Constant life diagrams : a historical review

Abstract A historical review of the early development of constant life diagrams (variously referred to as Goodman, Smith, Haigh, etc. diagrams) is presented. It is shown that there were two distinct approaches to the formulation of constant life diagrams for fatigue design purposes. The first one was based on Wohler's fatigue experiments and involved engineering curve fits of the fatigue endurance data. The Launhardt–Weyrauch, Gerber and Johnson formulae are the main representatives of this approach. The second approach is based on the dynamic theory used for bridge design. The Fidler–Goodman formula is an example of this approach. The early proponents of the second approach questioned Wohler's test results and did not believe that they could be used for design purposes. Finally, the first books on fatigue of metals introduced citation inaccuracies, which were propagated by subsequent authors.

[1]  John Goodman,et al.  Mechanics applied to engineering , 1904 .

[2]  Mansfield Merriman,et al.  The Materials of Construction , 1897 .

[3]  A. Hobbacher,et al.  3 – FATIGUE RESISTANCE , 1996 .

[4]  Bernard P. Haigh Discussions on paper ‐ ‘The relative safety of mild and high-tensile alloy steels under alternating and pulsating stresses’ , 1929 .

[5]  William Cawthorne Unwin The Testing of Materials of Construction , 1889, Nature.

[6]  D. Galton,et al.  Report of the commissioners appointed to inquire into the application of iron to railway structures , 1850 .

[7]  T. M. Jasper,et al.  LXVII. The value of the energy relation in the testing of ferrous metals at varying ranges of stress and at intermediate and high temperatures , 1923 .

[8]  Robert Henry Thurston,et al.  Strength and determination of the dimensions of structures of iron and steel with reference to the latest investigations : an elementary appendix to all text-books upon iron and steel construction , 1891 .

[9]  G R Bodmer,et al.  ON THE CALCULATION OF DIMENSIONS AS DEPENDING ON THE ULTIMATE WORKING STRENGTH OF MATERIALS. , 1881 .

[10]  William H. Booth Stresses in Bridges , 1889 .

[11]  J. Christian,et al.  Fatigue in Metals , 1955, Nature.

[12]  Henry B. Seaman The Launhardt Formula, and Railroad Bridge Specifications , 1899 .

[13]  C. Bach Die Maschinen-Elemente : ihre Berechnung und Konstruktion mit Rücksicht auf die neueren Versuche , 1892 .

[14]  William John Macquorn Rankine,et al.  A manual of applied mechanics , 2022 .

[15]  R. B. Heywook Designing against fatigue of metals , 1962 .