Measuring and testing – Specimen stress or strain – or testing by stress or strain... – Threaded fastener stress
Reexamination Certificate
2002-10-08
2004-12-14
Lefkowitz, Edward (Department: 2855)
Measuring and testing
Specimen stress or strain, or testing by stress or strain...
Threaded fastener stress
Reexamination Certificate
active
06829944
ABSTRACT:
FIELD OF THE INVENTION
The invention relates generally to determining tension in bolts, and particularly, to a bolt tension gauging system, based on deformations in the head of the bolt.
BACKGROUND OF THE INVENTION
Fasteners are used to hold the plates of a joint together. By “fastener” we include as examples (but do not limit ourselves to), bolts, stud bolts, rods, rivets, etc. In addition to these fasteners, the present invention also applies to such devices as mine ceiling bolts and truss rods.
The axial tension force in the fastener clamps the plates together, or in the case of truss rods, holds nodes of a structure in some constant relation to one another. The problems in providing a known preload tension in a bolted joint are well known. For example a torque wrench used to tension a bolt even in best case provides only a plus or minus 25 percent error in tension, because of the unknown frictional work in torquing the bolt. Bolt elongation methods which consider the bolt as a very massive stiff spring and relate the tension to the measured bolt elongation via Hooke's Law have been used for many decades. The ultrasonic bolt gauge has been around for about 35 years now, and is one of the primary methods of verifying tension in critical bolts. In ultrasonic determination of bolt load, the increased time of flight of an ultrasonic pulse is used to measure increased tension (and therefore elongation and decreased sonic speed) in the fastener.
In any analysis of bolt tension by elongation, it is necessary to know the bolt grip length, and in particular for the ultrasonic methods, the bolt temperature must be known accurately for good tension measurements to be obtained. The impetus to the present invention was the inconvenience in correcting tension loads obtained ultrasonically for temperature and grip length.
Other tensioning techniques such as hydraulic tensioners and bolt heaters are also prone to large errors and require independent verification of preload tension. Other techniques of actual tension verification such as strain gauges are inconvenient and fragile and also prone to performance reliability problems in the sense that a damaged strain gauge will give a wrong reading but not give any indication or signature that the reading is wrong. The present invention actually records a signature pattern for future reference, so that any damage to the bolt (which is itself the indicator of its, tension) will be immediately apparent to the operator of our invention.
SUMMARY OF THE INVENTION
A system and method is provided for measuring the preload tension or clamping force in bolts, rivets, and other fasteners; in which the tension is found from the deflection (depression) of the central portion of the fastener head as compared with its unloaded shape.
As the head of a bolt is deformed by the application of tension load to the bolt, the present invention measures this deformation by one of many methods such as Newton's Rings (optical interferometry) or speckle pattern interferometry or even by capacitor arrays or air gap gauge technique. A deflection for a particular bolt can be calculated and a Newton's Rings experiment then performed, to obtain good agreement between experimental and theoretical values.
The present invention can record a signature pattern for future reference, so that any damage to the bolt (which is itself the indicator of its tension) can be immediately apparent to the operator of the invention.
Thus, the present invention provides a method for measuring the dishing or deformation of a bolt head as a measure of its tension state.
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Gleman Stuart M.
Rowe Geoffrey Keith
Miller Takisha
Polley, P.A. Daniel S.
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