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References

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  1. D. Sinclair and P. B. Bucky, “Photoelasticity and its application to mine pillar and tunnel problems,” Am. Inst. Mining and Metallurgical Eng. Tech. Pub. 1140 (1940).
  2. D. Sinclair, “A new optical method for the determination of the principal stress sum,” Proceedings Tenth Semi-Annual Eastern Photoelasticity Conference, December 9, 1939.
  3. P. B. Bucky, A. G. Solakian, and L. S. Baldin, “Centrifugal method of testing models,” Civil Eng. 5, 237 (1935).
  4. D. Sinclair, “A small high intensity stroboscopic source,” Rev. Sci. Inst. 11, 109 (1940).
    [Crossref]
  5. The General Radio Experimenter 7, 7 (1932).
  6. S. Timoshenko, Strength of Materials (D. Van Nostrand, 1930), p. 427.
  7. E. G. Coker and L. N. G. Filon, Photoelasticity (Cambridge, 1931), p. 178.

1940 (2)

D. Sinclair and P. B. Bucky, “Photoelasticity and its application to mine pillar and tunnel problems,” Am. Inst. Mining and Metallurgical Eng. Tech. Pub. 1140 (1940).

D. Sinclair, “A small high intensity stroboscopic source,” Rev. Sci. Inst. 11, 109 (1940).
[Crossref]

1935 (1)

P. B. Bucky, A. G. Solakian, and L. S. Baldin, “Centrifugal method of testing models,” Civil Eng. 5, 237 (1935).

1932 (1)

The General Radio Experimenter 7, 7 (1932).

Baldin, L. S.

P. B. Bucky, A. G. Solakian, and L. S. Baldin, “Centrifugal method of testing models,” Civil Eng. 5, 237 (1935).

Bucky, P. B.

D. Sinclair and P. B. Bucky, “Photoelasticity and its application to mine pillar and tunnel problems,” Am. Inst. Mining and Metallurgical Eng. Tech. Pub. 1140 (1940).

P. B. Bucky, A. G. Solakian, and L. S. Baldin, “Centrifugal method of testing models,” Civil Eng. 5, 237 (1935).

Coker, E. G.

E. G. Coker and L. N. G. Filon, Photoelasticity (Cambridge, 1931), p. 178.

Filon, L. N. G.

E. G. Coker and L. N. G. Filon, Photoelasticity (Cambridge, 1931), p. 178.

Sinclair, D.

D. Sinclair, “A small high intensity stroboscopic source,” Rev. Sci. Inst. 11, 109 (1940).
[Crossref]

D. Sinclair and P. B. Bucky, “Photoelasticity and its application to mine pillar and tunnel problems,” Am. Inst. Mining and Metallurgical Eng. Tech. Pub. 1140 (1940).

D. Sinclair, “A new optical method for the determination of the principal stress sum,” Proceedings Tenth Semi-Annual Eastern Photoelasticity Conference, December 9, 1939.

Solakian, A. G.

P. B. Bucky, A. G. Solakian, and L. S. Baldin, “Centrifugal method of testing models,” Civil Eng. 5, 237 (1935).

Timoshenko, S.

S. Timoshenko, Strength of Materials (D. Van Nostrand, 1930), p. 427.

Am. Inst. Mining and Metallurgical Eng. Tech. Pub. 1140 (1)

D. Sinclair and P. B. Bucky, “Photoelasticity and its application to mine pillar and tunnel problems,” Am. Inst. Mining and Metallurgical Eng. Tech. Pub. 1140 (1940).

Civil Eng. (1)

P. B. Bucky, A. G. Solakian, and L. S. Baldin, “Centrifugal method of testing models,” Civil Eng. 5, 237 (1935).

Rev. Sci. Inst. (1)

D. Sinclair, “A small high intensity stroboscopic source,” Rev. Sci. Inst. 11, 109 (1940).
[Crossref]

The General Radio Experimenter (1)

The General Radio Experimenter 7, 7 (1932).

Other (3)

S. Timoshenko, Strength of Materials (D. Van Nostrand, 1930), p. 427.

E. G. Coker and L. N. G. Filon, Photoelasticity (Cambridge, 1931), p. 178.

D. Sinclair, “A new optical method for the determination of the principal stress sum,” Proceedings Tenth Semi-Annual Eastern Photoelasticity Conference, December 9, 1939.

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Figures (3)

Fig. 1
Fig. 1

Diagram of interferometer and centrifuge.

Fig. 2
Fig. 2

Centrifuge and interferometer in position.

Fig. 3
Fig. 3

Isopachics (a) and isochromatics (b) of uniformly loaded fixed beam.