Taking results gathered largely from ‘real world’ exposure sites, automotive companies, led originally by the
Japanese automobile 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: • 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
specimens, or even complete immersion in salt water, is required. However, this ‘pollution’ phase is generally shorter in duration than a traditional salt spray test. • 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. • 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. • 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. When cycling between different levels, the rate of change may also be specified. 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. == Tests Standards ==