A method of analysis using mass spectrometry and/or ion mobility spectrometry is disclosed. The method comprises: using a first device to generate smoke, aerosol or vapour from a target comprising or consisting of a microbial population; mass analysing and/or ion mobility analysing said smoke, aerosol or vapour, or ions derived therefrom, in order to obtain spectrometric data; and analysing said spectrometric data in order to analyse said microbial population.

A method of mass spectrometry or ion mobility spectrometry is disclosed comprising: providing an analyte; supplying a matrix compound to said analyte such that said analyte dissolves in said matrix; forming first droplets of the dissolved analyte; and colliding said first droplets with a collision surface. The use of matrix improves the analyte ion signal.

A method of mass spectrometry or ion mobility spectrometry is disclosed comprising: providing an analyte; supplying a matrix compound to said analyte such that said analyte dissolves in said matrix; forming first droplets of the dissolved analyte; and colliding said first droplets with a collision surface. The use of matrix improves the analyte ion signal.

In one embodiment, a concrete strength testing system includes a core drill having a core barrel, a press associated with the core drill that is configured to drive the core barrel into concrete to be tested, a force sensor associated with the core drill that is configured to measure a force with which the core barrel is driven into the concrete by the press, and a depth measurement device configured to measure a depth into the concrete to which the core barrel is driven by the press.

In one embodiment, a concrete strength testing system includes a core drill having a core barrel, a press associated with the core drill that is configured to drive the core barrel into concrete to be tested, a force sensor associated with the core drill that is configured to measure a force with which the core barrel is driven into the concrete by the press, and a depth measurement device configured to measure a depth into the concrete to which the core barrel is driven by the press.

A mobile apparatus that is automated to measure controlled and applied forces and moments to sport surfaces allowing for performance and safety assessment of athletic apparel and athletic surfaces, such as natural or artificial turf. The apparatus is capable of using not only shear and compressive forces, but also rotational moments, and all prescribed forces and moments in combination at the same or different times. The apparatus and related system can link these forces and moments together and combine them to more closely mimic behaviors of a human foot during an athletic movement, thereby applying and measuring interactions between all forces and moments at the same or different times.

A mobile apparatus that is automated to measure controlled and applied forces and moments to sport surfaces allowing for performance and safety assessment of athletic apparel and athletic surfaces, such as natural or artificial turf. The apparatus is capable of using not only shear and compressive forces, but also rotational moments, and all prescribed forces and moments in combination at the same or different times. The apparatus and related system can link these forces and moments together and combine them to more closely mimic behaviors of a human foot during an athletic movement, thereby applying and measuring interactions between all forces and moments at the same or different times.

Disclosed is a method for obtaining properties using an indentation. The method includes an initial value calculating step, a reference value calculating step, a pre-set value setting step and a checking step. So the method obtains properties only using an indentation without additional experiments

A method for predicting a creep fracture behavior of a woven ceramic matrix composite is provided. A fiber axial stress distribution equation is obtained according to a shear lag model, a random matrix cracking model, a fracture mechanical interface debonding criterion and a fiber failure model; a matrix crack spacing equation is obtained according to the random matrix cracking model; an interface debonding length equation is obtained according to the fracture mechanics interface debonding criterion, and an equation of the load bearing relationship between intact fibers and broken fibers and a fiber fracture probability equation are obtained based on an overall load bearing criterion; and at last a creep strain equation of the woven ceramic matrix composite material is obtained, according to the overall load bearing criterion, to predict the creep fracture behavior of the woven ceramic matrix composite material affected by the random load.

A mobile apparatus that is automated to measure controlled and applied forces to sport surfaces allowing for safety assessment of athletic apparel and athletic surfaces, such as natural or artificial turf. The apparatus is capable of using not only horizontal and vertical forces, but also rotational moments, and all prescribed forces and moments in combination at the same or different times. The apparatus and related system can apply horizontal and vertical forces, and rotational moments, and link these forces and moments together and combine them to more closely mimic behavior of human foot during an athletic movement, thereby applying and measuring interactions between all forces and moments at the same or different times.