Answer:
The second specimen's radius, in mm, after deformation = 9mm
Step-by-step explanation:
The radii of both cylindrical specimens are missing.
I'll assume values for them.
Let r1 = initial radius of first cylinder = 20mm
Let r2 = deformed radius of the first cylinder = 15mm
Let r = Initial radius of second cylinder = 16mm.
Now, we can proceed....
For the two cylinders to have the same deformed hardness,
They must be deformed by the same percentage.
To get the deformed radius of the second cylindrical specimen, we'll need to calculate the percentage deformation of specimen 1.
This is given by
(Ao - Ad) /Ao
Where Ao = Original Area = πr²
Ao = πr1²
Ao = π20²
Ao = 400π
Ad = Deformed Area = πr²
Ad = πr2²
Ad = π15²
Ad = 225π
So, %deformation = %d =(400π - 225π)/400π
= 175π/400π
= 0.4375
%d = 43.75%
Now, we'll solve for the deformed radius of the second cylindrical specimen.
Note that, the two specimens have the same % deformation (to have the same hardness).
So, we have
rd - ro = 1 - %d
Where rd = deformed radius
ro = original radius = 16
rd/ro = 1 - %d becomes
rd / 16 = 1 - 43.75%
rd / 16 = 56.25%
rd = 16 * 56.25%
rd = 9mm