Plastic deformation inhomogeneity of metal composites
The inhomogeneity of plastic deformation in a corrosion-resistant three-layer bimetal or laminated metal composites obtained by rolling from low-carbon steel ASTM A414 grade A and stainless steel AISI 304 has been studied. The uniaxial tensile tests were carried out on flat samples with a thickness...
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| creator | Buyakova, Svetlana P. Kayurov, Konstantin N. Barannikova, Svetlana A. |
| description | The inhomogeneity of plastic deformation in a corrosion-resistant three-layer bimetal or laminated metal composites obtained by rolling from low-carbon steel ASTM A414 grade A and stainless steel AISI 304 has been studied. The uniaxial tensile tests were carried out on flat samples with a thickness of 8 mm at a constant rate at room temperature after rolling and after six hours of heat treatment of specimens up to 900°C. The phase composition of the bimetal components was determined via X-ray diffraction. The effect of heat treatment conditions on the microhardness and plastic flow inhomogeneity near the bimetal junction zone has been established. The degree of plastic deformation inhomogeneity of different layers was quantitatively assessed using the coefficient of variation of local strains has been investigated via digital speckle correlation method. After rolling, the difference between the deformation inhomogeneities of the border zones near stainless and carbon steels was almost two times. The deformation inhomogeneity in the transition zone was shown to differ from those of the base layers, which affected the properties of bimetal products. The effect of structural heterogeneity near the interface of layers on the local strain distributions in the bimetal was discussed in present study. |
| doi_str_mv | 10.1063/5.0225634 |
| format | Conference Proceeding |
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The uniaxial tensile tests were carried out on flat samples with a thickness of 8 mm at a constant rate at room temperature after rolling and after six hours of heat treatment of specimens up to 900°C. The phase composition of the bimetal components was determined via X-ray diffraction. The effect of heat treatment conditions on the microhardness and plastic flow inhomogeneity near the bimetal junction zone has been established. The degree of plastic deformation inhomogeneity of different layers was quantitatively assessed using the coefficient of variation of local strains has been investigated via digital speckle correlation method. After rolling, the difference between the deformation inhomogeneities of the border zones near stainless and carbon steels was almost two times. The deformation inhomogeneity in the transition zone was shown to differ from those of the base layers, which affected the properties of bimetal products. The effect of structural heterogeneity near the interface of layers on the local strain distributions in the bimetal was discussed in present study.</description><identifier>ISSN: 0094-243X</identifier><identifier>EISSN: 1551-7616</identifier><identifier>DOI: 10.1063/5.0225634</identifier><identifier>CODEN: APCPCS</identifier><language>eng</language><publisher>Melville: American Institute of Physics</publisher><subject>Austenitic stainless steels ; Bimetals ; Coefficient of variation ; Composite materials ; Corrosion resistance ; Corrosion resistant steels ; Deformation effects ; Heat treating ; Heat treatment ; Heterogeneity ; Inhomogeneity ; Laminates ; Low carbon steels ; Microhardness ; Phase composition ; Plastic deformation ; Plastic flow ; Room temperature ; Tensile tests</subject><ispartof>AIP conference proceedings, 2024, Vol.3183 (1)</ispartof><rights>Author(s)</rights><rights>2024 Author(s). 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The uniaxial tensile tests were carried out on flat samples with a thickness of 8 mm at a constant rate at room temperature after rolling and after six hours of heat treatment of specimens up to 900°C. The phase composition of the bimetal components was determined via X-ray diffraction. The effect of heat treatment conditions on the microhardness and plastic flow inhomogeneity near the bimetal junction zone has been established. The degree of plastic deformation inhomogeneity of different layers was quantitatively assessed using the coefficient of variation of local strains has been investigated via digital speckle correlation method. After rolling, the difference between the deformation inhomogeneities of the border zones near stainless and carbon steels was almost two times. The deformation inhomogeneity in the transition zone was shown to differ from those of the base layers, which affected the properties of bimetal products. The effect of structural heterogeneity near the interface of layers on the local strain distributions in the bimetal was discussed in present study.