X-RAY LINE BROADENING FROM FILED ALUMINIUM AND WOLFRAM*

Alethods of analysis prel-ioualy used in the interpretation of line broadening are discussed and are shown to be inadequate; more reliable methods being outlined. ;in analvsis of published results using one of these methods suggests that the observed effects can he attr;buted to simultaneous small particle size and strain broadening. Measurements of the changes in intensity distribution have been made, using a Geiger counter spectrometer, in the spectra of cold worked aluminium and wolfram. The line breadths may he attributed to simultaneous small particle size and strain broadening, the latter predominating, particularly at the higher Bragg angles, and it is shown that the observed effects are produced by dislocations or some similar structura,l fault. The observed rise in the breadths of the high angle lines from annealed materials suggests that some dislocations remain after annealing. Fourier analysis of the line shapes in general merely confirm the results of the analysis of the line hreadths, hut in the case of the recovered specimens it suggests that the dislocations form into walls (“polygonization”).