• - The compressive residual stresses generated by laser shot peening") are precisely controlled in both location and intensity, and can be applied to mitigate abrupt transitions to tensile zones. Laser shot peening generates deep compressive residual stresses, 10 to 20 times deeper than conventional shot peening, making it significantly more beneficial in preventing ACBT. Laser shot peening[5]​ is widely used in the aerospace and power generation industries in turbine engines. gas.[6]​.

• - Material selection: Choosing the right material for a specific environment can help prevent ACBT. In corrosive environments, materials with greater resistance to corrosion and stress corrosion cracking should be used. For example, using stainless steel instead of carbon steel in a marine environment can reduce the likelihood of ACBT.[7]​.

• - Protective coatings: Applying a protective coating or barrier can help prevent corrosive substances from coming into contact with the metal surface, thus reducing the likelihood of ACBT. For example, using an epoxy coating on the interior surface of a pipe can reduce the likelihood of ACBT.[7]​.

• - Cathodic protection: Cathodic protection is a technique used to protect metals from corrosion by applying a small electric current to their surface. This technique can also help prevent ACBT by reducing the corrosion potential of the metal.[7]​.

• - Environmental controls: Controlling the environment surrounding the metal can help prevent ACBT. For example, reducing the temperature or acidity of the environment can help prevent it.[7]​.

• - Inspection and maintenance: Regular inspections and maintenance can help detect ACBT before it causes failure. This includes visual inspections, nondestructive testing, and monitoring of environmental factors.[7]​.

• - A 32-inch-diameter transmission pipeline north of Natchitoches, Louisiana, "Natchitoches, Louisiana," belonging to the Tennessee Gas Pipeline, exploded and caught fire due to ACBT on March 4, 1965, killing 17 people. At least 9 other people were injured and 7 homes 137 meters from the point of the break were destroyed.[8]​[9]​.

• - Stress corrosion caused the catastrophic collapse of the Silver Bridge in December 1967, when a suspension bridge spanning the Ohio River at Point Pleasant, West Virginia, suddenly failed. The main chain joint failed and the entire structure collapsed into the river, killing 46 people who were crossing the bridge in their vehicles at the time. Rust at the eyelet bar joint had caused a stress corrosion crack, which became critical due to the high bridge loading and low temperatures. The failure was compounded by a high level of residual stress in the eyelet bar. The disaster prompted a reevaluation of bridges in the United States.[10]​.

• - Aloha Airlines Flight 243: In 1988, Aloha Airlines Flight 243 suffered a partial fuselage failure due to ACBT. The Boeing 737-200 was flying from Hilo to Honolulu, Hawaii, when a section of the fuselage ruptured, triggering a decompression event. The failure investigation determined that the ACBT had occurred in the aluminum fuselage skin due to repeated pressurization and depressurization cycles of the aircraft. The incident led to changes in aircraft maintenance and inspection procedures to prevent similar failures later.[11]​.

• - Trans-Alaska Pipeline System: In 2001, a section of the Trans-Alaska Pipeline failed due to ACBT. The pipeline is used to transport crude oil from Alaska's North Slope to the Valdez Marine Terminal. The failure occurred when a 34-foot section of the pipeline ruptured, causing a spill of more than 285,000 US gallons (1,078.8 m³) of crude oil. The failure investigation determined that an ACBT had occurred in the pipeline due to the presence of water and bacteria, which created a corrosive environment.[12]​.

• - Periscope of the submarine USS Hartford&action=edit&redlink=1 "USS Hartford (SSN-768) (not yet redacted)") - In 2009, the periscope of the submarine USS "Hartford" failed due to ACBT. The periscope is used to look above the water while the submarine is submerged. The failure occurred when the periscope extended through the submarine's hull, causing seawater to enter the ship. Fortunately, there were no injuries, but the submarine had to be removed from service for repairs.[13]​[14]​.

• - NDK Crystal"): In 2009, a 50-foot-tall autoclave used to grow quartz crystals at a Belvidere, Illinois plant "Belvidere (Illinois)") violently ruptured due to a stress corrosion process, causing one death and one injury to nearby businesses. The autoclave was filled with a hot, highly pressurized sodium hydroxide solution, and the steel of the pressure vessel was not rated to withstand environments. However, plant operators mistakenly believed that the vessel walls would be protected from corrosion by the passivation formation of a sodium iron silicate layer. Despite a previous ACBT incident in 2007 and specific warnings from NDK Crystal's insurer, none of the plant's eight autoclaves received safety inspections.[15]

• - Forensic chemistry.

• - Forensic engineering (in English).

• - Forensic materials engineering (in English).

• - Polymer forensic engineering (in English).

• - Fracture mechanics.

• - Cracking due to environmental stress (in English).

• - Fracture due to environmental stress (in English).

• - Hydrogen embrittlement (in English).

• - Ozone cracking (in English).

• - Polymeric degradation.

• - Seasonal cracking (in English).

• - Sulfide stress cracking (in English).

• - Wikimedia Commons hosts a multimedia category on Mechanical Stress Corrosion.

