Editing Mechanical engineering (section)

===Structural analysis===
{{main|Structural analysis|Failure analysis}}

Structural analysis is the branch of mechanical engineering (and also civil engineering) devoted to examining why and how objects fail and to fix the objects and their performance. Structural failures occur in two general modes: static failure, and fatigue failure. ''Static structural failure'' occurs when, upon being loaded (having a force applied) the object being analyzed either breaks or is deformed [[plastic deformation|plastically]], depending on the criterion for failure. ''Fatigue failure'' occurs when an object fails after a number of repeated loading and unloading cycles. Fatigue failure occurs because of imperfections in the object: a microscopic crack on the surface of the object, for instance, will grow slightly with each cycle (propagation) until the crack is large enough to cause [[ultimate failure]].<ref>{{Cite web|url=http://www.virginia.edu/bohr/mse209/chapter8.htm|title=Chapter 8. Failure|website=virginia.edu|access-date=9 September 2018}}</ref>

Failure is not simply defined as when a part breaks, however; it is defined as when a part does not operate as intended. Some systems, such as the perforated top sections of some plastic bags, are designed to break. If these systems do not break, failure analysis might be employed to determine the cause.

Structural analysis is often used by mechanical engineers after a failure has occurred, or when designing to prevent failure. Engineers often use online documents and books such as those published by ASM<ref>[http://asmcommunity.asminternational.org/portal/site/asm/ ASM International's site many documents, such as the ''ASM Handbook'' series] {{webarchive|url=https://web.archive.org/web/20070901014247/http://asmcommunity.asminternational.org/portal/site/asm/ |date=1 September 2007}}. [[ASM International (society)|ASM International]].</ref> to aid them in determining the type of failure and possible causes.

Once theory is applied to a mechanical design, physical testing is often performed to verify calculated results. Structural analysis may be used in an office when designing parts, in the field to analyze failed parts, or in laboratories where parts might undergo controlled failure tests.