RAJKOT METLAB SERVICES (RMS) material testing laboratory in RAJKOT, India undertakes a wide range of corrosion and stress corrosion test per ASTM, NACE or BIS. Tests can also be custom tailored to meet an individual client´s requirements.
Senior staff members with specific industry expertise cover a variety of corrosion problems that are encountered in industries such as oil and gas production, oil and gas transmission, energy conversion systems, and nuclear power systems.
A wide variety of corrosion related tests can be undertaken at RAJKOT METLAB SERVICES in India to determine weight loss corrosion, intergranular attack, pitting corrosion, corrosion fatigue, stress corrosion cracking, sulfide stress cracking, and hydrogen-induced cracking.Routine Corrosion tests include:
• Inter granular Corrosion Test (IGC) per ASTM A262 Practice A B C E & F
• Pitting Corrosion test as per ASTM G48 Specification
• Chloride Stress Corrosion Test as per ASTM G36 Specification
• Corrosion test as per ASTM G35 specification
• Corrosion test as per ASTM A761 Specification
Intergranular Corrosion Test (IGC) per ASTM A-262
At RMS, several methods exist for the testing of intergranular corrosion. To conduct these tests, we carefully choose a method which is suitable for the steel grade and grain boundary composition to be tested.
Intergranular corrosion in stainless steels may result from precipitation of carbides, nitrides or intermetallic phases. Only in the most highly oxidizing solutions can intergranular attack be caused by intermetallic phases. When a test is to be restricted to carbides, in a material containing nitrides or intermetallic phases, a less oxidizing solution is chosen.
The following tests are carried out by RAJKOT METLAB SERVICES in India as per the ASTM A262 specification.
• Oxalic Acid Test, ASTM A262, Practice A (Oxalic Acid Etch)
The oxalic acid etch test is a rapid method of screening those specimens of certain stainless steel grades which are essentially free of susceptibility to inter granular attack associated with chromium carbide participates. The test is used for acceptance but not rejection of material.
• Ferric Sulfate - Sulfuric Acid, ASTM A262 - Practice B (Streicher Test)
This test is based on weight loss determinations and provides a quantitative measure of the relative performance of the material evaluated. The procedure includes subjecting a specimen to a 24 to 120 hour boil in ferric sulfate - 50% sulfuric acid. This procedure measures the susceptibility of stainless steels and nickel alloys to inter granular attack associated with the precipitation of chromium carbides at grain boundaries.
• Nitric Acid, ASTM A262, Practice C, (Huey Test)
The specimens are boiled for five periods, each of 48 hours, in a 65 per cent solution of nitric acid. The corrosion rate during each boiling period is calculated from the decrease in the weight of the specimens. Properly interpreted, the results can reveal whether or not the steel has been heat-treated in the correct manner. The customer must specify the maximum permissible corrosion rate and, in applicable cases, data on sensibilizing heat treatment.
The Huey test environment is strongly oxidizing, and, is only used as a check on whether the material has been correctly heat treated. This test is suitable for the detection of chromium depleted regions as well as intermetallic precipitations, like sigma phase, in the material. The Huey test is also used for materials that come into contact with strongly oxidising agents, e.g. nitric acid. This procedure may also be used to check the effectiveness of stabilizing elements and of reductions in carbon content in reducing susceptibility to inter granular attack in chromium-nickel stainless steels.
• Copper - Copper Sulfate - 16% sulfuric acid, ASTM A262 - Practice E (Strauss Test)
This procedure is conducted to determine the susceptibility of austenitic stainless steel to inter granular attack associated with the precipitation of chromium-rich carbides. Once the specimen has been subjected to the solution boil, it is bent through 180° and over a diameter equal to the thickness of the specimen being bent. This test is based on a visual examination of the bent specimen.
• Copper - Copper Sulfate - 50% sulfuric acid, ASTM A262 - Practice F
This test is based on weight loss determination which provides a quantitative measure of the relative performance of the material evaluated. It measures the susceptibility of "as received" stainless steels to inter granular attack.
Pitting Corrosion Test, ASTM G48 Method B Specification
This Procedure is used to assist in the selection of test methods that can be used in the identification and examination of pits and in the evaluation of pitting corrosion to determine the extent of its effect. ASTM G48 Method B, Ferric Chloride Test involves exposing a specimen to a highly oxidizing acid chloride environment. The importance of this evaluation is to be able to determine the extent of pitting, either in a service application where it is necessary to predict the remaining life in a metal structure, or in laboratory test programs that are used to select the most pitting-resistant materials for service.
Corrosion test as per ASTM G 35 specification
The polythionic acid (sulfurous acid and hydrogen sulfide) environment provides a way of evaluating the resistance of stainless steels and related alloys to inter granular stress corrosion cracking. This practice can be applied to wrought products, castings, weld metal of stainless steels or other materials to be used in environments containing sulfur or sulfides.