• - The compressive residual stresses generated by laser shot peening") are precisely controlled in both location and intensity, and can be applied to mitigate abrupt transitions to tensile zones. Laser shot peening generates deep compressive residual stresses, 10 to 20 times deeper than conventional shot peening, making it significantly more beneficial in preventing ACBT. Laser shot peening[5]​ is widely used in the aerospace and power generation industries in turbine engines. gas.[6]​.

• - Material selection: Choosing the right material for a specific environment can help prevent ACBT. In corrosive environments, materials with greater resistance to corrosion and stress corrosion cracking should be used. For example, using stainless steel instead of carbon steel in a marine environment can reduce the likelihood of ACBT.[7]​.

• - Protective coatings: Applying a protective coating or barrier can help prevent corrosive substances from coming into contact with the metal surface, thus reducing the likelihood of ACBT. For example, using an epoxy coating on the interior surface of a pipe can reduce the likelihood of ACBT.[7]​.

• - Cathodic protection: Cathodic protection is a technique used to protect metals from corrosion by applying a small electric current to their surface. This technique can also help prevent ACBT by reducing the corrosion potential of the metal.[7]​.

• - Environmental controls: Controlling the environment surrounding the metal can help prevent ACBT. For example, reducing the temperature or acidity of the environment can help prevent it.[7]​.

• - Inspection and maintenance: Regular inspections and maintenance can help detect ACBT before it causes failure. This includes visual inspections, nondestructive testing, and monitoring of environmental factors.[7]​.

• - A 32-inch-diameter transmission pipeline north of Natchitoches, Louisiana, "Natchitoches, Louisiana," belonging to the Tennessee Gas Pipeline, exploded and caught fire due to ACBT on March 4, 1965, killing 17 people. At least 9 other people were injured and 7 homes 137 meters from the point of the break were destroyed.[8]​[9]​.

• - Stress corrosion caused the catastrophic collapse of the Silver Bridge in December 1967, when a suspension bridge spanning the Ohio River at Point Pleasant, West Virginia, suddenly failed. The main chain joint failed and the entire structure collapsed into the river, killing 46 people who were crossing the bridge in their vehicles at the time. Rust at the eyelet bar joint had caused a stress corrosion crack, which became critical due to the high bridge loading and low temperatures. The failure was compounded by a high level of residual stress in the eyelet bar. The disaster prompted a reevaluation of bridges in the United States.[10]​.

• - Aloha Airlines Flight 243: In 1988, Aloha Airlines Flight 243 suffered a partial fuselage failure due to ACBT. The Boeing 737-200 was flying from Hilo to Honolulu, Hawaii, when a section of the fuselage ruptured, triggering a decompression event. The failure investigation determined that the ACBT had occurred in the aluminum fuselage skin due to repeated pressurization and depressurization cycles of the aircraft. The incident led to changes in aircraft maintenance and inspection procedures to prevent similar failures later.[11]​.

• - Trans-Alaska Pipeline System: In 2001, a section of the Trans-Alaska Pipeline failed due to ACBT. The pipeline is used to transport crude oil from Alaska's North Slope to the Valdez Marine Terminal. The failure occurred when a 34-foot section of the pipeline ruptured, causing a spill of more than 285,000 US gallons (1,078.8 m³) of crude oil. The failure investigation determined that an ACBT had occurred in the pipeline due to the presence of water and bacteria, which created a corrosive environment.[12]​.

• - Periscope of the submarine USS Hartford&action=edit&redlink=1 "USS Hartford (SSN-768) (not yet redacted)") - In 2009, the periscope of the submarine USS "Hartford" failed due to ACBT. The periscope is used to look above the water while the submarine is submerged. The failure occurred when the periscope extended through the submarine's hull, causing seawater to enter the ship. Fortunately, there were no injuries, but the submarine had to be removed from service for repairs.[13]​[14]​.

• - NDK Crystal"): In 2009, a 50-foot-tall autoclave used to grow quartz crystals at a Belvidere, Illinois plant "Belvidere (Illinois)") violently ruptured due to a stress corrosion process, causing one death and one injury to nearby businesses. The autoclave was filled with a hot, highly pressurized sodium hydroxide solution, and the steel of the pressure vessel was not rated to withstand environments. However, plant operators mistakenly believed that the vessel walls would be protected from corrosion by the passivation formation of a sodium iron silicate layer. Despite a previous ACBT incident in 2007 and specific warnings from NDK Crystal's insurer, none of the plant's eight autoclaves received safety inspections.[15]

• - Forensic chemistry.

• - Forensic engineering (in English).

• - Forensic materials engineering (in English).

• - Polymer forensic engineering (in English).

• - Fracture mechanics.

• - Cracking due to environmental stress (in English).

• - Fracture due to environmental stress (in English).

• - Hydrogen embrittlement (in English).

• - Ozone cracking (in English).

• - Polymeric degradation.

• - Seasonal cracking (in English).

• - Sulfide stress cracking (in English).

• - Wikimedia Commons hosts a multimedia category on Mechanical Stress Corrosion.