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Synopsis
A method of recording the stress distribution in egg shells about an applied force is described. Results indicate that the axes of stress can be predicted by a theoretical analysis, assuming the shell is spherical. The force required to fracture a shell was not predictable. From a theoretical approach, shell thickness, ultimate tensile strength and curvature were the important factors in shell strength.
An external force produced tension at the inner shell surface and compression at the outer surface at the point of contact. The maximum tensile stress was at the point of application of force and diminished radially from this point. Because the shell material is brittle and therefore weaker in tension than in compression, the shell must fracture initially at the inner surface under the point of contact. It was concluded that shell behaviour in tension is a major factor contributing to shell strength.
Notes
Contribution no. 112 from Engineering Research Service.
Contribution no. 253 from Animal Research Institute.
