Device for measuring material deterioration in equipment

What is claimed is: 1. A device for measuring material deterioration in equipment, comprising: a coupon configured for selective insertion and removal through an opening in the equipment, the coupon comprising a tip providing a fluid contacting surface for positioning within an interior of an equipment and in contact with fluid; and a chamber internal to the coupon and having an opening for access thereto, the chamber defined at least in part by a probe facing surface positioned opposite to the fluid contacting surface and facing the opening, the chamber separated by the tip from fluid in the equipment at the fluid contacting surface; and a fastener configured for selectively affixing the coupon to the equipment, the fastener positioned outside of the equipment. 2. The device for measuring material deterioration in equipment as in claim 1 , wherein the fluid contacting surface is positioned flush with an interior surface of the equipment adjacent to the fluid contacting surface. 3. The device for measuring material deterioration in equipment as in claim 1 , wherein the chamber is symmetrical about a chamber axis extending normal to the probe facing surface. 4. The device for measuring material deterioration in equipment as in claim 3 , wherein within a 2 mm radius of the chamber axis the probe facing surface has a flatness within a tolerance of 0.0002 mm or less. 5. The device for measuring material deterioration in equipment as in claim 1 , wherein the fluid contacting surface is contoured to match a shape of an interior surface of the equipment surrounding the fluid contacting surface. 6. The device for measuring material deterioration in equipment as in claim 1 , wherein the internal chamber is defined by one or more internal surfaces configured for orienting a transducer positioned within the chamber such that the transducer will emit signals along a direction normal to the probe facing surface. 7. The device for measuring material deterioration in equipment as in claim 1 , further comprising an ultrasonic transducer positioned within the chamber and oriented so that signals are emitted from the ultrasonic transducer along a direction normal to the probe facing surface. 8. The device for measuring material deterioration in equipment as in claim 7 , wherein the internal chamber is further defined by a frustoconical surface configured for complementary receipt of the ultrasonic transducer. 9. The device for measuring material deterioration in equipment as in claim 1 , wherein the fastener comprises a sleeve surrounding at least a portion of the coupon. 10. The device for measuring material deterioration in equipment as in claim 1 , wherein the fastener comprises: a base attached to the equipment; and a nut removably attached to the base. 11. The device for measuring material deterioration in equipment as in claim 10 , wherein the fastener comprises a sleeve surrounding at least a portion of the coupon and pressed between the base and the nut when the nut is attached to the base. 12. The device for measuring material deterioration in equipment as in claim 11 , wherein the sleeve comprises polytetrafluoroethylene. 13. The device for measuring material deterioration in equipment as in claim 11 , wherein the sleeve comprises an acetal resin. 14. The device for measuring material deterioration in equipment as in claim 1 , wherein the equipment has a wall thickness at the opening where the coupon is inserted, and wherein a thickness of the coupon between the probe facing surface and the fluid contacting surface is less than the wall thickness. 15. A device for measuring material deterioration in equipment, comprising: a coupon configured for insertion and removal through an opening in an equipment, the opening having a surrounding interior surface defined by the equipment and formed from an equipment material, the coupon comprising a fluid contacting surface for positioning within an interior of the equipment and in contact with a fluid, wherein the fluid contacting surface is flush with the surrounding interior surface of the equipment, the fluid contacting surface consisting of material having a same composition as the equipment material; and a fastener configured for selectively affixing the coupon to the equipment, the fastener positioned outside of the equipment; wherein a gap is formed between the fluid contacting surface and the surrounding interior surface, the gap being in the range of 0.0025 inches to 0.0050 inches. 16. The device for measuring material deterioration in equipment as in claim 15 , wherein the coupon has a longitudinal axis about which the coupon is symmetrical. 17. The device for measuring material deterioration in equipment as in claim 15 , wherein the fluid contacting surface is contoured to match a shape of an interior surface of the equipment surrounding the fluid contacting surface. 18. The device for measuring material deterioration in equipment as in claim 15 , wherein the coupon defines a tip and a chamber separated from the fluid by the tip. 19. A device for measuring material deterioration in equipment, comprising: a coupon configured for insertion and removal through an opening in the equipment, the opening of the equipment having a surrounding interior surface formed from a material of the equipment that has an equipment material composition, the coupon comprising: a tip defining a fluid contacting surface for positioning within an interior of an equipment in contact with a fluid in the equipment, the fluid contacting surface flush with the surrounding interior surface of the equipment, the fluid contacting surface consisting of a material having a composition that is the same as the equipment material composition, the tip also defining a probe facing surface positioned opposite to the fluid contacting surface along a longitudinal axis of the coupon; and a fastener configured for selectively affixing the coupon to the equipment, the fastener positioned outside of the equipment. 20. The device of claim 19 , wherein the coupon defines a chamber separated from the fluid in the equipment by the tip.