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Salt Spray & Cyclic Corrosion Testing

Increase font size  Decrease font size Date:2013-07-08  Views:3074
Core Tip:Salt Spray Cyclic Corrosion TestingThe purpose of this document is to explain the fundamental differences between these

Salt Spray & Cyclic Corrosion Testing

The purpose of this document is to explain the fundamental differences between these two popular forms of corrosion test.

Salt Spray Test

Salt is one of the most commonly occurring compounds in the world. It is found in the oceans, in the atmosphere, on ground surfaces and in lakes and rivers.

The salt spray test is one of the most wide-spread and long established corrosion tests:

  • In 1914 a Mr J. A. Capp proposed the use of neutral salt spray for the corrosion evaluation of protective coatings on ferrous surfaces.
  • ASTM B117 was the first internationally recognised salt spray standard, originally published in 1939. This is still the most popular test world-wide today and has often been used as the basis for other ‘national’ or ‘industry specific’ salt spray test standards.

So salt spray testing has a long history, with a lot of test data available relating to the expected corrosion resistance of a wide variety of materials and surface coatings.

Such salt spray tests generally require the following test conditions to be created:

  1. A 5% by weight salt water solution is atomised by compressed air into a spray (also known as a ‘fog’ or ‘mist’) which is directed into an enclosed test chamber, containing the samples to be tested. The samples are located beneath the atomised salt spray and therefore not directly impinged upon by it.
  2. The salt spray so created ‘falls-out’ on to the samples under test at a rate of 1.0 to 2.0ml/80cm²/hour. Generally, and unless otherwise stated, the pH of this fall-out shall be neutral and controlled to between pH6.5 to 7.2.
  3. The salt spray atomisation is continuous for the duration of the test. The test duration varies according to the type of test sample and its intended application, but is generally given in multiples of 24 hours.
  4. Generally, and unless otherwise stated, the test chamber temperature shall be controlled at +35C, and the humidity shall be maintained at 95-100%RH. These conditions are maintained constantly for the duration of the test.

Other parameters are also controlled, such as the purity of the salt and water to be used to make up the test solution, and the position/orientation of the test samples inside the chamber. The purpose being to control all test variables to the extent that only the corrosion resistance of the samples under test may vary.

Because the test conditions specified for salt spray testing are not typical of a naturally occurring environment, this type of test can not be used as a reliable means of predicting the ‘real world’ service life expectancy for the samples under test. However, it is useful for conducting comparative testing, where the actual results obtained are compared with the results expected (perhaps from previous tests). Its main application is therefore in the role of quality auditing. So, for example, a spray test can be used to ‘police’ a production process and forewarn of potential manufacturing problems or defects, which might affect corrosion resistance.

Despite its lack of correlation to ‘real world’ corrosive conditions, the salt spray test remains popular, in a wide range of industries, as an effective means of quality auditing relative corrosion resistance, for a variety of surface coatings and/or the processes by which they are applied.

Cyclic Corrosion Test (also known as CCT)

It is generally accepted that CCT, as we know it today, originated in the automotive industry during the 1980’s. Although there had been earlier experiments with ‘cyclic derivatives’ of the traditional salt spray test, none of these were widely adopted.

The reason CCT was developed was to address the fundamental weakness of the traditional salt spray test, which is that it can not be used as a reliable means of predicting the ‘real world’ service life expectancy for materials and products. This was of particular concern in the automotive industry.

With ever increasing consumer pressure for improved vehicle corrosion resistance and a few ‘high profile’ corrosion failures amongst some vehicle manufactures – with disastrous commercial consequences, the automotive industry recognised the need for a different type of corrosion test. One that simulated the types of conditions a vehicle might encounter naturally, but recreate and accelerate these conditions, with good repeatability, within the convenience of the laboratory.

Taking results gathered largely from ‘real world’ exposure sites, automotive companies, led originally by the Japanese auto industry, developed their own Cyclic Corrosion Tests. These have evolved in different ways for different vehicle manufacturers, and such tests still remain largely industry specific, with no truly international CCT standard. However, they all generally require most of the following conditions to be created, in a repeating sequence or ‘cycle’, though not necessarily in the following order:

  1. A salt spray ‘pollution’ phase. This may be similar to the traditional salt spray test, although in some cases direct impingement by the salt solution on the test samples, or even complete immersion in salt water, is required. However, this ‘pollution’ phase is generally shorter in duration than a traditional salt spray test.
  2. An air drying phase. Depending on the test, this may be conducted at ambient temperature, or at an elevated temperature, with or without control over the relative humidity and usually by introducing a continuous supply of relatively fresh air around the test samples at the same time. It is generally required that the samples under test should be visibly ‘dry’ at the end of this test phase.
  3. A condensation humidity ‘wetting’ phase. This is usually conducted at an elevated temperature and generally a high humidity of 95-100%RH. The purpose of this phase is to promote the formation of condensation on the surfaces of the samples under test.
  4. A controlled humidity/humidity cycling phase. This requires the tests samples to be exposed to a controlled temperature and controlled humidity climate, which can either be constant or cycling between different levels.

The above list is not exhaustive, since some automotive companies may also require other climates to be created in sequence as well, for example; sub-zero refrigeration, but it does list the most common requirements.

Because the test conditions specified for CCT simulate and accelerate naturally occurring conditions, this type of test can be used as a means of predicting the ‘real world’ service life expectancy for the samples under test. So, although a CCT can be useful for conducting comparative tests, like a traditional salt spray test, it is also possible to use a CCT chamber as a research and development tool in the development of improved corrosion resistant materials and surface coatings.

This flexibility is starting to make the CCT an increasingly popular alternative to traditional salt spray testing, particularly within the automotive industry where it originated, but also in other industries as well.

 
 
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