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W1480823090 endingPage "853" @default.
W1480823090 startingPage "831" @default.
W1480823090 abstract "ABSTRACT Lightweighting in ground vehicles is today considered as one of the most effective strategies to improve fuel economy and reduce anthropogenic environment‐damaging and climate‐changing emissions. Magnesium (Mg) alloy, as a strategic ultra‐lightweight metallic material, has recently drawn a considerable interest in the transportation industry to reduce the weight of vehicles due to their high strength‐to‐weight ratio, dimensional stability, good machinability and recyclability. However, the hexagonal close‐packed crystal structure of Mg alloys gives only limited slip systems and develops sharp deformation textures associated with strong mechanical anisotropy and tension–compression yield asymmetry. For the vehicle components subjected to dynamic loading, such asymmetry could exert an unfavourable influence on the material performance. This problem could be conquered through weakening the texture via addition of rare‐earth (RE) elements. Thus, a number of RE‐containing Mg alloys have recently been developed. To guarantee the structural integrity, durability and safety of highly loaded structural components, understanding the characteristics and mechanisms of cyclic deformation and fatigue fracture of such RE‐Mg alloys is of vital importance. In this review, the available fatigue properties including stress‐controlled fatigue strength, strain‐controlled cyclic deformation characteristics and fatigue crack propagation behaviour are summarized, along with the microstructural change and crystallographic texture weakening in the RE‐containing Mg alloys in different forms (cast, extruded and heat‐treated states), in comparison with those of RE‐free Mg alloys." @default.
W1480823090 created "2016-06-24" @default.
W1480823090 creator A5029397650 @default.
W1480823090 creator A5057352952 @default.
W1480823090 date "2014-05-06" @default.
W1480823090 modified "2023-10-10" @default.
W1480823090 title "Fatigue of rare‐earth containing magnesium alloys: a review" @default.
W1480823090 cites W1604877301 @default.
W1480823090 cites W1607336717 @default.
W1480823090 cites W1844925655 @default.
W1480823090 cites W1964944713 @default.
W1480823090 cites W1966006689 @default.
W1480823090 cites W1969002437 @default.
W1480823090 cites W1969313913 @default.
W1480823090 cites W1969471308 @default.
W1480823090 cites W1970267195 @default.
W1480823090 cites W1970804844 @default.
W1480823090 cites W1976811384 @default.
W1480823090 cites W1977642989 @default.
W1480823090 cites W1979459991 @default.
W1480823090 cites W1981668163 @default.
W1480823090 cites W1986623586 @default.
W1480823090 cites W1986793959 @default.
W1480823090 cites W1990342561 @default.
W1480823090 cites W1991880324 @default.
W1480823090 cites W1992028416 @default.
W1480823090 cites W1994958309 @default.
W1480823090 cites W1998555200 @default.
W1480823090 cites W1998990613 @default.
W1480823090 cites W2000061598 @default.
W1480823090 cites W2000551533 @default.
W1480823090 cites W2003747466 @default.
W1480823090 cites W2005952394 @default.
W1480823090 cites W2006169848 @default.
W1480823090 cites W2006891676 @default.
W1480823090 cites W2007355548 @default.
W1480823090 cites W2007862716 @default.
W1480823090 cites W2009098341 @default.
W1480823090 cites W2010615424 @default.
W1480823090 cites W2010931210 @default.
W1480823090 cites W2011527275 @default.
W1480823090 cites W2011895273 @default.
W1480823090 cites W2012012515 @default.
W1480823090 cites W2012672136 @default.
W1480823090 cites W2013098931 @default.
W1480823090 cites W2013490300 @default.
W1480823090 cites W2013699649 @default.
W1480823090 cites W2014014087 @default.
W1480823090 cites W2014379824 @default.
W1480823090 cites W2014505237 @default.
W1480823090 cites W2015389057 @default.
W1480823090 cites W2017299546 @default.
W1480823090 cites W2018317600 @default.
W1480823090 cites W2018850386 @default.
W1480823090 cites W2020515498 @default.
W1480823090 cites W2020810488 @default.
W1480823090 cites W2022804434 @default.
W1480823090 cites W2023977237 @default.
W1480823090 cites W2024608878 @default.
W1480823090 cites W2030012635 @default.
W1480823090 cites W2030508457 @default.
W1480823090 cites W2030649523 @default.
W1480823090 cites W2031962680 @default.
W1480823090 cites W2034449297 @default.
W1480823090 cites W2037045589 @default.
W1480823090 cites W2037217076 @default.
W1480823090 cites W2037686634 @default.
W1480823090 cites W2039238114 @default.
W1480823090 cites W2042096766 @default.
W1480823090 cites W2045065636 @default.
W1480823090 cites W2046694343 @default.
W1480823090 cites W2047757193 @default.
W1480823090 cites W2047952694 @default.
W1480823090 cites W2048729646 @default.
W1480823090 cites W2050954080 @default.
W1480823090 cites W2051620099 @default.
W1480823090 cites W2051773981 @default.
W1480823090 cites W2052305988 @default.
W1480823090 cites W2054190653 @default.
W1480823090 cites W2054324764 @default.
W1480823090 cites W2055351267 @default.
W1480823090 cites W2055935866 @default.
W1480823090 cites W2056020727 @default.
W1480823090 cites W2057241778 @default.
W1480823090 cites W2059261538 @default.
W1480823090 cites W2061632756 @default.
W1480823090 cites W2063970767 @default.
W1480823090 cites W2064372727 @default.
W1480823090 cites W2065931655 @default.
W1480823090 cites W2068416859 @default.
W1480823090 cites W2068870487 @default.
W1480823090 cites W2069476503 @default.
W1480823090 cites W2069657514 @default.
W1480823090 cites W2070855124 @default.
W1480823090 cites W2071137682 @default.
W1480823090 cites W2075230996 @default.
W1480823090 cites W2076244894 @default.
W1480823090 cites W2077385220 @default.