“A History of the Theory of Elasticity,” by Isaac Todhunter and Karl Pearson.
2.
“Autographic Test-recording Apparatus,” by WicksteedJ. H.. Proc. Inst. of Mechanical Engineers, 1886.
3.
“An Optical Load-Extension Indicator together with some diagrams obtained therewith,” by DalbyW. E.. Proc. Roy. Soc., Vol. 86, Ser. A, 1912. See also “The Transition from the Yield to the Plastic State in Mild Steel,” by G. Cook and A. Robertson, Proc. R.S., 1913.
4.
“An Experimental Study of the Stresses in Masonry Dams,” by Karl PearsonA. F.PollardCampbell, and others. Drapers Company Research Memoirs.
5.
“Stresses in Dams,” by WilsonJ. S.GoreW.. Proc. Inst. C.E., 1908.
6.
“Boiler Explosions as affected by Unsymmetrical Riveted Joints,” by Messrs. BarracloughGibson, and others. Proc. Eng. Assoc. of New South Wales, 1910–11.
7.
“The Effect of the End Connections on the Distribution of Stress in certain Tension Members,” by BathoC.. Journal of the Franklin Institute, 1915.
8.
“Beitrag zur Spannungsuntersuchung an Knotenblecheneiserner Fachwerke,” by Th. Wyss. Dissertationsarbeit, Zurich, 1923.
9.
“Experimentelle Spannungsuntersuchungen an einem hakenförmigen Körper,” by WyssTh.. Proc. of the First International Congress of Applied Mechanics, Delft, 1924.
10.
“Contact Pressures and Stresses,” by CokerE. G.ChakkoK. C.AhmedM. S.. Proc. Inst. Mech. Engrs., 1921.
11.
“Experimental Determination of the Distribution of Stress and Strain in Solids,” by Professors Filon and Coker. British Association Report, 1914.
12.
“On the Graphical Determination of Stress from Photo-Elastic Observations,” by Prof. Filon. British Association Report 1923.
13.
“On the Equilibrium of Elastic Solids,” by Clerk MaxwellJames. Trans. of the Royal Society of Edinburgh, Vol. xx, Part I, 1849–50.
14.
“The Determination of Stresses at a Point in a Plate,” by CokerE. G.. Engineering, 1923.
15.
“Photo-elasticity,” by CokerE. G.. Journal of the Franklin Institute, March, 1925.
16.
“On the Direct Determination of Stress in an Elastic Solid with application to the Theory of Plates,” by MichellJ. H.. Proc. of the London Mathematical Society, Vol. 30, 1899.
17.
“On Stresses in Multiply-connected Plates,” by L. N. G. Filon. British Association Report, 1921.
18.
“Collected Papers,” by Sir George Darwin.
19.
“Strength of Materials under Combined Stress,” by GuestJ. J.. Phil. Mag. (Series 5), Vol. 48, 1900.
20.
“The Crystalline Structure of Metals,” by EwingJ. A.RosenhainW.. Phil. Trans. Series A, Vol. 193, page 353, 1900.
21.
“Über die Darstellung des Spannungszustandes und des Deformationszustandes eines Körperelementes und über de Anwendung derselben in der Festigkeitslehre,” by MohrO.. Civilingenieur, 1882.
22.
See also Abhandlungen aus dem Gebiete der techn. Mechanik. Berlin, 1906.
23.
“The Strength and Stiffness of Steel under Bi-axial Loading,” by BeckerA. J.. Bulletin 85, University of Illinois.
24.
“Sulle conditione di resistenza dei corpi Elastici,” by BeltramiG.. Collected Works, Vol. IV. (1920).
25.
“The Strain Energy-Function and the Elastic Limit,” by B. P. Haigh. British Association Reports 1921. See also Engineering, Vol. CXIX, 1920, pages 158–160.
26.
“Der Spannungszustand an der Fliessgrenze (Plastizitätbedingung),” by SchleicherF.. Zeitschrift für angewandte Mathematik und Mechanik (Z.A.M.M.), Band 6, Heft 3, 1926.
