The clad steel reactors are frequently used in chemical processing industries primarily because of the clad material’s excellent compromise of cost, strength, and corrosion resistance. This paper investigated a failure case of chloride induced stress corrosion cracking of the stainless steel cladding found after the latest 10-years operation. The analysis included background information collection, visual inspection, chemical composition determination, microstructural examination, and microscopic analysis. The results revealed that the stainless steel cladding was exposed to a trace of chloride and acid environment for a prolonged period, and the sigma phase was confirmed to exist within the entire cladding layer. The sigma phase shall not exist in a good quality stainless steel because it reduces the corrosion resistance of stainless steel. Consequently, corrosion pits and inter-granular corrosion were initiated at sigma phase site in this case. After the formation of surface defects, and induced chloride can be migrated into and highly concentrated in the tip region of defects. Stress corrosion cracking. It was concluded that the cracking of stainless steel cladding was attributed to stress corrosion cracking and greatly enhanced by sigma phase precipitation during the improper hot rolling process.