Understanding Thermal Properties of Materials: A Comprehensive Guide

  • Thread starter Thread starter physior
  • Start date Start date
  • Tags Tags
    Heat Properties
AI Thread Summary
The discussion centers on understanding the thermal properties of materials, particularly how they interact with heat. Key terms include thermal conductivity, which measures a material's ability to transfer heat, and heat capacity, which refers to a material's ability to store heat. The participants emphasize the importance of selecting materials that resist heat transfer, retain heat, and can withstand high temperatures. Suggestions for further reading include Wikipedia articles on thermal conductivity and ultra-high-temperature ceramics. The conversation highlights the complexity of thermal properties and the challenges in finding materials that meet specific heat retention and transfer criteria.
physior
Messages
182
Reaction score
1
hello

is there a reference, wikipedia article, other article, book, or something
that will outline consisely and simply, without the maths (not necessary at this point)
the thermal properties of materials

what I mean thermal properties?
how materials interact with heat

for example, how do we say the ability of a material not to transfer/transmit heat?
how do we say the ability of a material to hold the heat inside and not giving it out to the environment?
how do we say the ability of a material to transfer heat and not keep it itself and that staying cool?
how do we say the ability of a material to be very slow in taking heat from the environment and when it takes it to keep it in it by increasing its temperature, instead of transmitting it to the environment?
some materials may also keep the heat they take in them by increasing its temperature, but may be EASY to take the heat from the environment
etc

as you can imagine, there are many parameters when dealing with heat and the environment

for example, one parameter is the easiness to get heat from the environment
other parameter is the easiness to give heat to the environment
(these two may NOT be the same)
other parameter is the capacity to store heat or not
etc

can you write here for me a comprehensive guide please, with the relevant terminology, which I am after

because I need to choose a material that:
does not take heat from the environment easily
when it does it keeps in its self
when it keeps it in itself, it can rise its temperature unlimitedly high
and it does not give it easily outthanks!
 
Science news on Phys.org
Physior,

I think the majority of your concerns can be solved looking at the materials thermal conductivity. The thermal conductivity is basically a materials ability to transfer heat through conduction, or the transfer of heat through a material. You may have heard this referred to as a materials "R-Value". Here is a link to the Wikipedia page on thermal conductivity: http://en.wikipedia.org/wiki/Thermal_conductivity. To clarify, the thermal conductivity is a value which describes a materials ability to transfer heat, so the lower he thermal conductivity, the better it will resist heat transfer.

A simple example would be to think of a beer bottle vs a beer can. The thermal conductivity of the beer bottle is less than the thermal conductivity of the beer can. If you take both of them out of the cooler at the same time, and place them on a table in the sun, the heat from the exterior of the beer can will transfer through the aluminum can faster than the glass bottle. Therefore the beer in the can would become warm faster that the beer in the bottle.

I hope this helps!
 
exactly, it's not only heat conductivity, it's also heat capacity
maybe others?
 
physior said:
because I need to choose a material that:
does not take heat from the environment easily
when it does it keeps in its self
when it keeps it in itself, it can rise its temperature unlimitedly high
and it does not give it easily out

That would be a thermal insulator with an infinite melting point and infinite thermal stability.
If you find such a material NASA, among others, will be very interested.
Heat capacity has no effect on your given specifications so you don't need to worry about that.

Here's a start on where current tech. is:

http://en.wikipedia.org/wiki/Ultra-high-temperature_ceramics
http://en.wikipedia.org/wiki/Aerogel

physior said:
for example, one parameter is the easiness to get heat from the environment
other parameter is the easiness to give heat to the environment
(these two may NOT be the same)

These two are exactly the same. Thermal conductivity is the reciprocal of thermal resistivity.
I am no physicist but I don't think the universe could exist if that were not the case, or at least it would be vastly different.
 
VIP panels are also pretty neat. Very high R-Value, and can be easier to work with than aerogels depending on the application. I'm thinking of fiber suspended aerogels.
 
Billy Joule haha...brilliant name
 

Similar threads

I A paradox about energy balance and steady state
Replies
2
Views
2K
B Question regarding Heat Transfer in Carnot Engine
Replies
1
Views
2K
A Heat exchange in a thermal storage based on phase change materials
Replies
5
Views
2K
B Cooling effect of evaporation occurs even if the surroundings are colder?
Replies
10
Views
2K
A Practical use of an overall heat transfer coefficient?
Replies
14
Views
3K
I Warm-up time for a hollow cylinder
Replies
5
Views
2K
I Estimating a thermal equilibrium on a custom made fridge
Replies
23
Views
2K
Thermal inertia vs effusivity, what is the difference?
Replies
4
Views
2K
B Are wind farms stealing the cooling capacity of the wind?
Replies
4
Views
3K
Possible error sources in thermal conductivity experiment?
Replies
16
Views
14K

Hot Threads

Recent Insights

Back
Top