27.
Über die Aeusserung der Elastizität an stahlartigen Eisenstäben und Stahlstäben und über eine beim Biegen solcher Stäbe beobachtete Molekularbewegung,” by LüdersW., Dinglers Polytechnisches Journal, Vol. 155.
28.
Über die Härte Plastischer Körper,” by PrandtlL.. Göttingen Nachrichten, 1920.
29.
“Über die Eindringungsfestigkeit (Härte) plastischer Baustoffe und die Festigkeit von Schneiden,” by PrandtlL.. Z.A.M.M., Vol. 1, Part I.
30.
“Anwendungsbispiele zu einem Henckyschen Satz über das plastische Gleichgewicht,” by PrandtlL., Z.A.M.M., Vol. 3, Part 6.
31.
“Spannungsverteilung in plastischen Körpern,” by L. Prandtl. Proceedings of the First International Congress for Applied Mathematics, Delft, 1924.
32.
“Über einige statisch bestimmte Fälle des Gleichgewichts in plastischen Körpern,” by HenckyH., Z.A.M.M., Vol. 3, Part 4.
33.
“Versuche über die plastischen Formänderungen von keilförmigen Körpern aus Flusseisen,” by NadaiA.. Z.A.M.M., Vol. 1, Part 1.
34.
“Beobachtungen der Gleitflächenbildung an plastischen Stoffen,” by A. Nadai. Proc. International Congress of Applied Mechanics, Delft, 1924.
35.
“Zur Torsion von prismatischen Stäben,” by PrandtlL.. Physikalische Zeitschrift, 1903.
36.
“Eine neue Darstellung der Torsionsspannungen bei prismatischen Stäben von beliebigem Querschnitt,” by PrandtlL.. Jahresbuch d. deutsch Math. Ver., 1904.
37.
“The Use of Soap Films in Solving Torsion Problems,” by GriffithA. A.TaylorG. I.. Proc. Inst. Mech. Engineers1917.
38.
“De verdeeling der spannungen in lichaam dat ziet volgens de wet van Hooke gedraagt,” by VeningF. A.. Minesz de Ingenieur, 1911, No. 3, page 180.
39.
“Der Beginn des Fliessvorganges in einem tordierten Stab,” by NadaiA.. Z.A.M.M., Band 3, Heft 6.
40.
“Über die Spannungsverteilung in tordierten Stäben bei teilweiser Überschreitung der Fliessgrenze,” by TrefftzS.. Z.A.M.M., Vol. 5, Heft 1.
41.
“The Detection of Strain in Mild Steels,” by TurnerT. H.JevonsJ. D.. Journal of the Iron and Steel Institute. 1925.
42.
“A New Experimental Method of Investigating Certain Systems of Stress,” by GulliverG. H.. Proc. R.S.E., Vol. XXX, Part I, 1909–10. See also Nature, April 14, 1910, page 203.
43.
“Photo-Elastic Measurements of the Stress Distribution in Tension Members used in the Testing of Materials,” by CokerE. G.. Min. Proc. Inst. C.E., Vol. CCVIII, Part II, 1918–19.
44.
“Strain Detection in Md Steel by Special Etching,” by JevonsJ. D.. Journ. of the Iron and Steel Inst., 1925.
45.
“Photo-Elasticity for Engineers,” by CokerE. G.. General Electric Company's Magazine, 1920–21.
46.
“Uber anomale Doppelbrechung beim Zelluloid,” by AmbronnH.. Ber. der kg. Sachs Ges. d. Wissensch. Math. Phys., Vol. 63, 1911, pages 249–257 and 402–406.
47.
“Eine Bemerkung über den optischen Methoden zur Hüfung von Materialbeanspruchungen, insbesondere bei Anwendung von Zelluloid,” by WachtlerM.. Zeit. für Tech. Phys., Part 9, 1924.
48.
“On the Stress-Optical Effect in Permanently Over-strained Celluloid,” by SavurS. R.. Proc. R.S. Series, A, Vol. 109, No. A. 750.
