Ito S, Nakanishi H, Ikehara Y, Kato T, Kasai Y, Ito K, Akiyama S, Nakao A, Tatematsu M. Real‐time observation of micrometastasis formation in the living mouse liver using a GFP gene‐tagged rat tongue carcinoma cell line. <i>International Journal of Cancer</i> 2001; 93(2) 212–217.

Ito, Sumiyo; Nakanishi, Hirofumi; Ikehara, Yuzuru; Kato, Tetsuya; Kasai, Yasushi; Ito, Kazuko; Akiyama, S; Nakao, Akito; Tatematsu, M

doi:10.1002/ijc.10196

Cited by 23 publications

(33 citation statements)

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“…3a. Notice that structures like these are often referred to as 'acicular ferrite' in the terminology of linepipe steels, but they do not resemble the acicular ferrite that is found in steel weld metals, where plates nucleate intragranularly on non-metallic inclusions to form a chaotic microstructure which is good for toughness [22][23][24]. Instead, the microstructure in Fig.…”

Section: Microstructurementioning

confidence: 99%

Role of delamination and crystallography on anisotropy of Charpy toughness in API-X80 steel

Joo

Suh

Bae

et al. 2012

Materials Science and Engineering: A

114

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The orientation dependence of Charpy toughness has been investigated in API-X80 linepipe steel. The occurrence of delamination and preferential alignment of {100} cleavage planes are found to contribute to the observed anisotropy in Charpy properties. Delamination is also related to the presence of banding in the hot-rolled alloy, and the additional plasticity it entails during the process of fracture leads to an effective increase in toughness. As a consequence, the toughness is worst when the Charpy specimen is machined at 45• to the rolling direction because the extent of delamination at that orientation is minimal. The rolling and transformation textures also lead to a greater propensity of {100} ferrite planes parallel to the fracture surface for the 45 • orientation, leading to a further decrease in toughness. Some revealing results are also reported for unconventional Charpy test orientations in which the notch is prepared parallel to the plate.

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Section: Microstructurementioning

confidence: 99%

Role of delamination and crystallography on anisotropy of Charpy toughness in API-X80 steel

Joo

Suh

Bae

et al. 2012

Materials Science and Engineering: A

114

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“…[4][5][6][7][8] As for the chemical features, titanium is particularly interesting since its addition has been numerously reported to promote the formation of acicular ferrite microstructure. [4][5][6][9][10][11][12][13][14][15] In 1970's, Ito and Nakanishi 9) reported that titanium addition over 0.03 wt.% could improve weld metal toughness significantly accompanied with the development of a fine acicular ferrite microstructure. Subsequently, X-ray diffraction analysis was carried out on the electrolytically extracted inclusions of Ti-B containing weld metal and showed that a large proportion of inclusions comprised with TiO, which in turn was believed to be a phase responsible for acicular ferrite nucleation.…”

Section: Introductionmentioning

confidence: 99%

Effect of Ti Addition on Weld Microstructure and Inclusion Characteristics of Bainitic GMA Welds

2013

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The effects of titanium content on weld microstructure and inclusion characteristics have been studied using the two different bainitic welds fabricated to have similar oxygen content. Analytical transmission electron microscopy analysis with thin foil specimens was carried out to investigate inclusion characteristics focusing on the crystal structure and the chemical features of the constituent phases. Then, these results were related with the proportion of acicular ferrite measured under an optical microscope. For a weld containing 0.002 wt.% Ti, a Ti-rich oxide layer containing manganese is present on the surface of amorphous inclusions and appears to be responsible for acicular ferrite appreciably formed in the bainitic structure, ~50%. When the titanium content increases to 0.07 wt.% Ti2O3 inclusions were formed accompanying with manganese-depleted regions and eventually results in a significant increase in acicular ferrite content over 90%. Therefore, the manganese depletion developed along with the formation of Ti2O3 inclusions is concluded to be a possible mechanism for acicular ferrite nucleation in the high titanium welds.

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“…[7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26] Based on these research, it is possible to design welding consumables that maximize the formation of acicular ferrite in welds and thereby obtain better strength and toughness. However, the extension of this knowledge to a wide variety of welding processes, consumable compositions, and shielding gases still eludes welding metallurgist due to the complex interactions between inclu-sion formation, solidification, and solid-state transformations.…”

Section: Introductionmentioning

confidence: 99%

Inclusion Formation and Microstructure Evolution in Low Alloy Steel Welds.

Babu

David

2002

ISIJ International

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The paper presents an overview of research performed at Oak Ridge National Laboratory on inclusion-formation, weld-solidification, and solid-state transformations in low-alloy steel welds. The competition between oxide and nitride formation in Fe-C-Al-Mn self-shielded flux-cored arc steel welds was predicted using computational thermodynamics. Nonequilibrium austenite phase selection was monitored in a Fe-CAl-Mn weld using an in situ time-resolved X-ray diffraction technique. The competition between acicular ferrite and bainite formation from austenite was evaluated in Fe-C-Mn steel welds containing small amounts of titanium.KEY WORDS: steel welds; inclusion formation; weld solidification; nonequilibrium phase transformations; bainite; acicular ferrite.

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Ito S, Nakanishi H, Ikehara Y, Kato T, Kasai Y, Ito K, Akiyama S, Nakao A, Tatematsu M. Real‐time observation of micrometastasis formation in the living mouse liver using a GFP gene‐tagged rat tongue carcinoma cell line. International Journal of Cancer 2001; 93(2) 212–217.

Cited by 23 publications

References 0 publications

Role of delamination and crystallography on anisotropy of Charpy toughness in API-X80 steel

Role of delamination and crystallography on anisotropy of Charpy toughness in API-X80 steel

Effect of Ti Addition on Weld Microstructure and Inclusion Characteristics of Bainitic GMA Welds

Inclusion Formation and Microstructure Evolution in Low Alloy Steel Welds.

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