STUDY OF THE DELAMINATION BEHAVIOR OF A VERY LOW-CARBON STEEL.

被引：0

作者：

Bramfitt, B.L.

Marder, A.R.

机构：

来源：

Metallurgical Transactions A (Physical Metallurgy and Materials Science) | 1977年 / 8 A卷 / 08期

关键词：

IRON AND STEEL METALLOGRAPHY - ROLLING MILL PRACTICE;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Splitting, i. e. , delamination behavior, in Charpy specimens of low carbon steel was found to be caused by cracks propagating between pancake grains parallel to the rolling plane of the as-rolled plate. The results suggest that the mechanism is a decohesion of grain boundaries that is independent of the texture of the material. The number of splits increased with decreasing finishing temperature and impact-test temperature. The energy absorbed in impact testing was inversely proportional to the number of splits. In specimens annealed after rolling, splitting was evident until the material was almost completely recrystalized.

引用

页码：1263 / 1273

共 50 条

[21] Fatigue crack development in a low-carbon steel. Microstructure influence. Modelling
Angelova, Donka
Yordanova, Rozina
Yankova, Svetla
21ST EUROPEAN CONFERENCE ON FRACTURE, (ECF21), 2016, 2 : 2726 - 2733
[22] Comparison of the Results of Impact Bending and Uniaxial Tensile Tests of Low-Carbon Steel.
Kopel'man, L.A.
Saidov, G.I.
Avtomaticheskaya Svarka, 1975, (03): : 29 - 33
[23] TEXTURE INDUCED CLEAVAGE DELAMINATION OF WARM-ROLLED LOW-CARBON STEEL
BOURELL, DL
SHERBY, OD
METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 1983, 14 (12): : 2563 - 2566
[24] MAGNETOMETRIC METHOD OF ANALYZING TEXTURE AND INSPECTING THE STAMPING CAPACITY OF LOW-CARBON STEEL.
Adamesku, R.A.
Korzunin, G.S.
Uvarova, M.P.
Yushkov, V.I.
The Soviet journal of nondestructive testing, 1984, 20 (05): : 328 - 331
[25] SUBMERGED ARC WELDING A LOW-CARBON, COPPER-STRENGTHENED ALLOY STEEL.
Jesseman, R.J.
Schmid, G.C.
Welding Journal (Miami, Fla), 1983, 62 (11): : 321 - 330
[26] Influence of arsenic on the corrosion resistance of low-carbon low-alloy steel. Part 1
Kharlashin P.S.
Bondar’ V.I.
Steel in Translation, 2014, 44 (4) : 249 - 252
[27] Influence of arsenic on the corrosion resistance of low-carbon low-alloy steel. Part 2
Kharlashin P.S.
Bondar’ V.I.
Steel in Translation, 2014, 44 (6) : 413 - 417
[28] Effect of the Type of Microstructure on the Fatigue Strength and Fracture of Low-Carbon Low-Alloy Steel.
Bronfin, B.M.
Shveikin, V.P.
Shifman, A.Z.
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya, 1986, (10): : 73 - 77
[29] Modifications by Tensile Deformation of the Texture of Thin Sheet of Very Low Carbon Steel.
Delayen, P.
Parniere, P.
Memoires Scientifiques de la Revue de Metallurgie, 1974, 51 (01): : 67 - 71
[30] Low-carbon steel
Pulsifer, HB
TRANSACTIONS OF THE AMERICAN INSTITUTE OF MINING AND METALLURGICAL ENGINEERS, 1931, 95 : 347 - 377

← 1 2 3 4 5 →