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- Metallurgical_failure_analysis abstract "Metallurgical failure analysis is the process by which a metallurgist determines the mechanism that has caused a metal component to fail. Typical failure modes involve various types of corrosion and mechanical damage. It has been estimated that the direct annual cost of corrosion alone in the United States was $276 billion, approximately 3.1% of GDP, in 1998.corrosion costs have continued to skyrocket and total corrosion costs now are greater than $1 trillion annually in the United States as of 2012.Metal components fail as a result of the environmental conditions to which they are exposed to as well as the mechanical stresses that they experience. Often a combination of both environmental conditions and stress will cause failure.Metal components are designed to withstand the environment and stresses that they will be subjected to. The design of a metal component involves not only a specific elemental composition but also specific manufacturing process such as heat treatments, machining processes, etc.… The huge arrays of different metals that result all have unique physical properties.Specific properties are designed into metal components to make them more robust to various environmental conditions. These differences in physical properties will exhibit unique failure modes. A metallurgical failure analysistakes into account as much of this information as possible during analysis. The end goal of failure analysis is to provide a determination of the root cause and a solution to any underlying problems to prevent future failures.Analysis of a failed part can be done using destructive testing or non-destructive testing. Destructive testing involves removing a metal component from service and sectioning the component for analysis. Destructive testing gives the failure analyst the ability to conduct the analysis in a laboratory setting and perform tests on the material that will ultimately destroy the component. Non destructive testing is a test method that allows certain physical properties of metal to be examined without taking the samples completely out of service. NDT is generally used to detect failures in components before the component fails catastrophically.There is no standardized list of metallurgical failure modes and different metallurgists might use a different name for the same failure mode. The Failure Mode Terms listed below are those accepted by ASTM, ASM, and/or NACE as distinct metallurgical failure mechanisms.".
- Metallurgical_failure_analysis wikiPageID "28446647".
- Metallurgical_failure_analysis wikiPageLength "4477".
- Metallurgical_failure_analysis wikiPageOutDegree "20".
- Metallurgical_failure_analysis wikiPageRevisionID "703137340".
- Metallurgical_failure_analysis wikiPageWikiLink ASM_International_(society).
- Metallurgical_failure_analysis wikiPageWikiLink ASTM_International.
- Metallurgical_failure_analysis wikiPageWikiLink Category:Materials_science.
- Metallurgical_failure_analysis wikiPageWikiLink Category:Mechanical_engineering.
- Metallurgical_failure_analysis wikiPageWikiLink Category:Metallurgy.
- Metallurgical_failure_analysis wikiPageWikiLink Caustic_embrittlement.
- Metallurgical_failure_analysis wikiPageWikiLink Corrosion_fatigue.
- Metallurgical_failure_analysis wikiPageWikiLink Creep_(deformation).
- Metallurgical_failure_analysis wikiPageWikiLink Destructive_testing.
- Metallurgical_failure_analysis wikiPageWikiLink Erosion_corrosion.
- Metallurgical_failure_analysis wikiPageWikiLink Failure_cause.
- Metallurgical_failure_analysis wikiPageWikiLink Fatigue_(material).
- Metallurgical_failure_analysis wikiPageWikiLink Fracture.
- Metallurgical_failure_analysis wikiPageWikiLink Hydrogen_embrittlement.
- Metallurgical_failure_analysis wikiPageWikiLink Laboratory.
- Metallurgical_failure_analysis wikiPageWikiLink Mechanical_overload.
- Metallurgical_failure_analysis wikiPageWikiLink NACE_International.
- Metallurgical_failure_analysis wikiPageWikiLink Nondestructive_testing.
- Metallurgical_failure_analysis wikiPageWikiLink Stress_corrosion_cracking.
- Metallurgical_failure_analysis wikiPageWikiLink Sulfide_stress_cracking.
- Metallurgical_failure_analysis wikiPageWikiLinkText "Metallurgical failure analysis".
- Metallurgical_failure_analysis wikiPageWikiLinkText "metallurgical analysis".
- Metallurgical_failure_analysis wikiPageWikiLinkText "metallurgical testing".
- Metallurgical_failure_analysis wikiPageUsesTemplate Template:Cleanup.
- Metallurgical_failure_analysis subject Category:Materials_science.
- Metallurgical_failure_analysis subject Category:Mechanical_engineering.
- Metallurgical_failure_analysis subject Category:Metallurgy.
- Metallurgical_failure_analysis hypernym Process.
- Metallurgical_failure_analysis type Election.
- Metallurgical_failure_analysis type Discipline.
- Metallurgical_failure_analysis type Page.
- Metallurgical_failure_analysis type Redirect.
- Metallurgical_failure_analysis comment "Metallurgical failure analysis is the process by which a metallurgist determines the mechanism that has caused a metal component to fail. Typical failure modes involve various types of corrosion and mechanical damage.".
- Metallurgical_failure_analysis label "Metallurgical failure analysis".
- Metallurgical_failure_analysis sameAs Q6822922.
- Metallurgical_failure_analysis sameAs m.0crfyjd.
- Metallurgical_failure_analysis sameAs Q6822922.
- Metallurgical_failure_analysis wasDerivedFrom Metallurgical_failure_analysis?oldid=703137340.
- Metallurgical_failure_analysis isPrimaryTopicOf Metallurgical_failure_analysis.