The study is to analyze failure of an ethylene cracking heater’s tube, from Ethylene (M) Sdn Bhd. The objectives of the research are to conduct relevant tests and experiments, analyze data obtained and suggest recommendations to avoid similar incident in the future. Visual Inspection revealed cracks and deformation on the tube. Inner surface of the tube experienced more failure compared to outer surface of the tube. It can be concluded that the failure was originated from the inner side of the tube. Non-Destructive Testing revealed the only three cracks detected. However, from the visual inspection, cracks can be detected. It can be concluded that, the failure was originated from the inner side and penetrated to the outer surface at some point where the failure is most severe. From Hardness Testing, at inner surface of the tube, where carburization was most severe, the average hardness was found to be higher than the middle section of the tube. Carburization is expected to the factor of this hardening. From Microscopy Examination, precipitates of small blocky type are found in the austenitic grains. Comparison between Microscopy Examination image with higher magnification and uncarburized Nickel-Chromium image revealed that high degree of carbide precipitation at the grain boundaries and blocky carbide particles in the matrix compared to the uncarburized Nickel-Chromium alloy. Chemical Analysis proved Carbon’s involvement at the surface of the tube. Fractography showed intergranular fracture of the tube. It can be concluded that the mode of failure of the radiant furnace tube was a combination of creep damage and carburization attack. Experimental data shows that the furnace tube had undergone carburization due to exposure to excessively high temperature and carbide formation from the reaction of carbon during service. To avoid similar incident in the future, it is recommended for Ethylene (M) Sdn Bhd to review all operating parameters of the furnace. As a long-term recommendation, it is also recommended for Ethylene (M) Sdn Bhd to replace Nickel-Chromium alloy with an Al2O3-forming alloys. It is recommended to further study the furnace system and analyze samples from other furnace units