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    ISO14993金屬和合金的腐蝕.在鹽霧、干燥和潮濕條件下循環(huán)暴露的加速試驗

    2021-06-22 16:16:15  來源:上海鼎徵儀器儀表設備有限公司

    ISO14993金屬和合金的腐蝕.在鹽霧、干燥和潮濕條件下循環(huán)暴露的加速試驗

     

    ISO14993金屬和合金的腐蝕試驗箱

    Corrosion of metals and alloys — Accelerated testing

    involving cyclic exposure to salt mist, dry and wet

    conditions

    WARNING — This document may involve hazardous materials, operations and equipment. It does

    not purport to address all of the safety problems associated with its use. It is the responsibility

    of the user of this document to establish appropriate safety and health practices.

    1 Scope

    This document specifies the apparatus and test procedure to be used in conducting accelerated

    corrosion tests for the comparative evaluation of metallic materials with or without permanent

    corrosion protection or temporary corrosion protection in salt-contaminated outdoor environments.

    The test involves cyclic exposure of the specimens to neutral salt mist, “dry” and “wet” conditions. The

    type of test specimen and the exposure period are not specified.

    The particular advantages of this test over common accelerated tests such as the neutral salt spray

    (NSS) test lie in its ability to better reproduce the corrosion that occurs in outdoor salt-contaminated

    environments.

    This document is applicable to

    metals and their alloys,

    metallic coatings (anodic and cathodic),

    conversion coatings,

    anodic oxide coatings, and

    organic coatings on metallic materials.

    NOTE

    Methods of test for coatings to determine their resistance, in the presence of scribe marks through

    to the substrate, to various cyclic corrosion conditions which include the condensation of water on the test

    specimens during periods of humidity are given in ISO 11997-1.

    2 Normative references

    The following documents are referred to in the text in such a way that some or all of their content

    constitutes requirements 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 1514, Paints and varnishes — Standard panels for testing

    ISO 2808, Paints and varnishes — Determination of film thickness

    ISO 4623-2:2016, Paints and varnishes — Determination of resistance to filiform corrosion — Part 2:

    Aluminium substrates

    ISO 8044, Corrosion of metals and alloys — Basic terms and definitions

    ISO 17872, Paints and varnishes — Guidelines for the introduction of scribe marks through coatings on

    metallic panels for corrosion testing

    3 Terms and definitions

    For the purposes of this document, the terms and definitions given in ISO 8044 and the following apply.

    ISO and IEC maintain terminological databases for use in standardization at the following addresses:

    ISO Online browsing platform: available a

    3.1

    reference material

    material with known test performance

    3.2

    reference specimen

    portion of the reference material (3.1) that is to be exposed with the intention to check the reproducibility

    and repeatability of the test results for the test cabinet in use

    3.3

    test specimen

    specific portion of the samples upon which the testing is to be performed

    3.4

    substitute specimen

    specimen made of inert materials (such as plastic or glass) used for the substitute of a test specimen (3.3)

    4 Test solution

    4.1 General

    Instructions for the preparation and use of a neutral sodium chloride solution are given in 4.2 and 4.3.

    4.2 Preparation of the sodium chloride solution

    Dissolve a sufficient mass of sodium chloride in distilled or deionized water with a conductivity no

    higher than 20 μS/cm at 25 °C ± 2 °C to produce a concentration of 50 g/l ± 5 g/l. The sodium chloride

    concentration of the sprayed solution collected shall be 50 g/l ± 5 g/l. The specific gravity range for a

    50 g/l ± 5 g/l solution is 1,029 to 1,036 at 25 °C.

    The sodium chloride shall not contain a mass fraction of the heavy metals of copper (Cu), nickel (Ni) and

    lead (Pb) in total more than 0,005 %. It shall not contain a mass fraction of sodium iodide more than

    0,1 % and a mass fraction of total impurities more than 0,5 %, calculated for dry salt.

    NOTE

    Sodium chloride with anti-caking agents can act as corrosion inhibitors or accelerators. A useful

    sodium chloride salt grade is a grade named Ph. Eur/USP or JIS, ACS.

