What are the differences in thermal conductivity between rattan and stone bases?

Thermal conductivity is a crucial property that determines how well a material can transfer heat. Rattan and stone bases exhibit significant differences in this regard due to their distinct compositions and structures.

Rattan, a natural fibrous material, has low thermal conductivity, meaning it does not transfer heat efficiently. This makes rattan a poor conductor of heat, often feeling warm to the touch even in cooler environments. Its porous structure traps air, further reducing its ability to conduct heat.

In contrast, stone, especially dense varieties like granite or marble, has high thermal conductivity. Stone bases quickly absorb and distribute heat, making them feel cooler in warm conditions and warmer in cold ones. This property makes stone ideal for applications where heat retention or dissipation is desired.

Understanding these differences helps in selecting the right material for specific uses, such as furniture, flooring, or architectural designs, where thermal properties play a key role.