Metal treatment – Process of modifying or maintaining internal physical... – With measuring – testing – or sensing
Reexamination Certificate
2001-07-19
2004-04-20
Yee, Deborah (Department: 1742)
Metal treatment
Process of modifying or maintaining internal physical...
With measuring, testing, or sensing
C148S508000, C148S511000, C148S639000, C148S644000
Reexamination Certificate
active
06723185
ABSTRACT:
The present invention relates to a method for producing controlled defects and residual stresses in test pieces.
Defects such as thermal fatigue cracks may appear in various components, e.g., in nuclear power plants, during operation. Non-destructive testing (NDT) procedures are used to examine pre defined valves, pipes, pipe connections, etc., during inspections carried out at regular intervals. In inspections carried out under field conditions, inaccuracies due to both the method and the personnel carrying them out always arise. Test pieces incorporating artificially created cracks similar to real ones are used to qualify NDT procedures and inspectors. The international PISC I, II, and III studies of the reliability of the non-destructive testing of materials, which have revealed obvious deficiencies in the detection and definition of defects, have demonstrated the need for qualification.
For example, qualification is required in the inspection of nuclear power plants. Instructions have been issued for the qualification of the NDT inspection of nuclear power plants (in the USA, ASME Code Section XI, in Europe, NRWG and ENIQ), according to which equipment, test pieces, procedures, and inspectors should be qualified.
According to the European qualification procedures, the dimensions (diameter, wall-thickness, etc.) of test pieces should correspond to the real objects being inspected. Similarly, the test pieces' other properties, such as material, shape, surface quality, method of manufacture, and location of welds must also correspond to those in actual plant components. The type, shape, size, location, orientation, and opening of the defects that occur must correspond closely enough to natural flaws The characteristics of the defects in qualification test pieces are highly significant to the entire qualification process. The use of test pieces with defects as similar as possible to natural defects will ensure that the inspection procedure in question can detect and define such defects with the required precision. Personnel-qualification tests determine if the inspector can detect and define the relevant defects with sufficient accuracy.
At present, methods are known for producing various kinds of cracks and defects in test pieces. In the known methods, an artificial crack is implanted to pieces usually by welding, a welding fault is made, or a notch is machined in the test piece. Japanese patent publication JP 57-034439 discloses a method that can be used to produce a crack in the surfacing of a plate-like piece. Another, also Japanese, patent publication JP 58-055752 discloses a method for making an artificial crack, in which a hole is machined in the surface of a joint between two pieces, after which the pieces are joined together. A third Japanese patent publication, JP 8-219953, discloses a method for manufacturing defects by machining grooves in a piece and filling them with a material with different acoustic properties to those of the parent material. No method is known for producing a defect in a piece of any shape at all, at any place at all, and of any desired orientation and shape. Producing cracks similar to natural ones is one of the central problems in qualification.
A method for producing a state of tensile residual stress is also known from U.S. Pat. No. 5,013,370, in which a tensile residual stress is induced in a test piece by cooling one surface of the piece and locally heating the opposite surface. The invention disclosed in the above publication requires the object or test piece being dealt with to have at least one stress-free portion, where a state of tensile residual stress can be induced. Heating is directed to this area and, if the tensile residual stress is to be produced in more than one area, the initial state of each of them must be stress-free.
In the publication referred to, opposite sides of the piece are heated and cooled. This arrangement induces an uncontrolled state of tensile stress in the area being treated. According to the patent in; question, a crack can be created in the induced field of tensile stress, e.g., by means of an aggressive crack-promoting environment, such as a boiling magnesium chloride solution, oxygenated water at a high temperature, etc.
Unlike the invention according to U.S. Pat. No. 5,013,370, the present invention can be used to create a wanted and controlled crack or a controlled residual stress state (either tensile or compressive), with no environmental or stress-state demands. As, in the present invention, the heating/cooling is not directed to different sides of the piece, there are no requirements concerning the size and shape of the piece. In addition, there are no requirements concerning the residual stress state in the test piece in its initial state.
The above and other advantages and benefits of the invention are achieved by means of a method, the characteristic features of which are described in the accompanying Claims.
The basic idea of the invention is to repeatedly alternately heat and cool the piece being treated, i.e. to fatigue it thermally, which will result in a crack identical to a natural flaws, or in a desired controlled state of residual stress.
In general, it can be stated that cracks induced by means of the methods disclosed in the above publications do not correspond to natural flaws, which is an obvious deficiency when manufacturing such test pieces for qualification. At present, cracks are produced in qualification test pieces either by welding separate pieces containing cracks into a test piece, or by welding a hot crack into a test piece, or simply by machining a notch in a test piece. Cracks implanted by welding may be natural and taken from actual pieces that have cracks in operation, or be artificially produced in separate test pieces. No matter how the crack being implanted has originated, the weld from the implanting will remain in the material. A hot crack is made by machining a narrow groove in the test piece and then by welding it shut using parameters that will cause the weld to crack in the desired direction. The welded joints in test pieces resulting from these methods can be easily detected by NDT inspection methods. Such aspects of machined notches as width and progression do not correspond to those of natural flaws.
The method now developed can be used to flexibly manufacture cracks similar to natural ones in any location in the test piece, irrespective of the shape or dimensions. The cracks are nucleated directly in the surface of the test piece. No crack initiator (machined notch etc.) is required. The cracks are grown in the surface of the test piece without the material experiencing micro-structural or other changes detectable by NDT methods. This is a significant advantage, because when transplanted or welded cracks are used, the inspector may notice the welded seams in the test piece and be alerted to make a more thorough search for cracks in the same area. Cracks created by the method that has been developed also correspond well to natural cracks, in terms such as the propagation and branching of the crack and the radius of the crack tip, all of which affect, for instance, the signals received in ultrasonic inspection and their interpretation.
The method now developed is based on the phenomenon of thermal fatigue and a new application of it. The phenomenon of thermal fatigue as such has been known for a long time, particularly for materials used at high temperatures. The rapid cycling of heating and cooling in thermal fatigue causes steep temperature gradients to fluctuate in the test piece, resulting in stress and strain cycling that depend on the coefficient of thermal expansion of the material, and finally leading to fatigue damage.
Cracks manufactured using the method now developed are suitable for use in test pieces used to qualify NDT procedures. The cracks can be manufactured according to the following requirements:
the morphology of the crack corresponds sufficiently to a natural crack for the response to it, when inspected by an NDT procedure, to be
Elfving Kai
Hanninen Hannu
Kemppainen Mika
Saarinen Pekka
Virkkunen Iikka
Skinner and Associates
Trueflaw Oy
Yee Deborah
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