Thermodynamics of rubber elasticity article in journal of chemical education 78 2 february 2001 with 1 612 reads how we measure reads.
Thermodynamics of rubber elasticity.
The process of vulcanization which links the polymer molecules into a three dimensional network enables reversible thermodynamic measurements to be made on elastomeric materials from which the entropy and energy contributions to the free energy of deformation can be determined.
The molecular processes responsible for rubber elasticity are most readily interpreted in terms of the constant.
Here we need to also consider the extension.
Rubber elasticity refers to a property of crosslinked rubber.
Deformation is a constant volume process ν.
Without this property the rubber band would have no reason to tend towards a tangled state since the entropy would be about the same in both states.
In the next section the choice of stress τ length l and temperature t as state variables is justified and a simple equation of state is presented.
Rubberlike elasticity is described.
Thermoelastic measurements at constant volume are reported for a series of natural rubber samples.
Rubber elasticity is in fact the number of chains bounded by two cross link junctions a quantity called the number of active chains denoted.
Rubber is a member of a larger class of materials called elastomers and it is difficult to overestimate their economic and.
This can be repeated many times with no apparent degradation to the rubber.
The molecular processes responsible for rubber elasticity are most readily interpreted in terms of the constant volume coefficients u l v t and s l v t.
Theory of rubber elasticity thermodynamics statistical mechanics and chain statistics kelvin kuhn guth mark james treloar and flory second law of thermodynamics.
The cross linking property of polymers is vital to the band s elasticity.
If you released a rubber band with properties like that it would.
The energy component of the stress supported by the network is more or less independent of.
Thermodynamics of a rubber band.
The elastic recovery of rubber is due to its tendency to maximize the entropy.
Taken as a whole the results from thermodynamic studies on lightly cross linked rubbery polymers support the view that the retractive force is primarily intramolecular in origin.
This paper describes only the thermodynamic properties of vulcanized rubber.
Metallic materials possess energy elasticity while ideal.
2 thermodynamics of elasticity when we write down the di erential of uin courses in chemical thermodynamics we nor mally only consider pressure volume work.
The same property also causes the thermoelastic shrinkage.
Thermodynamics of rubber elasticity at constant volume.
