The disclosed technology relates to a method of selecting a material composition and/or designing an alloy. In one aspect, a method of selecting a composition of a material having a target property comprises receiving an input comprising thermodynamic phase data for a plurality of materials. The method additionally includes extracting from the thermodynamic phase data a plurality of thermodynamic quantities corresponding to each of the materials by a computing device. The extracted thermodynamic quantities are predetermined to have correlations to microstructures associated with physical properties of the material. The method additionally includes storing the extracted thermodynamic quantities in a computer-readable medium. The method further includes electronically mining the stored thermodynamic quantities using the computing device to rank at least a subset of the materials based on a comparison of at least a subset of the thermodynamic quantities that are correlated to the target property.

The mechanical testing apparatus comprises a wheel and a platform. The wheel is configured to hold a first specimen and rotate relative to a second specimen to apply torque to the second specimen using the first specimen. The platform is biased towards the wheel and configured to hold the second specimen.

A system for testing bonded joints that comprises a swing tool, an actuator, pressure measuring device and a first fixing arrangement. The actuator of the system is configured to apply a compression force or a traction force on the swing tool in order to separate two elements, and the pressure measuring device is configured to measure the force applied on the swing tool. A method for testing bonded joints using the system is also provided.

A system includes at least one sensing device located within a structure being built as part of a construction project. The sensing device obtains measurements relating to a first characteristic of concrete of the structure and transmits the data wirelessly. The system also includes a memory, and a processor adapted to receive the data from the sensing devices, determine a second characteristic of the concrete based on the data, and generate a schedule of activities based on the second characteristic. The schedule may be a project schedule specifying tasks associated with the construction project. The processor is also adapted to cause at least one activity to be performed based on the schedule of activities.

Apparatus and techniques described herein can be used to compensate for variation in flatness or other surface features of a planar or nearly-planar test specimen, such as facilitating acoustic inspection. According to examples herein, compensation can be performed such as to maintain a parallel orientation of a non-destructive test probe relative to a surface of a test specimen or to maintain a specified distance between the test probe and the surface, or both. Such an approach can include use of multiple probe elements such as to contemporaneously acquire data indicative of a surface profile of the test specimen (such as using a time-of-flight determination), and to perform an inspection acquisition. In this manner, a probe trajectory can be adjusted (e.g., updated) during an acquisition to enhance inspection productivity versus other approaches.

The present invention relates generally to the field of gamma ray spectroscopy monitoring and a system for accomplishing same to monitor one or more aspects of various isotope production processes. In one embodiment, the present invention relates to a monitoring system, and method of utilizing same, for monitoring one or more aspects of an isotope production process where the monitoring system comprises: (A) at least one sample cell; (B) at least one measuring port; (C) at least one adjustable collimator device; (D) at least one shutter; and (E) at least one high resolution gamma ray spectrometer.

Automated manufacturing of composite laminates for structures, preferably structures of an aircraft, by using laying machines. More particularly, a method for determining the energy of debonding between layers of a laminate of composite material by means of a laying machine, and a laying machine for performing the method.

The invention relates to a test piece for determining a specific material property of a fiber-reinforced plastic composite under applied mechanical loading. According to the invention, it is provided that an inner core is incorporated in a composite with the fiber-reinforced plastic, the inner core being widened in a transverse axis in relation to the mechanical load in such a way that the composite with the inner core has a greater buckling stability than a comparative body, such as the composite without the inner core, and that the inner core is formed in such a way that an influence on the specific material property to be determined of the fiber-reinforced plastic composite lies in a range of acceptance.

A resin composition quality controlling method includes a step of measuring a Raman spectrum of a resin composition composed of TiO.sub.2 particles dispersed in a base material mainly composed of a silicone rubber by irradiating the resin composition with laser, and a step of determining a concentration of the TiO.sub.2 particles in the resin composition based on an intensity of a fluorescence spectrum in the Raman spectrum.

The present invention provides a method for determining usability of cement-based composites, comprising: regarding cement-based composites with different known components as multiphase materials, respectively measuring Rockwell hardnesses of each phase; calculating an equivalent length based on volume ratio of each phase; acquiring an effective hardness of the cement-based composite through weighted calculation based on the Rockwell hardness and the equivalent length of each phase; measuring penetration resistance of the cement-based composite with different components, and establishing an association relationship between the effective hardness and the penetration resistance; calculating an effective hardness of a cement-based composite with unknown penetration resistance, calculating an evaluation value of the penetration resistance by using the established association relationship; and applying the cement-based composite to intended use thereof when a judging result shows that an applicable result corresponding to the acquired evaluation value is within a threshold range.