MIRON Thermal insulation MIRON is made from Polyethylene Foam that has been chemically cross-linked for a tighter structure (Chemical cross-linked) making the XPE foam insulation have smaller and finer bubbles compared to traditional PE foam XPE has 3 times more air bubbles within the insulation material than regular PE insulation 3 times which is a key factor that gives XPE insulation a low thermal conductivity of only 0.025 W/m.K high flexibility and with its 100% closed-cell structure, it prevents moisture and water penetration MIRON thermal insulation is therefore used for insulating centralized air conditioning systems (Chiller System) both in air duct systems and chillers Operating Temperature XPE insulation has a wide operating temperature range, usable at temperatures as low as -90 degrees Celsius and up to 105 degrees Celsius, with a relatively low density of only 25 – 35 kg/m3 making the insulation lightweight This also reduces the cost of structures used to support the insulation Thermal conductivity Thermal insulation is extruded into long sheets and chemically cross-linked resulting in insulation with bubbles that are smaller and finer than regular PE insulation by 3 times This results in a low thermal conductivity of only 0.025 W/m.K making it a highly efficient thermal insulation M-PE Insulation Thickness Thermal Resistance M2.K/W XPE 5 mm 5 mm 2.12 XPE 10 mm 10 mm 2.32 Water Absorption MIRON thermal insulation has a closed-cell structure preventing water and moisture penetration (water absorption rate 1.5 g/m2) thus helping to prevent water in roofing systems and condensation in air conditioning systems Ozone Resistance Insulation MIRON has passed ozone resistance testing (Ozone Resistance)by the Department of Science We used an ozone test 50 pphm at a temperature of 40 degrees Celsius for a total of 72 hours. continuously The results showed no cracking or reactions from the ozone test We can therefore conclude that MIRON insulation has ozone resistance capability Chemical Resistance The chemical resistance of MIRON insulation has been certified by the Department of Science, which we sent for testing with Acetic Acid (Acetic Acid) Sulfuric Acid (Sulfuric Acid) Hydrochloric Acid (Hydrochloric Acid) Ammonia (Ammonia) and Nitric Acid(Nitric Acid) From these tests insulationMIRON showed no changes Therefore, we can conclude thatMIRON insulation does not react with these chemicals Product Size Table Product Model Thickness (mm) Width x Length (m x m) Area (square meters) XPE 5 mm 5 1.2 X 100 120 XPE 10 mm 10 1.2 X 50 60 XPE 15 mm 15 1.2 X 50 60 XPE 20 mm 20 1.2 X 25 30 XPE 25 mm 25 1.2 X 25 30 Technical Data Table Description Test Results Standard Cell Structure (Cell-Structure) Close Cell Expansion 30X – 40X Apparent Density (Apparent Density) 25 – 30 kg/m3 ISO 845 Thermal Conductivity (Thermal Conductivity) 0.025 W/m.K ASTM D-1003 Water Absorption (Water Absorption) 0.00015 g/cm2 JIS K 6767 Tensile Strength (Tensile Strength) 30.6 N/cm2 JIS K 6767 Elongation at Break (Elongation at Break) 113% JIS K 6767 Tear Strength (Tear Strength) 20.4 N/cm JIS K 6767 Permanent Set in Compression (Permanent set in compression) 3.7% JIS K 6767 Dimensional Change on Heating (70°C / 22 h.) (Dimensional change on Heating) W = 0, L = -1% JIS K 6767 Ozone Resistance (50 pphm) (Ozone Resistance) No Crack ASTM D 1308 Flammability ( Flammability ) Class 0 BS 476 part 6 Service Temperature Service Temperature -90°C – 105°C
