Instrumentation and machines for dynamic tests

A computationally e$cient reluctance mesh model suitable for simulating the dynamic performance of practical induction motors is presented. The calculation time is minimized by direct computation of rate of change of #ux, avoiding unnecessary evaluation of time and rotor position dependent inductanc

We consider the component testing problem of a system where the main feature is that the component failure rates are not constant parameters, but they change in a dynamic fashion with respect to time. More precisely, each component has a piecewise-constant failure-rate function such that the lifetim

## The latest version of a multi-channel Raman optical activity (ROA) instrument implementing incident circular polarization (ICP) modulation within a backscattering geometry and optimized for measurements on biopolymers in aqueous solution is described. It is based on a fast single-stage, imaging

Any time a structure experiences stress reversal, part of its life is used up. The two most common types of stress cycles that cause the most damage in electronic equipment are thermal/temperature cycling and vibration cycling. These two types of cycling can occur separately or they can be combined.

This paper describes an infinite boundary element technique for the dynamic analysis of three-dimensional machine foundations. The core region is modelled with quadratic elements while infinite boundary elements are used to discretize the unbounded far-field outside the immediate vicinity of the loa