HP 48gII User Manual

Page 22-34

side figure shows the state of stresses when the element is rotated by an angle
φ. In this case, the normal stresses are σ’

xx

and

σ’

yy

, while the shear stresses

are

τ’

xy

and

τ’

yx

.

The relationship between the original state of stresses (

σ

xx

,

σ

yy

,

τ

xy

,

τ

yx

) and the

state of stress when the axes are rotated counterclockwise by f (

σ’

xx

,

σ’

yy

,

τ’

xy

,

τ’

yx

), can be represented graphically by the construct shown in the figure

below.

To construct Mohr’s circle we use a Cartesian coordinate system with the x-
axis corresponding to the normal stresses (

σ), and the y-axis corresponding to

the shear stresses (

τ). Locate the points A(σ

xx

,

τ

xy

) and B

(σ

yy

,

τ

xy

), and draw

the segment AB. The point C where the segment AB crosses the

σ

n

axis will

be the center of the circle. Notice that the coordinates of point C are (½

⋅(σ

yy

+

σ

xy

), 0). When constructing the circle by hand, you can use a compass to

trace the circle since you know the location of the center C and of two points,
A and B.

Let the segment AC represent the x-axis in the original state of stress. If you
want to determine the state of stress for a set of axes x’-y’, rotated
counterclockwise by an angle

φ with respect to the original set of axes x-y,

draw segment A’B’, centered at C and rotated clockwise by and angle

2φ