System and method for testing repassivation kinetics

What is claimed is: 1. A scratch tool apparatus adapted for an electrochemical system including an enclosure having a top cover with an opening for measuring the repassivation kinetics and corrosion inhibitor film persistency of a metallic material under simulated sour oil field conditions comprising: a unitary rectangular housing having a central section that extends longitudinally from a first longitudinal end to a second longitudinal end made of an insulating material and having an opening positioned toward the second longitudinal end, the housing including flanges that extend perpendicularly from the central section of the housing at the first longitudinal end, the central section being sized to fit into the opening of the cover of the electrochemical cell while the flanges extend so as not to fit through the opening and provide a seat for a top of the scratch tool to sit on top of the cover of the electrochemical cell; a sample holder positioned within the opening of the housing adapted to hold a sample composed of the metallic material while the sample is exposed to a surrounding environment; a shaft coupled to the sample holder which extends from the first longitudinal end of the housing to the sample holder that is manually operable to move the sample holder longitudinally; and a pin having a tip positioned proximal to a surface of the sample; wherein the shaft can be moved to cause motion of the sample relative to the pin tip to create a scratch on the surface of the sample, and the scratch tool can be coupled to an electrochemical cell in such manner that the sample can be scratched while the sample is immersed in an electrolyte with a sour field conditions. 2. The scratch tool apparatus of claim 1 , further comprising a conductive wire coupled at a first end to the sample, wherein the second end of the conductive wire can be coupled to an electrical power source to enable the sample to act as the anode of an electrochemical cell. 3. The scratch tool apparatus of claim 1 , further comprising an adjustment knob coupled to the pin, wherein the adjustment knob is configured to control a positioning and pressure exerted by the pin on the sample surface. 4. The scratch tool apparatus of claim 1 , wherein the pin is made from high speed steel (HSS). 5. The scratch tool apparatus of claim 1 , wherein the sample holder is configured to receive samples in the shape of a disc. 6. The scratch tool apparatus of claim 1 , wherein the flanges positioned at the first longitudinal end are opposite from the opening positioned toward the second longitudinal end, wherein the flanges are adapted to enable the scratch tool to be seated on an external surface of the enclosure while the second longitudinal end is immersed in the electrolyte.