Where – MTS Series 609 Alignment Fixture User Manual

Series 609 Alignment Fixture Product Information

52

Calculating Bending Strain—Notched Thin Flat

Specimen Preparation

Calculating Bending Strain—Notched Thin Flat Specimens

This section shows how to calculate the bending strain for round specimens with
four gages at each level.

Gage Placement

1. Calculate the bending strains for each level.

Use these formulas to find the x axis (B

x

) and y axis (B

y

) bending strains of

each level:

Where:

ε

1

through

ε

8

are the strain readings from gages 1 through 8

w is the width of the specimen.
d is the distance from the specimen edge to the middle of the gage
Bu

x

is the bending strain of the x axis of the upper gages

Bl

x

is the bending strain of the x axis of the lower gages

Bu

y

is the bending strain of the y axis of the upper gages

Bl

y

is the bending strain of the y axis of the lower gages

Do not ignore the sign of negative numbers.

2. Calculate the percent bending strain for each level.

Use this formula to find the percent bending strain (PBS):

Where:

See the previous definitions.

3. Determine which axis is bending.

Bu

x

1
4

--- ε

1

ε

2

ε

3

–

ε

4

–

+

(

)

=

Bu

y

w

4

----

ε

1

ε

2

ε

3

–

ε

4

–

+

w 2d

–

---------------------------------------

⎝

⎠

⎛

⎞

=

Bl

x

1
4

--- ε

5

ε

6

ε

7

–

ε

8

–

+

(

)

=

Bl

y

w

4

----

ε

5

ε

6

ε

7

–

ε

8

–

+

w 2d

–

---------------------------------------

⎝

⎠

⎛

⎞

=

Upper Gages

Lower Gages

PBS

x

4 Bu

x

(

)

ε

1

ε

2

ε

3

ε

4

+

+

+

--------------------------------------- 100

×

=

PBS

x

4 Bl

x

(

)

ε

5

ε

6

ε

7

ε

8

+

+

+

--------------------------------------- 100

×

=

PBS

y

4 Bu

y

(

)

ε

1

ε

2

ε

3

ε

4

+

+

+

--------------------------------------- 100

×

=

PBS

y

4 Bl

y

(

)

ε

5

ε

6

ε

7

ε

8

+

+

+

--------------------------------------- 100

×

=

Upper Gages

Lower Gages