    4.3 pH adjustment

    Adjust the pH of the salt solution so that the pH of the sprayed solution collected within the test cabinet

    is 6,5 to 7,2 at 25 °C ± 2 °C. Check the pH using electrometric measurement. Measurements of pH

    shall be done using electrode suitable for measuring in weakly buffered sodium chloride solutions in

    deionized water. Make any necessary corrections by adding hydrochloric acid, sodium hydroxide or

    sodium bicarbonate solution of analytical grade.

    NOTE

    Possible changes in pH can result from loss of carbon dioxide from the solution when it is sprayed.

    Such changes can be avoided by reducing the carbon dioxide content of the solution by, for example, heating it

    to a temperature greater than 35 °C before it is placed in the apparatus, or by making the solution from freshly

    boiled water.

    5 Apparatus

    5.1 Component protection

    All components in contact with the salt mist spray or the test solution shall be made of, or lined with,

    materials which are resistant to corrosion by the test solution and which do not influence the corrosivity

    of the sprayed test solution.

    The supports for the test specimen shall be constructed such that different substrate types do not

    influence each other. It shall also be constructed so that the supports themselves do not influence the

    test specimens.

    5.2 Exposure equipment

    5.2.1 Test cabinet, that meets the conditions of homogeneity and distribution of the spray. Due to the

    limited capacity of test cabinets smaller than 0,4 m3, the effect of the loading of the test cabinet on the

    distribution of the spray and temperature shall be carefully considered. The solution shall not be sprayed

    directly onto test specimens but rather spread throughout the test cabinet so that it falls naturally down

    on them. The upper parts of the test cabinet shall be designed so that drops of sprayed solution formed

    on its surface do not fall on the specimens being tested.

    The size and shape of the test cabinet shall be such that during periods of exposure to salt mist spray,

    the collection rate of solution in the test cabinet is within the limits specified in 8.2.

    NOTE

    A schematic diagram of one possible design of test cabinet and associated apparatus for salt mist

    cyclic corrosion testing is shown in Annex A.
     

    5.2.2 Humidity and temperature control system, that maintains the test cabinet and its contents

    at the specified temperature and humidity (see 8.1). The temperature shall be measured at a position at

    least 100 mm from walls and radiant heat sources.

    5.2.3 Spraying device, for spraying the salt solution during periods of exposure to salt mist spray

    comprising a supply of air at controlled pressure, a reservoir containing the solution to be sprayed and

    one or more atomizers.

    The compressed air supplied to the atomizers shall be passed through a filter to remove all traces

    of oil or solid matter and shall be at an overpressure of 70 kPa to 170 kPa. The pressure is typically

    98 kPa ± 10 kPa but can vary depending on the type of test cabinet and atomizer used.

    5.2.4 Air saturator, consisting of a saturation tower containing hot water at a temperature higher

    than that of the test cabinet. In order to prevent evaporation of water from the sprayed droplets, the air

    shall be humidified before entering the atomizer, by passage through this tower.

    During periods of exposure to the salt mist, the appropriate temperature depends on the pressure used

    and on the type of atomizer nozzle and shall be adjusted so that the rate of collection of spray in the test

    cabinet and the concentration of the collected spray are kept to within the specified limits (see 8.2). The

    level of water shall be maintained automatically to ensure adequate humidification.

    The atomizers shall be made of inert material, e.g. glass or plastic materials. Baffles may be used to

    prevent direct impact of spray on the test specimens and the use of adjustable baffles is helpful in

    obtaining constant distribution of spray within the test cabinet. The level of the salt solution in the

    supply tank shall be maintained automatically to ensure constant spray delivery throughout the test.

    5.2.5 Collecting devices, at least two, consisting of clean funnels with a collecting area of approximately

    80 cm2 made of glass or other chemically inert material, with the stems inserted into graduated cylinders

    or other similar containers. The purpose of the collecting devices is to confirm that the collection rate

    is within specified limits (see 8.2). They shall be placed in the zone of the test cabinet where the test

    specimens are placed, one close to the spray inlet and one remote from an inlet and in such a way that

    only spray, and not the liquid falling from specimens or from parts of the test cabinet, is collected.

