2020
DOI: 10.1007/s11665-020-04556-9
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Effect of Carbide Density on Fatigue Limit of H21 Die Steel

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Cited by 6 publications
(7 citation statements)
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“…The HCF results were presented as the maximum stresses supported in axial tests when the stress ratio was zero. If these results were converted to stress amplitudes, the resultant values would be approximately 75–85% of those reported by Shinde et al [ 17 ] for H13 or by Korade et al [ 18 ] for H21 in rotating bending tests. This proportion aligns with the experimental differences observed between the axial and bending fatigue tests.…”
Section: Discussionmentioning
confidence: 84%
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“…The HCF results were presented as the maximum stresses supported in axial tests when the stress ratio was zero. If these results were converted to stress amplitudes, the resultant values would be approximately 75–85% of those reported by Shinde et al [ 17 ] for H13 or by Korade et al [ 18 ] for H21 in rotating bending tests. This proportion aligns with the experimental differences observed between the axial and bending fatigue tests.…”
Section: Discussionmentioning
confidence: 84%
“…As a result of these tests, a fatigue strength of 566 MPa was obtained at 10 7 cycles. Likewise, Korade et al [ 18 ] evaluated the fatigue behaviour of H21 steel using rotating bending HCF tests up to 10 7 cycles. The resultant fatigue strength for conventionally heat-treated specimens was found to be 560 MPa.…”
Section: Introductionmentioning
confidence: 99%
“…Nevertheless, prohibiting the precipitation of carbonitrides may be quite difficult concerning the industrial practices involving H13 steel. Homogenization treatment is an effective way widely used to alleviate and eliminate the segregation and primary carbonitrides in H13 [5,14,15,21]. As reported previously [22], the carbonitrides undergo shrinking, passivation, fragmentation, and dissolution during isothermal holding from 1150 • C to 1230 • C. Thus, the sizes and quantities of precipitates are remarkably declined, and the composition is progressively changed after holding from 1150 • C to 1250 • C [21,22].…”
Section: Introductionmentioning
confidence: 97%
“…It has been well known that the formation of small Ti-containing precipitates could refine the structure by pinning the boundary against grain coarsening and acting as nucleation sites of ferrite [12,13]. Many reports have shown that the mechanical properties and thermal fatigue life of hot-work die steels are directly influenced by the fine nanosized precipitates [14,15], of which the characteristics could be improved through heat treatments [16][17][18]. Nevertheless, the large and stable primary precipitates would severely deteriorate the toughness of H13 steel [2,19] and have an adverse effect on the precipitation of fine nano-sized precipitates [20] and performance of the steel.…”
Section: Introductionmentioning
confidence: 99%
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