A coupon is also known as a corrosion coupon, a corrosion monitoring coupon or a test coupon.

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A coupon is a simple and highly effective tool that gives a quantitative estimate of corrosion rates that take place within a specific operating system. These coupons also provide a visual signal of the corrosion type that may be occurring in the system under observation.

Corrosionpedia Explains Coupon

Coupons provide cost-effective corrosion monitoring of an operating system and facilitates corrosivity measurement in a system in the most accurate manner. This is usually done through the observation of the corrosion rate measured in mils per year of a coupon exposed to the system. With this analysis, valuable data can be extrapolated about the life expectancy of materials.

Coupons are pieces of metal that are available in varying shapes, sizes and materials. They contain the same chemical composition as the equipment to be monitored. Corrosion coupons are exposed to a corrosive environment similar to that in process facilities for a specified period of time and can give visual signs of the corrosion rate and type.

Such coupons are usually stenciled with a unique serial number for easy identification.

The three most common types of coupons are:

• Strip ¾ &#; This is the most widely used coupon for all corrosion evaluations.
• Strip ½ &#; This is also widely used with narrow ports or low-pressure equipment.
• Disc &#; This coupon type is applied in multiple or stacked monitoring applications.

With the aid of erosion and corrosion monitoring coupons studies can be conducted to meet the highest standards level.

Corrosion coupons and how to use them

Introduction

A common method of determining corrosion rates is by using corrosion coupons, which are uniform-sized, pre-weighed strips of metal. Corrosion coupons, representative of system metals, are inserted into a coupon rack installed on the system to be checked. Normally, system water is allowed to circulate over the corrosion coupons for about 30 - 90 days. The coupons are then removed and returned to a lab where they are cleaned and re-weighed. From this weight loss and the dimensions of the coupon, a corrosion rate in mils/year (mpy) is determined. 1.0 mil/year translates into 1/1,000th of an inch of metal loss per year. To convert corrosion rates expressed in millimeters/year (mm/y), a common metric measurement, to mpy, multiply mm/y times 39.4.

Interpretation of Results

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Whether a corrosion rate is good or bad is relative to the water used and the operating conditions. No absolute interpretation is practical. However, Table One gives guidelines that have been published for assessing corrosion in cooling tower systems and closed loops using fresh water make up. Keep in mind these rates and comments assume general system corrosion. Pitting corrosion can cause rapid metal failure even if the overall corrosion rate is low.

The following describes different forms of attack that can be observed on coupons.

Generalized Attack - Uniform corrosion over entire surface of the coupon. Not usually a concern unless the mpy is high.

Pitting Attack - A general term given to any depression on the metal surface caused by corrosion. Pits can vary considerably in size and depth as well as density. Less than 10 pits per side is sometimes termed isolated pitting. Low inhibitor levels, high chlorides, pH excursions, under-deposit attack, or copper plating can all cause pitting.

Localized Areas of Attack - Usually the result of under-deposit corrosion. May indicate the need for better deposit control and/or low flow rates through the coupon rack. If the depression shows concentric rings with the deepest penetration in the center, it may be due to corrosive bacteria attack, such as can be caused by microbiologically induced corrosion (MIC).

Copper Plating - Results from the deposition of soluble copper on mild steel or other non-copper alloys. Copper plating can cause severe galvanic corrosion and metal failure due to pitting attack.

Edge Attack - Since the edges of coupons are highly stressed during fabrication, they tend to be preferential sites for corrosion. Edge attack does not generally indicate a major problem unless severe.

Attack Under the Coupon Holder - If metal loss is localized to the area under the coupon holder, this may merely represent the influence of the coupon holder to stimulate under-deposit or crevice attack and not reflect the characteristics of the recirculating water. Although these effects cannot be eliminated from corrosion rate calculations, they should be noted when interpreting the results. Insuring the coupon holder and bolts are fastened tightly helps minimize these effects.

Installation Notes

1. The coupons have been cleaned and accurately weighed prior to shipping. They should not be handled any more than necessary when installed. Avoid fingerprints, oil, or grease contact. Use a paper towel or similar covering while handling the coupon prior to nut. Metallic bolts and nuts will increase the probability of galvanic or contact corrosion at the secured end of the coupon.
2. Be sure the numbered corrosion coupons are recorded according to position and system for proper correlation. The dates of installation and removal from the system are critical.
3. Table Two gives the preferred order of installation for common metals.
4. To ensure that a representative sample of the bulk system water is directed over the coupons, the coupon rack should be installed on a line that is completely separate from any chemical injection points. The piping to a coupon rack should not be constructed of copper or copper alloys to reduce the potential for false high corrosion rates due to galvanic corrosion.
5. The flow should be adjusted so that there is no turbulence or air mixture. To avoid erosion of copper, a flow rate of three to five feet per second is desired. This translates into 4 to 7 gallons per minute in a three quarter inch (3&#;4&#;) coupon rack and 8 to 12 gallons per minute in a one inch (1&#;) coupon rack. A flow meter or some other type of flow control device is recommended. Keep in mind that high flow rates can contribute to erosion while low flow rates (less than two feet per second) can accelerate corrosion and biological fouling.
6. Test periods are generally 90 days. Coupons may be observed at 30 days intervals for reference and signs of corrosive conditions. In observing the coupons, do not disturb the surface by scraping or removing material.
7. Typically coupons show some rapid corrosion indications initially, usually in the form of corrosion products forming on the surface, particularly at points where numbered stamps are made, edges of coupons, and around bolt heads. The rapid corrosion tapers off with time. This is more prevalent with steel than copper. Unless corrosion is significant, there should be no cause for alarm.
8. When the coupon is removed for lab evaluation, physical handling of it should be kept to a minimum. Unless microbial induced corrosion is suspected, removal of corrosion products should be minimized and the coupon thoroughly dried before returning to the lab for analysis in the paper envelope in which it was originally sent.
9. If microbial induced corrosion is suspected, the corrosion products should be scraped off with a dry plastic utensil into a bio-sample bottle containing system water. The coupon can then be dried and returned to the lab for analysis along with the bio-sample bottle.

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