INFLUENCE OF A CRYOGENIC TREATMENT ON THE FRACTURE TOUGHNESS OF AN AISI 420 MARTENSITIC STAINLESS STEEL

被引：13

作者：

Prieto, German ^{[1
,2
]}

Tuckart, W. R. ^{[1
,2
]}

Perez Ipina, Juan Elias ^{[2
,3
]}

机构：

[1] Natl Univ Sur, Engn Dept, Tribol Grp, Bahia Blanca, Buenos Aires, Argentina

[2] Consejo Nacl Invest Cient & Tecn, Natl Sci & Tech Res Council, Buenos Aires, DF, Argentina

[3] Comahue Natl Univ, Fac Engn, Fracture Mech Grp, Neuquen, Argentina

来源：

MATERIALI IN TEHNOLOGIJE | 2017年 / 51卷 / 04期

关键词：

cryogenic treatment; carbide refinement; plane-strain fracture toughness; low-carbon martensitic stainless steel; HIGH-SPEED STEEL; WEAR-RESISTANCE; MECHANICAL-PROPERTIES; TOOL STEELS; CLEAVAGE FRACTURE; D2; STEEL; MICROSTRUCTURE; EN-353;

D O I：

10.17222/mit.2016.126

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

Cryogenic treatments have been employed over the past three decades for both tool and high-alloy steels to improve their wear resistance, mainly through the transformation of retained austenite and the precipitation of fine carbides. However, as the enhancement of one material property is often at the expense of another, it is interesting to evaluate the effect of this type of treatments on the fracture toughness. The objective of the present work was to determine the plane-strain fracture toughness of a cryogenically treated low-carbon AISI 420 martensitic stainless steel by means of standardized fracture tests, performed in accordance with the ASTM E399 and ASTM E1820 standards. In this study, it was experimentally demonstrated that cryogenically treated specimens showed a simultaneous increase in the Km and hardness of 30 % and 5 %, respectively, compared to conventionally treated specimens.

引用

页码：591 / 596

页数：6

共 37 条

[1]

[Anonymous], E39917 ASTM, DOI [10.1520/E0399, DOI 10.1520/E0399, 10.1520/E0399-17, DOI 10.1520/E0399-17]

[2]

[Anonymous], 2013, E182013E1 ASTM, DOI [10.1520/E1820-13E01, DOI 10.1520/E1820-13E01]

[3]

[Anonymous], 2009, A176992009 ASTM, DOI [10.1520/A0176-99R09, DOI 10.1520/A0176-99R09]

[4]

ASM, 1996, ASM HDB, V19

[5]

BARRON RF, 1982, CRYOGENICS, V22, P409, DOI 10.1016/0011-2275(82)90085-6

[6] Effect of cryogenic treatment on distribution of residual stress in case carburized En 353 steel [J].

Bensely, A. ;

Venkatesh, S. ;

Lal, D. Mohan ;

Nagarajan, G. ;

Rajadurai, A. ;

Junik, Krzysztof .

MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2008, 479 (1-2) :229-235

[7] Enhancing the wear resistance of case carburized steel (En 353) by cryogenic treatment [J].

Bensely, A ;

Prabhakaran, A ;

Lal, DM ;

Nagarajan, G .

CRYOGENICS, 2005, 45 (12) :747-754

[8] EFFECTS OF MICROSTRUCTURE ON CLEAVAGE FRACTURE IN PRESSURE-VESSEL STEEL [J].

BOWEN, P ;

DRUCE, SG ;

KNOTT, JF .

ACTA METALLURGICA, 1986, 34 (06) :1121-1131

[9] Effect of Deep-Cryogenic Treatment on High Speed Steel Properties [J].

Cajner, Franjo ;

Leskovsek, Vojteh ;

Landek, Darko ;

Cajner, Hrvoje .

MATERIALS AND MANUFACTURING PROCESSES, 2009, 24 (7-8) :743-746

[10]

Curry D. A., 1979, Metal Science, V13, P341

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