of items cleaned in a controlled environment.2 4.5 Acceptance inspection of items cleaned in the field 6 4.6 Acceptance inspection of packaging materials.7 4.7 Acceptance inspection of items by functional test.9 5 Sampling and anal
9、ytical practices 9 5.1 Cleanliness level test methods9 5.2 Microscopic particle population12 5.3 Gravimetric NVR analysis method 12 5.4 Aqueous ultrasonic sampling and total carbon (TC) NVR analysis 13 Annex A (informative) Sensitivity factor calculation.15 ISO 14952-3:2003(E) iv ISO 2003 All rights
10、 reserved Foreword ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO member bodies). The work of preparing International Standards is normally carried out through ISO technical committees. Each member body interested in a subject for
11、 which a technical committee has been established has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical Commission (IEC) on a
12、ll matters of electrotechnical standardization. International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2. The main task of technical committees is to prepare International Standards. Draft International Standards adopted by the technical committees are
13、 circulated to the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. ISO shall not be held re
14、sponsible for identifying any or all such patent rights. ISO 14952-3 was prepared by Technical Committee ISO/TC 20, Aircraft and space vehicles, Subcommittee SC 14, Space systems and operations. ISO 14952 consists of the following parts, under the general title Space systems Surface cleanliness of f
15、luid systems: Part 1: Vocabulary Part 2: Cleanliness levels Part 3: Analytical procedures for the determination of nonvolatile residues and particulate contamination Part 4: Rough-cleaning processes Part 5: Drying processes Part 6: Precision-cleaning processes ISO 14952-3:2003(E) ISO 2003 All rights
16、 reserved v Introduction This part of ISO 14952 defines sampling and analytical methods to verify cleanliness levels for parts and components used in space fluid systems. It can be used to determine the cleanliness level of precision- cleaned parts and components used in ground support equipment, la
17、unch vehicles and spacecraft. -,-,- INTERNATIONAL STANDARD ISO 14952-3:2003(E) ISO 2003 All rights reserved 1 Space systems Surface cleanliness of fluid systems Part 3: Analytical procedures for the determination of nonvolatile residues and particulate contamination 1 Scope This part of ISO 14952 pr
18、ovides sampling and analytical test methods to validate the cleanliness levels of parts and components that have been precision cleaned, and identifies processes that may be used for the verification of cleanliness in ground support equipment, launch vehicles and spacecraft. This part of ISO 14952 i
19、s used to sample and verify the level of cleanliness of parts and components that have been precision cleaned and applies equally to parts, components and systems in ground support equipment, launch vehicles and spacecraft. 2 Normative references The following referenced documents are indispensable
20、for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. ISO 2210:1972, Liquid halogenated hydrocarbons for industrial use Determination of residue on evaporat
21、ion ISO 5789:1979, Fluorinated hydrocarbons for industrial use Determination of non-volatile residue ISO 5884:1987, Aerospace Fluid systems and components, Methods for system sampling and measuring the solid particle contamination of hydraulic fluids ISO 14951-3:1999, Space systems Fluids characteri
22、stics Part 3: Nitrogen ISO 14951-4:1999, Space systems Fluids characteristics Part 4: Helium ISO 14951-10:1999, Space systems Fluids characteristics Part 10: Water ISO 14952-1:2003, Space systems Surface cleanliness of fluid systems Part 1: Vocabulary ISO 14952-5:2003, Space systems Surface cleanlin
23、ess of fluid systems Part 5: Drying processes 3 Terms and definitions For the purposes of this document, the terms and definitions given in ISO 14952-1 apply. ISO 14952-3:2003(E) 2 ISO 2003 All rights reserved 4 Acceptance inspection 4.1 General Unless otherwise specified by the customer, acceptance
24、 inspection shall be performed as specified in 4.2 to 4.7. 4.2 Visual inspection 4.2.1 The surfaces of all items that will contact the service medium shall be visually inspected for the presence of moisture, corrosion, scale, dirt, grease and other foreign matter. An external light source or boresco
25、pe may be required to examine internal surfaces. 4.2.2 Items having limited accessibility for visual inspection shall be accepted or rejected on the basis of the quality assurance inspections of 4.3, 4.4 and 4.5. The presence of visible contamination that discloses a particle population greater than
26、 the level specified shall be cause for rejection. Discoloration of a surface due to welding and passivation shall be permitted provided no weld scale or other contaminants remain. 4.3 Acidity and alkalinity test All surfaces that have been cleaned shall be tested for acidity and alkalinity with pH
27、paper while the surfaces are wet from the final water rinse. Dry surfaces of completed items shall be wetted with a few drops of high purity water, with a pH range of 5,0 to 8,0, meeting the requirements of ISO 14951-10, to permit testing as required. When tested, the pH shall range from 5,0 to 8,0.
