First, in terms of thermal insulation performance, thicker purification boards usually have better thermal insulation effects. This is because thicker interlayers can store more air, and the low thermal conductivity of air makes heat transfer more difficult. In cold environments, thicker purification boards can effectively reduce heat loss and reduce energy consumption. While thinner purification boards are relatively weak in thermal insulation performance, their light and thin characteristics may be more advantageous in some occasions where thermal insulation requirements are not high, such as places with limited space, where thin purification boards will not take up too much space.
Secondly, in terms of fire resistance, generally speaking, purification boards with thicker thickness may provide better fire protection to a certain extent. Thicker interlayers can delay the spread of fire and buy more time for personnel evacuation and fire extinguishing. However, this is not absolute, and fire resistance also depends on the material of the real gold interlayer and the overall structural design of the purification board.
Furthermore, from the perspective of strength and durability, thick purification boards tend to be more durable. They can withstand greater external impact and pressure, and are not easily deformed or damaged. In some environments where they may be subject to mechanical collisions or heavy objects, thick purification boards can better ensure their integrity and stability. Thin purification boards may be more suitable for some lightweight applications that do not require high strength.
In addition, purification boards of different thicknesses also differ in cost. Thicker purification boards are usually relatively expensive, not only because of the increase in material usage, but also because of the complexity of the production process.
In short, Mechanism Real Gold Sandwich Purification Boards of different thicknesses differ in terms of thermal insulation, fire resistance, strength and cost. When choosing, it is necessary to comprehensively consider the specific use environment and needs to achieve the best performance and economic benefits.