Specific heat of soft carbons at room temperature

Abstracts magnetothermal oscillations have been observed in chamber with a focused continuous CO, laser beam. pyrolytic graphite. Four de-Haas van Alphen frequencies Temperature was measured by pyrometers with < O.Olwere detected. The results point towards a correlation set reaction time. A pressure

Neu! Y&Z). In extension of the work of Delhaes and Hisiyama\* measurements of specific heat in the range @5-5°K were carried out on soft carbons heattreated in the range 6~)-1600°C. A largp increase in the linear component with decrease in HTT is observed as well as also in the cubic component. The

The specific heat of glassy carbon was investigated in the temperature range of 0\*44-4\*5"K. The specific heat follows a relation C = aT3+ yT, with y going through a ma~mum and a! increasing with increase in heattreatment temperature. On the average the cubic specific heat term is about the same as

Zishment, Netherlund). The lattice thermal expansion perpendicular and parallel to the basal planes of different pyrocarbon structures formed in a ff uidized bed has been measured by X-ray diffraction over the temperature range ZOO-1200°C. The results are correlated to the structuraf parameters char

Zishment, Netherlund). The lattice thermal expansion perpendicular and parallel to the basal planes of different pyrocarbon structures formed in a ff uidized bed has been measured by X-ray diffraction over the temperature range ZOO-1200°C. The results are correlated to the structuraf parameters char

neutron irradiated to various doses. The peak is a lambda-type phase transition of the antiferromagnetically interacting fraction of randomly distributed localized spins. The linear temperature term and its relation to this effect are also discussed. ## 21. Relation between thermal and electrical c