28、 4.4 Acceptance inspection of items cleaned in a controlled environment 4.4.1 General Items cleaned in a controlled environment, except those processed to level visually clean (VC) and/or level visually clean and inspected with the aid of an ultraviolet (UV) light, shall be tested for conformance to
29、 the applicable cleanliness level by the test fluid-flush procedure given in 4.4.2 to 4.5.4. 4.4.2 Test fluids The test fluids shall not react with, combine with, etch, or otherwise cause immediate or latent degradation of the item being tested, and shall be selected from those specified in Table 1,
30、 unless otherwise approved by the customer. The test fluid shall meet the following requirements. a) The test fluid shall be filtered to remove particulates greater than 1 m and shall not exceed 10 mg/l of nonvolatile residue (NVR) (see ISO 5789). For particle analysis where NVR analysis is not requ
31、ired, the maximum allowable NVR level of the test solvent shall not exceed 50 mg/l. b) Isopropanol and ethanol shall not be used as the test fluid for oxidizer systems and hardware unless the softgoods are removed or are applied with a suitable pretreatment process. Softgoods for oxidizer systems sh
32、ould be cleaned with a waterbased process and blown dry with Type A nitrogen conforming to ISO 14951-3. If the softgoods are cleaned with isoproanol or ethanol purge, the softgoods shall be purged with Type A nitrogen conforming to ISO 14951-3, until the methane hydrocarbon equivalent of the effluen
33、t gas does not exceed that of the source gas. Alternatively, the softgoods may be vacuum dried as described in ISO 14952-5:2003, 5.2. c) Subtraction of the test fluid blank particle count from the test sample particle count shall not be allowed. d) The quality of the test fluids shall be verified at
34、 least once a day prior to use. e) Some test fluids may have low threshold limit values; therefore, chemical hygiene tables should be consulted prior to use. ISO 14952-3:2003(E) ISO 2003 All rights reserved 3 f) The NVR of the flushing solvent should be less than or equal to the NVR of the cleanline
35、ss level being verified. g) The test fluids shall be compatible with the fluid used in the system or components being tested. WARNING Halogenated solvents shall not be used on titanium alloys. 4.4.3 Test fluid volume for analysis The test fluid volume required for analysis shall be dependent upon th
36、e analytical method employed. The standard test sample shall be 500 ml of test fluid to ensure that all critical surfaces are flushed. The 500-ml sample of test fluid shall represent a minimum surface area of 0,1 m2 to a maximum of 0,5 m2. For very large items, the volume of flushing solvent should
37、correlate to a minimum sampling area. In cases where all critical surfaces can be sampled with 100 ml of test fluid and the analytical method requires 100 ml or less of test fluid, a 100 ml sample of test fluid shall be allowed to represent 0,1 m2 of critical surface area, if approved by the custome
38、r. Table 1 Solvents, maximum allowable nonvolatile residue Maximum allowable NVR Test fluid Solvent General use mg/l Oxidizer mg/l Perfluoro-n-butyl methyl ether (C4F9OCH3) 10 10 Tetrachloroethylenea 10 10 Perfluoro-n-butyl methyl ether (20 % to 80 % by mass) and perfluoroisobutyl methyl ether (20 %
39、 to 80 % by mass) 10 10 Isopropanol 10 not allowed Ethanol 10 not allowed Azeotrope of HFC 43-10 MEE (62 % by mass ) and trans- 1,2-dichloroethylene (38 % by mass)a 10 10 HCFC - 225 ca/cba 10 10 HCFC-141ba 10 10 HFC 43-10 MEEa 10 10 HFE 7100 10 10 HFE 71DE 10 10 a These solvents have low threshold l
40、imit values and may pose a hazard in controlled areas or cleanrooms. 4.4.4 Test fluid-flush procedure (solvent) The fluid-flush procedure shall be as follows. a) Ascertain the test procedure and total volume of test fluid necessary to flush the cleaned item or items in accordance with Method I (see
41、5.1.1). b) Flush all critical surfaces uniformly with the test fluid. Tubing, piping and hoses shall be flushed in accordance with either Method I or Method II (see 5.1.1 and 5.1.2). Where flushing does not reach all interior surfaces, the test fluid shall be introduced and the item shall be manuall
42、y shaken or rolled until all interior surfaces are wetted. Large, difficult-to-flush items may be positioned so that the vessel can be filled from the bottom and overflowed from the top. ISO 14952-3:2003(E) 4 ISO 2003 All rights reserved c) Catch the test fluid in a precision-cleaned container. d) I
43、mmediately upon the completion of step c), dry the tested items in accordance with the applicable drying procedure. Some analytical methods specify other test procedures (see Clause 5). 4.4.5 Analysis of test fluid-flush sample (solvent) 4.4.5.1 General When a solvent is used as the test fluid, the
44、test sample shall be analysed for particle population and NVR by the following recognized analytical methods. Other analytical methods may be used which have demonstrated accuracy and repeatability, provided that their use is approved by the customer. 4.4.5.2 Particle population analysis (solvent-fl
45、ush) The solvent-flush sample shall be analysed for particle population as follows. a) Microscopic particle population The particle analysis shall be performed in accordance with 5.2. b) Particle population analysis (automatic particle counters) Automatic liquidborne particle counters may be used fo
46、r final verification of cleanliness of the end product, provided the individual counters have demonstrated accuracy and repeatability, which correlates with accepted analytical methods, and provided that their use is approved by the customer. 4.4.5.3 NVR analysis (solvent-flush) 4.4.5.3.1 General Th
47、e solvent-flush samples that have been filtered in accordance with 4.4.5.2 shall be analysed for NVR by one of the following methods. 4.4.5.3.2 Gravimetric NVR analysis method The filtered solvent sample shall be evaporated to determine the NVR content in accordance with 5.3. 4.4.5.3.3 Solvent purit
48、y meter A solvent purity meter may be used for final verification of cleanliness of the end product, provided the individual meter has demonstrated accuracy and repeatability, which correlates with accepted analytical methods, and provided that its use is approved by the customer. 4.4.5.3.4 Infrared
49、 spectrometric NVR analysis method Infrared (IR) spectrometric NVR analysis of solvent samples may be used if the following apply: a) the method quantifies hydrocarbons and other contaminants which are reactive with liquid oxygen or hypergolic fluids; b) the analysis method has demonstrated accuracy and repeatability and the method is approved by the customer. -,-,- ISO 14952-3:2003(E) ISO 2003 All r