Hiroko Mikado scite author profile

Hiroko Mikado

5Publications

23Citation Statements Received

31Citation Statements Given

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Affiliations

YKK (Japan), University of Toyama, Uppsala University

Publications

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On the Short Surface Fatigue Crack Growth Behavior in a Fine-Grained WC-Co Cemented Carbide

Mikado

Ishihara

Oguma

et al. 2017

Metals

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Abstract:In the present study, the fatigue crack growth (FCG) behavior of short surface cracks in a fine-grained cemented carbide with a length of less than 1 mm was investigated. The rotating bending and the four-point bending fatigue tests were carried out at stress ratios of R = −1 and R = 0.1 (R = maximum stress/minimum stress). It was found that a short surface crack had a longer stable fatigue crack growth area than a long through-thickness crack; the FCG behaviors of the two types of crack are clearly different. Furthermore, the FCG path of short surface cracks was investigated in detail to study the interaction between fatigue cracks and microstructures of the cemented carbide such as WC grains and the Co phase. At a low K max (K max = the maximum stress intensity factor), it was found that fatigue crack growth within WC grains is difficult because of a small driving force; instead, crack growth is along the brittle WC/WC interface. On the other hand, at a high K max , WC grain breakage often occurs, since the driving force of FCG is large, and the fatigue crack grows linearly.

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Effect of stress ratio on fatigue lifetime and crack growth behavior of WC–Co cemented carbide

Mikado

Ishihara

Oguma

et al. 2014

Transactions of Nonferrous Metals Society of China

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Wear mechanisms of WC-Co cemented carbide tools and PVD coated tools used for shearing Cu-alloy wire in zipper production

Heinrichs

Mikado

Kawakami

et al. 2019

Wear

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Wear of uncoated and PVD coated cemented carbide tools for processing of copper based materials part II: Exploring the sliding contact with pure copper

Heinrichs

Mikado

Wiklund

et al. 2021

Wear

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Fatigue Lifetime and Crack Growth Behavior of WC-Co Cemented Carbide

Mikado

Ishihara

Oguma

et al. 2014

AMR

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It is well known that WC-Co cemented carbides have excellent wear resistance. However, information about their fatigue crack growth behavior and fatigue properties is limited. In the present study, rotating bending fatigue tests were carried out on a fine grained WC-Co cemented carbide to evaluate its fatigue lifetime and crack growth behavior. From observations of the micro-notched specimen surface during the fatigue process, it was revealed that most of the fatigue lifetime of the tested WC-Co cemented carbide is comprised of crack growth cycles. Using the basic equation of fracture mechanics, the relation between the rate of fatigue crack growth da/dN and the maximum stress intensity factor Kmax of the WC-Co cemented carbide was derived. From this relation, both the threshold intensity factor Kth and the fatigue fracture toughness Kfc of the material were determined. Fatigue lifetime of the WC-Co cemented carbide was estimated based on the fatigue crack growth law.

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Hiroko Mikado

On the Short Surface Fatigue Crack Growth Behavior in a Fine-Grained WC-Co Cemented Carbide

Effect of stress ratio on fatigue lifetime and crack growth behavior of WC–Co cemented carbide

Wear mechanisms of WC-Co cemented carbide tools and PVD coated tools used for shearing Cu-alloy wire in zipper production

Wear of uncoated and PVD coated cemented carbide tools for processing of copper based materials part II: Exploring the sliding contact with pure copper

Fatigue Lifetime and Crack Growth Behavior of WC-Co Cemented Carbide

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