METHOD OF DETERMINING THE MAGNITUDE OF A FIELD VARIABLE OF AN ENERGY WAVE

摘要

Determining magnitude of a field variable of an energy wave through domain of interest, including steps of: defining plurality of master-particles spaced within domain, master-particles being representative of field variables of energy wave at location of respective master-particle, and defining supporting domain Ωm for each master-particle; computing field variables including position, magnitude and direction of propagation of each master-particle at predetermined time; defining plurality of virtual-particles within domain representative of magnitude of field variable of wave at location of respective virtual-particle; calculating magnitude uv of field variable of each virtual-particle at time of interest by applying formula:;uv=∑m=1Numf(q1)×g(q2)Wherev∈Ωm;where N is total number of master-particles, um is magnitude of respective master-particle, f(q1) is an envelope function relating magnitude of virtual-particle to distance from master-particle in direction of propagation of master-particle, and g(q2) is a smoothing function relating magnitude of virtual-particle to distance from master-particle normal to direction of propagation of master-particle.

主权项

1. A computer implemented method of determining the detectability of a defect within a supplied part out of which a final component is to be machined, the method comprising the steps of:
defining a domain of interest representative of the geometry of the supplied part having a simulated defect; defining a plurality of master particles spaced within the domain, the master particles being representative of field variables of an energy wave at the location of the respective master particle, and defining a supporting domain Ωm for each master particle; computing field variables including the position, magnitude and direction of propagation of each master particle at a predetermined time step; defining a plurality of virtual particles spaced within the domain representative of the magnitude of a field variable of the wave at the location of the respective virtual particle; calculating a magnitude u, of the field variable of each virtual particle at the time of interest by applying the formula:uv=∑m=1Numf(q1)×g(q2)Wherev∈Ωmwhere N is the total number of master particles, um is the magnitude of a respective master particle, f(q1) is an envelope function relating the magnitude of the virtual particle to the distance from the master particle in the direction of propagation of the master particle, and g(q2) is a smoothing function relating the magnitude of the virtual particle to the distance from the master particle normal to the direction of propagation of the master particle;
determining the magnitude of a field variable of a virtual particle located at a receiver location within the domain of interest at a predetermined time; wherein the defect is determined to be detectable where virtual particle located at a receiver location within the domain of interest at a predetermined time has a field variable magnitude greater than a predetermined amount.