Thermodynamical properties of ''infinitely stiff'' freely jointed Lenn
ard-Jones chains are obtained through Monte Carlo simulation technique
in the canonical (NVT) ensemble. A force-bias sampling scheme is used
in the simulation. The compressibility factor, energy, and constant-v
olume heat capacity of 8-, 16-, and 32-mer Lennard-Jones chains over w
ide ranges of densities and temperatures are obtained. It is known tha
t the virial pressure of infinitely stiff freely jointed Lennard-Jones
chains depends on two- and three-body correlations between segments.
We determine, for the first time, these two contributions to the viral
pressure of Lennard-Jones chains, and found that their relative magni
tudes are comparable with each other. While the three-body term remain
s positive for all temperatures and densities examined, the two-body t
erm adopts negative values at low temperatures and densities and posit
ive values at high temperatures and densities. Our simulation results
reveal the importance of three-body intrachain correlations that arise
from chain connectivity and provide a quantitative basis for the asse
ssment and development of theories for chain fluids.