    5.2.6 Air dryer, comprising a heating device and fan to supply dried air of the specified humidity

    during “dry” periods (see Table 1).

    5.2.7 Exhaust system, by which air is exhausted from the test cabinet. It shall not be influenced by the

    back pressure of the atmosphere when the air is released at a point outside the building.

    6 Test specimens

    6.1 The number and type of test specimens, their shape and their dimensions, shall be selected in

    accordance with the specification for the material or product being tested. When not specified, these

    parameters shall be mutually agreed between the interested parties. Unless otherwise specified or agreed,

    test specimens with an organic coating to be tested shall be made from burnished steel conforming

    with ISO 1514, and of approximate dimensions 150 mm × 100 mm × 1 mm. Annex C describes how test

    specimens with organic coatings shall be prepared for testing. Annex D gives supplementary information

    that shall be supplied, as appropriate, for testing test specimens with organic coatings.

    6.2 The test specimens shall be thoroughly cleaned before testing, if not otherwise specified. The

    cleaning method employed shall depend on the nature of the material, its surface and the contaminants

    and shall not include the use of any abrasives or solvents which may attack the surface of the specimens.

    Care shall be taken that test specimens are not re-contaminated after cleaning by careless handling.

    6.3 If the test specimens are cut from a larger coated sample, cutting shall be carried out in such a way

    that the coating is not damaged in the area adjacent to the cut. Unless otherwise specified, the cut edges

    shall be adequately protected by coating them with a suitable material, which remains stable under the

    conditions of the test, such as paint, wax or adhesive tape.

    7 Arrangement of the test specimens

    7.1 The test specimens shall be placed in the test cabinet so that they are not in the direct path of spray

    from the atomizer.

    7.2 If the test cabinet is not full of test specimens, it is recommended to fill it with inert flat substitute

    specimens of the same size as a reference specimen, in order to ensure uniformity of the spray. The

    material used shall be plastics, glass, or other inert insulating materials, which would not influence

    corrosion of the test specimens being tested.

    7.3 The angle at which the surfaces of the test specimens are exposed in the test cabinet is very

    important. The specimen shall, in principle, be flat and placed in the test cabinet facing upwards at an

    angle as close as possible to 20° to the vertical. This angle shall, in all cases, be within limits 15° to 25°.

    In the case of irregular surfaces, e.g. entire components, these limits shall be adhered to as closely as

    possible.

    7.4 The test specimens shall be arranged so that they do not come into contact with the test cabinet

    and so that the surfaces to be tested are exposed to free circulation of spray. The specimens may be placed

    at different levels within the test cabinet, as long as the solution does not drip from specimens or their

    supports at one level onto other specimens placed below. However, for a new examination, or for tests with

    a total duration exceeding 96 h, location permutation of specimens is permitted. In this case, the number

    and frequency of the permutations are left to the operator and shall be indicated in the test report.

    7.5 The supports for the test specimens shall be made of inert non-metallic material, such as glass,

    plastic or suitably coated wood. If it is necessary to suspend specimens, the material used shall not be

    metallic but shall be synthetic fibre, cotton thread or another inert insulating material.

    8 Operating conditions

    8.1

    The test conditions are summarized in Table 1.

     

    1

    Salt mist conditions

    1) Temperature

    2) Salt solution

    35 °C ± 1 °C

    pH 6,5 to 7,2, salt concentration 50 g/l ± 5 g/l as

    described in Clause 4

     

    2

    “Dry” conditions

    (The air is purged under dry conditions.)

    1) Temperature

    2) Relative humidity

     

    60 °C ± 1 °C

    < 30 %

     

    3

    “Wet” conditions

    (Condensation on the test specimens shall not occur

    under wet conditions.)

    1) Temperature

    2) Relative humidity

     

    50 °C ± 1 °C

    > 95 %

     

    4

    Period and content of a single exposure cycle

     

    Total period 8 h, as follows:

    Salt mist spray 2 h

    “Dry” conditions 4 h

    “Wet” conditions 2 h

    (These times include the time for reaching the

    specified temperature for each condition.)

    5


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