2013
DOI: 10.1016/j.ijfatigue.2012.09.016
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Fatigue and fracture of a 316 stainless steel metal matrix composite reinforced with 25% titanium diboride

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Cited by 44 publications
(16 citation statements)
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“…4), and a good ductility of these new Fe-TiB 2 composites which is higher than that found in the literature [22,28]. Thanks to the simple shear test, permitting larger plastic strain compared to tensile tests, about γ¼50% plastic strain (corresponding to 0.5/√3 E28.9% von Mises equivalent plastic strain) may be obtained before macroscopic failure, for the hot-rolled and annealed composites, which is appreciable for forming capability.…”
Section: Mechanical Behaviormentioning
confidence: 73%
“…4), and a good ductility of these new Fe-TiB 2 composites which is higher than that found in the literature [22,28]. Thanks to the simple shear test, permitting larger plastic strain compared to tensile tests, about γ¼50% plastic strain (corresponding to 0.5/√3 E28.9% von Mises equivalent plastic strain) may be obtained before macroscopic failure, for the hot-rolled and annealed composites, which is appreciable for forming capability.…”
Section: Mechanical Behaviormentioning
confidence: 73%
“…One of the hypotheses for crack growth in particle reinforced MMCs is that K max controls the degree of particle fracture, and thus, the path of the fatigue crack [39,48]. The effect of K max on particle fracture can be seen in Fig.…”
Section: à6â10mentioning
confidence: 99%
“…Because the cumulative number of fractured particles remains constant while crack length increases, the parameter of fractured particles divided by crack length decreases while K max increases in the period following overload. Recently, Bacon et al [48] performed experiments to understand the damage mechanisms during crack propagation in 316 stainless steel metal matrix composite reinforced with 25% titanium diboride. Based on the fracture surface observation, they also observed increase in particle fracture with an increase in K max due to increase in monotonic plastic zone size.…”
Section: à6â10mentioning
confidence: 99%
“…Small dimensions of active micro forceps is great challenge to perform analysis and needs special environment for fatigue tests since the state of knowledge in macro technologies are not smoothly exchangeable to the micro domain [1,4]. The size effects and changed parts behavior could justify this situation of AMF in this research.…”
Section: Material-method: Low-cycle Loading On Active Micro Forcepsmentioning
confidence: 94%
“…Forceps are the instruments that transmit forces from surgeon's hand to internal organs of retina of eye. Therefore, high stiffness is an important requirement for forceps [1]. Low cycle loading (LCL) of active micro forceps materials is recognized as a factor that contributes to material failure through either fractures or wear [2].…”
Section: Introductionmentioning
confidence: 99%