Determining the Optimal Thickness for a 30mH-Solenoid Inductor

AI Thread Summary
To create a 30mH solenoid inductor using enameled copper wire wrapped around a 7-inch rebar, calculations indicate that 613 turns are necessary based on the assumed permeability of the rebar. The thickness of the copper wire is not critical for inductance but affects the resistance of the solenoid. The initial assumption of the rebar's permeability was 100, but it was later corrected to 2000, which may impact the number of turns needed. It's recommended to verify the actual permeability of the rebar material for accurate calculations. Understanding these factors is essential for designing an effective solenoid inductor.
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Homework Statement


hi, i just have few questions on how to make a 30mH-inductor (solenoid). I have an enameled copper wire which i will wrapped into a 7-inch rebar having 12mm diameter. In order to determine the number of turns, i made some calculations:

Homework Equations


L=(uAN^2)/d

The Attempt at a Solution



My computations are as follows:
L=30e^-3 H
u=100*4*pi*10^-7 (permeability of the rebar=100 (just an assumption))
A=pi*(6e^-3) m^2 (r=12mm/2=6mm=6e^-3 m)
d=0.1778 m

N=613 turns

my question is:
-how will i know what is the thickness of the copper wire I'm going to use?
-and, is my permeability assumption correct? (i don't really know what is the exact permeability of the rebar)

some photos of rebar:
http://www.circlecityrebar.com/istock_rebar6.jpg"
http://rebar.materialsuppliers.com/Rebar-big.jpg"

please help thanks!
 
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thickness of wire doesn't matter, except the fact that it determines the resistance of the solenoid. check the permeability of the material the rebar is made of, on net, just search in google.
 
so, in order to have 30mH, i need to make 613 turns? :eek:
 
if permeability is actually 100, and ur calculations are correct (i have not checked them), then your answer is 613 turns.
 
i've found out that its permeability is 2000.. thanks :)
 

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