Investigating the Young's Modulus of certain materials

AI Thread Summary
The discussion focuses on investigating the Young's Modulus (E) of materials, particularly how temperature affects it. Increasing temperature is hypothesized to lower E, while reducing temperature to cryogenic levels can increase E, though the changes are minor. The conversation suggests that temperature is the primary factor influencing E, with yield and tensile strength being more significantly affected. A graph from MIL-HDBK-5 is referenced, indicating that the changes in modulus with temperature are measurable using standard equipment. Overall, the discussion emphasizes the relationship between temperature and Young's Modulus in material science.
calum
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I am investigating the Young's Modulus of certain materials and what factors have an effect on the Young's Modulus of materials.

I am going to be altering the temperature, my hypothesis being that increasing the temperature will lower the E of the materials.

Are there other factors I could investigate that would have an effect?
 
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Hi calum,
Yes, increasing temperature will lower E slightly. Conversely, reducing temperature well into the cryogenic range increases E. But it isn't a huge amount. Yield and tensile strength for example, are much more heavily influenced by temperature.

To answer your question, I don't think there's any other factors that affects E other than temperature.
 
Q_Goest said:
Hi calum,
Yes, increasing temperature will lower E slightly. Conversely, reducing temperature well into the cryogenic range increases E. But it isn't a huge amount. Yield and tensile strength for example, are much more heavily influenced by temperature.

To answer your question, I don't think there's any other factors that affects E other than temperature.

Ok thanks for your help. You say E is lowered slightly, do you think it would be possible to observe a measurable change in E using quite standard equiptment?
 
Attached is a graph of modulus versus temperature for steel, taken from MIL-HDBK-5. As you can see, the modulus changes, and it should be measurable.
 

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Q_Goest said:
Attached is a graph of modulus versus temperature for steel, taken from MIL-HDBK-5. As you can see, the modulus changes, and it should be measurable.

That's great thanks, really helpful thanks for your help :)
 

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