Algebra:

Quadratic Solver

Root Solver

NEC:

Welder AMP

Metallurgy

Ferrite Equiv

Piping:

ASME B31G

Schedule

API 579:

API 579 - GML

API 579 - LTA

Stress Analysis:

Mohrs Circle

Online CAE

Section Modulus

Regression:

Charpy

OnlineCharpy

Polynomial

Stock Simulator

Tankage:

API 650/653

Drainage Time

Units:

Convert

Valves:

ASME B16.34

Cv Flow Calcs

Valve Selector

Weldability:

Carbon Equiv

Quadratic Solver

Root Solver

NEC:

Welder AMP

Metallurgy

Ferrite Equiv

Piping:

ASME B31G

Schedule

API 579:

API 579 - GML

API 579 - LTA

Stress Analysis:

Mohrs Circle

Online CAE

Section Modulus

Regression:

Charpy

OnlineCharpy

Polynomial

Stock Simulator

Tankage:

API 650/653

Drainage Time

Units:

Convert

Valves:

ASME B16.34

Cv Flow Calcs

Valve Selector

Weldability:

Carbon Equiv

Mohr's Circle in 2D and 3D to resolve Principal Stresses.

Mohr's Circle Stress Transformations are a core concept to stress analysis. The concept requires the use of a representation of the stress tensor. This representation is rotated in such a way to eliminate the intraplaner (shear) stresses.

Mohrs Circle is a graphical method used by engineers to view this transformation. An example implementation is presented below.

Mohrs Circle is a graphical method used by engineers to view this transformation. An example implementation is presented below.

Type:

σ_{11 } =
σ_{22 } =
σ_{33 } =

τ_{12 } =
τ_{23 } =
τ_{13 } =

σ

τ

Max Shear

τ_{Max}=###

τ

Invariants:

Calculations:

Calculations: