Temperature dependences of static mechanical properties of an MDK-3 laminated composite

被引：4

作者：

Borisenko V.A. ^{[1
]}

Bukhanovskii V.V. ^{[1
]}

Grechanyuk N.I. ^{[2
]}

Grechanyuk I.N. ^{[2
]}

Mamuzic I. ^{[3
]}

Osokin V.A. ^{[2
]}

Rudnitskii N.P. ^{[1
]}

机构：

[1] Pisarenko Institute of Problems of Strength, National Academy of Sciences of Ukraine, Kiev

[2] Gekont Science and Technology Company, Vinnitsa

[3] Zagreb University, Sisak

来源：

Strength of Materials | 2005年 / 37卷 / 4期

关键词：

Correlation; Hardness; Nanomaterials; Plasticity; Strength; Temperature; Thermodynamic activation analysis;

D O I：

10.1007/s11223-005-0052-8

中图分类号：

学科分类号：

摘要：

The structure, hardness, strength, and plasticity of a laminated composite nanomaterial of the copper-zirconium-yttrium-molybdenum system obtained by electron-beam evaporation and layered vapor condensation over a temperature range of 290-1070 K are studied. Correlation between the hardness and strength of the composite was established. © Springer Science + Business Media, Inc. 2005.

引用

页码：416 / 421

页数：5

共 13 条

[1]

Movchan B.A., Malashenko I.S., Vacuum-Deposited Heat-Resistant Coatings, (1983)

[2]

Grechanyuk N., Mamuzic I., Shpak P., Modern electron-beam technologies of melting and evaporation of materials in vacuum, used by Gekont Company, Ukraine, Metalurgija, 41, 2, pp. 125-128, (2002)

[3]

Grechanyuk N., Osokin V., Grechanyuk I., Et al., Structure and physical-mechanical properties of composite, condensing from a steam phase materials Cu-Zr-Y-Mo in a wide range of temperatures, Metalurgija, 41, 3, pp. 228-229, (2002)

[4]

Grechanyuk N.I., Osokin V.A., Afanas'ev I.B., Et al., Electron-beam technology of producing materials for electrical contacts, Electrical Contacts and Electrodes, pp. 51-66, (1998)

[5]

Klyuev V.V., Test Equipment, 2, (1982)

[6]

GOST 9651-84. Metals. Tensile Test Methods at Elevated Temperatures, (1986)

[7]

Aleksyuk M.M., Borisenko V.A., Krashchenko V.P., Mechanical Tests at High Temperatures, (1980)

[8]

Borisenko V.A., Oksametna O.B., DSTU 2434-94. Method of Determining High-Temperature Hardness By Pyramidal and Bicylindrical Indentation, (1995)

[9]

Andrievskii R.A., Glezer A.M., Dimensional effects in nanocrystal materials. II. Mechanical and physical properties, Fiz. Metal. Metalloved., 89, 1, pp. 91-112, (2000)

[10]

Borisenko V.A., Hardness and Strength of Refractory Materials at High Temperatures, (1984)

← 1 2 →