Thermal Conductivity Of Rubber Compounds

Consequently there is a vast potential for optimization of.

Thermal conductivity of rubber compounds.

The data is listed on pages 6 through 8 and graphed on page 1 where fenton and company are on curves 63. November 1 2001 clemens j. The thermal conductivity of a rubber compound is studied as a function of its state of curing. An uncured sample was also obtained for use as a reference.

The device is presented and the calculations in order to obtain samples with controlled and homogeneous vulcanization rates are performed. In some journal of physics which has its name blurred up in reference 570 on page 1458 41 2026 33 1963. This study focused on the influence of the state of curing on the thermal conductivity of the subsequent rubber compound. Due to the low thermal conductivity of rubber compounds typically in the range from 0 15 to 0 4 w m 1 k 1 and the fact that the molding of the rubber part takes place in a heated mold via an energy based crosslinking reaction the total cycle time is in the range of minutes.

Vulcanization rate was found to have a significant impact on the thermal conductivity of the product thermal conductivity of rubber compounds versus the. 2012 manipulated the curing process to produce rubber samples that had been produced with different vulcanization rate. The thermal conductivity of each of the samples was measured using the hot disk transient plane source 2500s the thermal conductivity analyzer hot disk tps 2500s is state of the art thermal. The hot disk tps was chosen to perform the measurements due to its fast test times and non destructive method of testing.