GMG Reaches Major Milestones in THERMAL-XR(R) Test Work

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Brisbane, Queensland, Australia--(Newsfile Corp. - October 23, 2024) - Graphene Manufacturing Group Ltd. (TSXV: GMG) ("GMG" or the "Company") is pleased to provide a technical update on the commercialisation progress of THERMAL-XR? Powered by GMG Graphene.

PRODUCT TECHNICAL UPDATE
THERMAL-XR? has now successfully passed 15,000 hours for corrosion protection under a salt sea spray industry standard test (ASTM B117) in a third-party laboratory in the US as seen in Figure 1. The Company believes that THERMAL-XR? is one of the longest lasting corrosion protection coatings available on the market. The testing will continue, and further reports will be updated by the Company.

Figure 1: THERMAL-XR? Coating Corrosion Test Results After 15,000 Salt Sea Spray Hours (ATM B117)

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GMG can now accurately model and calculate the heat transfer rate expected from THERMAL-XR?, as compared to bare (uncoated) Aluminium, within 1% of actual results. This was reviewed and verified by the University of Queensland.

Figure 2 shows the simulation model used to calculate the heat transfer coefficients of bare aluminium, versus THERMAL-XR? coated aluminium, on the test rig that GMG built and operated to obtain the experimental data. The test was conducted at a temperature of approximately 100 degree Celsius.

Figure 2: Estimation of Heat Transfer of THERMAL-XR? coated aluminium versus bare aluminium

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Through this work, as shown in Figure 3, the Company has demonstrated that THERMAL-XR? provides approximately 8.6 times more radiative heat transfer than bare aluminium, due to its thermal radiation (passing of heat in wave forms) capabilities. THERMAL-XR? has been calculated to provide 8.15 W/m2K (Watts per metre squared Kelvin degrees), or approximately 1.44 Btu/hr ft2 F (British thermal units per hour foot squared Fahrenheit degrees), of heat transfer when applied properly on top of bare aluminium, as compared to 0.95 W/m2K or 0.17 Btu/hr ft2 for bare aluminium.

Figure 3: Thermal Radiation calculations of THERMAL-XR? coated aluminium versus bare aluminium

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Figure 4 shows THERMAL-XR? increases the overall heat transfer coefficient by 2.2 times more than bare aluminium, from 6.0 W/m2K up to 13.2 W/m2K because of the increase in the thermal radiation from the THERMAL-XR? coating. This was conducted at a temperature of approximately 100 degree Celsius for a 100mm diameter flat plate.