Huber's equation

Huber's equation, first derived by a Polish engineer Tytus Maksymilian Huber, is a basic formula in elastic material tension calculations, an equivalent of the equation of state, but applying to solids. In most simple expression and commonly in use it looks like this:^[1] $σ_{r e d} = \sqrt{(σ^{2}) + 3 (τ^{2})}$ where $σ$ is the tensile stress, and $τ$ is the shear stress, measured in newtons per square meter (N/m², also called pascals, Pa), while $σ_{r e d}$ —called a reduced tension—is the resultant tension of the material. Finds application in calculating the span width of the bridges, their beam cross-sections, etc.^{[citation needed]}

References

↑ Huber, M. T. (1904). "Właściwa praca odkształcenia jako miara wytezenia materiału". Czasopismo Techniczne. 22. Lwów. Translated as "Specific Work of Strain as a Measure of Material Effort". Archives of Mechanics. 56: 173–190. 2004.

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[1] Huber, M. T. (1904). "Właściwa praca odkształcenia jako miara wytezenia materiału". Czasopismo Techniczne. 22. Lwów. Translated as "Specific Work of Strain as a Measure of Material Effort". Archives of Mechanics. 56: 173–190. 2004.

[1]

Huber's equation

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