X-Ray Analysis in the Steel Industry

THE X-ray Analysis Group of the Institute of Physics has arranged a meeting to take place in the conference hall oft he Royal Victoria Hotel, Sheffield, on November 8 and 9. On November 8, Dr. A. J. Bradley wijrispeak on "The Intensity Relations of Debye-Sonerrer Powder Diffraction Lines", and Dr. W fL Wood on "The Application of X-rays to .the & tudy of Stresses in Metals". The morning session on November 9 will include three papers, one by Prof. G. I. Finch on "The Surface Structure of Metals", one by Mr. H. J. Goldschmidt.on "An X-ray Investigation of Electro-Deposited Chromium", and one by Dr. A. H. Jay on cfSome Successes and Failures in the Application of X-rays to Industrial Problems". The meeting is open to all without charge; those who wish to take part in the discussions following these papers should notify Mr. F. A. Bannister (Hon. Sec), Department of Mineralogy, British Museum (Natural History), London, S.W.7.

[1]  S. Tolansky SPECIAL ARTICLE: New Contributions to Interferometry, with Applications to Crystal Studies , 1945 .

[2]  D. Riley,et al.  An experimental investigation of extrapolation methods in the derivation of accurate unit-cell dimensions of crystals , 1945 .

[3]  G. Brindley XLV. The effect of grain or particle Size on x-ray reflections from mixed powders and alloys, considered in relation to the quantitative determination of crystalline substances by x-ray methods , 1945 .

[4]  A. Taylor,et al.  The influence of absorption on the shapes and positions of lines in debye-scherrer powder photographs , 1945 .

[5]  H. Lipson,et al.  LXII. The measurement of X-ray wave-lengths by the powder method: CrKβ1 and MnKβ1 , 1944 .

[6]  H. Lipson,et al.  Self-Recovery in Metals , 1944, Nature.

[7]  Charles S. Smith,et al.  The Width of X-Ray Diffraction Lines From Cold-Worked Tungsten and α-Brass , 1943 .

[8]  W. Hume-rothery,et al.  The structure of electro-deposited chromium , 1943, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[9]  H. Lipson,et al.  New X-Ray Evidence of the Nature of the Structural Changes in Cold-worked Metals , 1943, Nature.

[10]  H. Lipson,et al.  The construction and use of X-ray powder cameras , 1941 .

[11]  W. Wood X-ray diffraction and the deformation of metals , 1941 .

[12]  D. Thomas The measurement of stress by X-rays , 1941 .

[13]  W. Wood,et al.  A stress-strain curve for the atomic lattice of iron , 1941, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[14]  F. Jones The Measurement of Particle Size by the X-Ray Method , 1938 .

[15]  Hod Lipson,et al.  LABORATORY AND WORKSHOP NOTES: An adjustable specimen holder for a Debye-Scherrer camera , 1937 .

[16]  W. Wood XCIV.Lattice dimensions of electroplated and normal chromium , 1937 .

[17]  F. Spiers,et al.  LXIX.An x-ray examination of lattice distortion in copper and nickel powders , 1935 .

[18]  F. Spiers,et al.  LXX. An x-ray investigation of lattice distortion in a copper-beryllium alloy , 1935 .

[19]  A. Jay,et al.  Quartz as a standard for accurate lattice-spacing measurements , 1933 .

[20]  A. Jay,et al.  A method for deducing accurate values of the lattice spacing from X-ray powder photographs taken by the Debye-Scherrer method , 1932 .

[21]  Richard M. Bozorth,et al.  The Orientations of Crystals in Electrodeposited Metals , 1925 .

[22]  C. Palache Fortschritte der Mineralogie, Kristallographie und Petrographie , 1912 .

[23]  J. Craggs Ionization in Hydrogen by Fast Hydrogen Neutrals , 1943, Nature.

[24]  A. R. Stokes,et al.  X-Ray Evidence of the Nature of Cold Work in Metals , 1943, Nature.

[25]  G. Brindley Lattice distortion in cold-worked metals , 1940 .

[26]  H. Wilman,et al.  The Study of Surface Structure by Electron Diffraction , 1937 .

[27]  A. Hothersall Influence of the basis metal on the structure of electrodeposits , 1934 .