Abstract: Analysis of residual stress in materials is often done in static conditions in a laboratory. Accurate systems and methods for performing these analyses in a dynamic, non-laboratory environment are notoriously difficult and can be very inaccurate. A method using a portable, field deployable apparatus having greater accuracy than currently available is disclosed whereby accurate and repeatable residual stress analysis may be implemented in non-laboratory environments leading to greatly improved diagnostics, maintenance and life limit prediction.

Abstract: Analysis of residual stress in materials is often done in static conditions in a laboratory. Accurate systems and methods for performing these analyses in a dynamic, non-laboratory environment are notoriously difficult and can be very inaccurate. A method using a portable, field deployable apparatus having greater accuracy than currently available is disclosed whereby accurate and repeatable residual stress analysis may be implemented in non-laboratory environments leading to greatly improved diagnostics, maintenance and life limit prediction. Especially the analysis of a pipe or channel can be facilitated with this invention.

Abstract: Analysis of residual stress in materials is often done in static conditions in a laboratory. Accurate systems and methods for performing these analyses in a dynamic, non-laboratory environment are notoriously difficult and can be very inaccurate. A method using a portable, field deployable apparatus having greater accuracy than currently available is disclosed whereby accurate and repeatable residual stress analysis may be implemented in non-laboratory environments leading to greatly improved diagnostics, maintenance and life limit prediction.

Abstract: Analysis of residual stress in materials is often done in static conditions in a laboratory. Accurate systems and methods for performing these analyses in a dynamic, non-laboratory environment are notoriously difficult and can be very inaccurate. A method using a portable, field deployable apparatus having greater accuracy than currently available is disclosed whereby accurate and repeatable residual stress analysis may be implemented in non-laboratory environments leading to greatly improved diagnostics, maintenance and life limit prediction. Especially the analysis of a pipe or channel can be facilitated with this invention.

Abstract: Analysis of residual stress in materials is often done in static conditions in a laboratory. Accurate systems and methods for performing these analyses in a dynamic, non-laboratory environment are notoriously difficult and can be very inaccurate. A method using a portable, field deployable apparatus having greater accuracy than currently available is disclosed whereby accurate and repeatable residual stress analysis may be implemented in non-laboratory environments leading to greatly improved diagnostics, maintenance and life limit prediction.

Abstract: Analysis of residual stress in materials is often done in static conditions in a laboratory. Accurate systems and methods for performing these analyses in a dynamic, non-laboratory environment are notoriously difficult and can be very inaccurate. A method using a portable, field deployable apparatus having greater accuracy than currently available is disclosed whereby accurate and repeatable residual stress analysis may be implemented in non-laboratory environments leading to greatly improved diagnostics, maintenance and life limit prediction.

Abstract: A laser peening process for the densification of metal surfaces and sub-layers and for changing surface chemical activities provides retardation of the up-take and penetration of atoms and molecules, particularly Hydrogen, which improves the lifetime of such laser peened metals. Penetration of hydrogen into metals initiates an embrittlement that leaves the material susceptible to cracking.

Abstract: A sliding reusable connector for attaching gear to a base unit of the present invention preferably includes a main body and a slide. The main body has a main body track portion at a first main body end and a main body locking portion at a second main body end. The slide has a slide locking structure at one end and longitudinal slide track structure extending substantially between the first slide end and the second slide end. The slide track structure is slidably interconnected with the main body track portion. The slide locking structure is repeatedly lockable and unlockable with the main body locking portion. In one preferred embodiment the connector has at least one secondary connection means defined in the main body.

Abstract: The invention relates to a method for diagnosing an individual as having atopy or a predisposition thereto. The method involves demonstrating in the individual the presence or absence of either: (i) an unusual variant form of the gene which codes for the beta sub-unit of the high affinity receptor for IgE (Fc.epsilon.RI.beta.), the variant form comprising a variation in exon (7) which encodes a glycine at amino acid residue 237 instead of glutamic acid which appears at residue 237 in individuals without atopy: or (ii) an unusual polymorphic form of the amino acid sequence for Fc.epsilon.RI.beta., the polymorphic form comprising glycine at amino acid residue 237 instead of glutamic acid which appears at residue 237 in individuals without atopy. Materials and other methods relating to the above diagnostic method are also described.