Small crack effect on threshold stress intensity KTH for high strength steel with internal hydrogen

Yukitaka Murakami; Hisao Matsunaga; Arezou Abyazi; Yoshihiro Fukushima

Small crack effect on threshold stress intensity K_TH for high strength steel with internal hydrogen

Yukitaka Murakami, Hisao Matsunaga, Arezou Abyazi, Yoshihiro Fukushima

Strength of materials

Research output: Contribution to conference › Paper › peer-review

Abstract

The size effect of the threshold stress intensity K_TH for hydrogen-precharged specimens of SAE52100 were investigated. Four types of tensile specimens were used: (i) smooth specimens and (ii) specimens having various shapes of artificial defects with sizes of about 35 ∼ 500 um. In the smooth specimens, fracture origins were nonmetallic inclusions with the size of 10 ∼ 30 um (e.g. Al₂O₃·(CaO)_x, TiN and TiC). The fracture toughness determined for the small defects at fracture origin, i.e. the K_TH calculated from the defect size √area and the fracture tensile stress σ_f, showed a defect size dependence, where, area denotes the area of the domain defined by projecting the defect on a plane normal to the cylindrical axis of the specimen. The values of K_TH for both the nonmetallic inclusions and artificial defects were much smaller than those for large cracks measured by the standard WOL and CT specimens.

Original language	English
Pages	1309-1318
Number of pages	10
Publication status	Published - 2013
Event	13th International Conference on Fracture 2013, ICF 2013 - Beijing, China Duration: Jun 16 2013 → Jun 21 2013

Other

Other	13th International Conference on Fracture 2013, ICF 2013
Country/Territory	China
City	Beijing
Period	6/16/13 → 6/21/13

All Science Journal Classification (ASJC) codes

Geotechnical Engineering and Engineering Geology

Cite this

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title = "Small crack effect on threshold stress intensity KTH for high strength steel with internal hydrogen",

abstract = "The size effect of the threshold stress intensity KTH for hydrogen-precharged specimens of SAE52100 were investigated. Four types of tensile specimens were used: (i) smooth specimens and (ii) specimens having various shapes of artificial defects with sizes of about 35 ∼ 500 um. In the smooth specimens, fracture origins were nonmetallic inclusions with the size of 10 ∼ 30 um (e.g. Al2O3·(CaO)x, TiN and TiC). The fracture toughness determined for the small defects at fracture origin, i.e. the KTH calculated from the defect size √area and the fracture tensile stress σf, showed a defect size dependence, where, area denotes the area of the domain defined by projecting the defect on a plane normal to the cylindrical axis of the specimen. The values of KTH for both the nonmetallic inclusions and artificial defects were much smaller than those for large cracks measured by the standard WOL and CT specimens.",

author = "Yukitaka Murakami and Hisao Matsunaga and Arezou Abyazi and Yoshihiro Fukushima",

year = "2013",

language = "English",

pages = "1309--1318",

note = "13th International Conference on Fracture 2013, ICF 2013 ; Conference date: 16-06-2013 Through 21-06-2013",

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TY - CONF

T1 - Small crack effect on threshold stress intensity KTH for high strength steel with internal hydrogen

AU - Murakami, Yukitaka

AU - Matsunaga, Hisao

AU - Abyazi, Arezou

AU - Fukushima, Yoshihiro

PY - 2013

Y1 - 2013

N2 - The size effect of the threshold stress intensity KTH for hydrogen-precharged specimens of SAE52100 were investigated. Four types of tensile specimens were used: (i) smooth specimens and (ii) specimens having various shapes of artificial defects with sizes of about 35 ∼ 500 um. In the smooth specimens, fracture origins were nonmetallic inclusions with the size of 10 ∼ 30 um (e.g. Al2O3·(CaO)x, TiN and TiC). The fracture toughness determined for the small defects at fracture origin, i.e. the KTH calculated from the defect size √area and the fracture tensile stress σf, showed a defect size dependence, where, area denotes the area of the domain defined by projecting the defect on a plane normal to the cylindrical axis of the specimen. The values of KTH for both the nonmetallic inclusions and artificial defects were much smaller than those for large cracks measured by the standard WOL and CT specimens.

AB - The size effect of the threshold stress intensity KTH for hydrogen-precharged specimens of SAE52100 were investigated. Four types of tensile specimens were used: (i) smooth specimens and (ii) specimens having various shapes of artificial defects with sizes of about 35 ∼ 500 um. In the smooth specimens, fracture origins were nonmetallic inclusions with the size of 10 ∼ 30 um (e.g. Al2O3·(CaO)x, TiN and TiC). The fracture toughness determined for the small defects at fracture origin, i.e. the KTH calculated from the defect size √area and the fracture tensile stress σf, showed a defect size dependence, where, area denotes the area of the domain defined by projecting the defect on a plane normal to the cylindrical axis of the specimen. The values of KTH for both the nonmetallic inclusions and artificial defects were much smaller than those for large cracks measured by the standard WOL and CT specimens.

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M3 - Paper

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T2 - 13th International Conference on Fracture 2013, ICF 2013

Y2 - 16 June 2013 through 21 June 2013

ER -

Small crack effect on threshold stress intensity K_TH for high strength steel with internal hydrogen

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