</description><subject>Austenitic stainless steels</subject><subject>Bimetals</subject><subject>Coefficient of variation</subject><subject>Composite materials</subject><subject>Corrosion resistance</subject><subject>Corrosion resistant steels</subject><subject>Deformation effects</subject><subject>Heat treating</subject><subject>Heat treatment</subject><subject>Heterogeneity</subject><subject>Inhomogeneity</subject><subject>Laminates</subject><subject>Low carbon steels</subject><subject>Microhardness</subject><subject>Phase composition</subject><subject>Plastic deformation</subject><subject>Plastic flow</subject><subject>Room temperature</subject><subject>Tensile tests</subject><issn>0094-243X</issn><issn>1551-7616</issn><fulltext>true</fulltext><rsrctype>conference_proceeding</rsrctype><creationdate>2024</creationdate><recordtype>conference_proceeding</recordtype><recordid>eNotkD1PwzAYhC0EEqUw8A8isSGl-PVnMqKKL6kSDB3YLNd-Da6aOMTu0H9PoJ1uOd1zd4TcAl0AVfxBLihjUnFxRmYgJdRagTonM0pbUTPBPy_JVc5bSlmrdTMj8mNnc4mu8hjS2NkSU1_F_jt16Qt7jOVQpVB1WOyucqkbUo4F8zW5CHaX8eakc7J-flovX-vV-8vb8nFVD1ODekJ4yrHdCCcEwwaU095brjfQoNPCSRu81rb1wcvgkYdAodl40MIDw8Dn5O4YO4zpZ4-5mG3aj_1ENByY1KpRLZ9c90dXdrH8DzDDGDs7HgxQ8_eKkeb0Cv8F7GhUmg</recordid><startdate>20241107</startdate><enddate>20241107</enddate><creator>Buyakova, Svetlana P.</creator><creator>Kayurov, Konstantin N.</creator><creator>Barannikova, Svetlana A.</creator><general>American Institute of Physics</general><scope>8FD</scope><scope>H8D</scope><scope>L7M</scope></search><sort><creationdate>20241107</creationdate><title>Plastic deformation inhomogeneity of metal composites</title><author>Buyakova, Svetlana P. ; Kayurov, Konstantin N. ; Barannikova, Svetlana A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p634-297d03e9b4c442e816c7dda37b18ec74c5afd77a9dfd5fde3ff018bd174d12ef3</frbrgroupid><rsrctype>conference_proceedings</rsrctype><prefilter>conference_proceedings</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Austenitic stainless steels</topic><topic>Bimetals</topic><topic>Coefficient of variation</topic><topic>Composite materials</topic><topic>Corrosion resistance</topic><topic>Corrosion resistant steels</topic><topic>Deformation effects</topic><topic>Heat treating</topic><topic>Heat treatment</topic><topic>Heterogeneity</topic><topic>Inhomogeneity</topic><topic>Laminates</topic><topic>Low carbon steels</topic><topic>Microhardness</topic><topic>Phase composition</topic><topic>Plastic deformation</topic><topic>Plastic flow</topic><topic>Room temperature</topic><topic>Tensile tests</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Buyakova, Svetlana P.</creatorcontrib><creatorcontrib>Kayurov, Konstantin N.</creatorcontrib><creatorcontrib>Barannikova, Svetlana A.</creatorcontrib><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Buyakova, Svetlana P.</au><au>Kayurov, Konstantin N.</au><au>Barannikova, Svetlana A.</au><au>Trusov, Peter V.</au><au>Matveenko, Valeriy P.</au><au>Faerman, Vladimir A.</au><au>Kotelnikova, Natalia V.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Plastic deformation inhomogeneity of metal composites</atitle><btitle>AIP conference proceedings</btitle><date>2024-11-07</date><risdate>2024</risdate><volume>3183</volume><issue>1</issue><issn>0094-243X</issn><eissn>1551-7616</eissn><coden>APCPCS</coden><abstract>The inhomogeneity of plastic deformation in a corrosion-resistant three-layer bimetal or laminated metal composites obtained by rolling from low-carbon steel ASTM A414 grade A and stainless steel AISI 304 has been studied. The uniaxial tensile tests were carried out on flat samples with a thickness of 8 mm at a constant rate at room temperature after rolling and after six hours of heat treatment of specimens up to 900°C. The phase composition of the bimetal components was determined via X-ray diffraction. The effect of heat treatment conditions on the microhardness and plastic flow inhomogeneity near the bimetal junction zone has been established. The degree of plastic deformation inhomogeneity of different layers was quantitatively assessed using the coefficient of variation of local strains has been investigated via digital speckle correlation method. After rolling, the difference between the deformation inhomogeneities of the border zones near stainless and carbon steels was almost two times. The deformation inhomogeneity in the transition zone was shown to differ from those of the base layers, which affected the properties of bimetal products. The effect of structural heterogeneity near the interface of layers on the local strain distributions in the bimetal was discussed in present study.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/5.0225634</doi><tpages>5</tpages></addata></record> |
| fulltext | fulltext |
| identifier | ISSN: 0094-243X |
| ispartof | AIP conference proceedings, 2024, Vol.3183 (1) |
| issn | 0094-243X 1551-7616 |
| language | eng |
| recordid | cdi_proquest_journals_3125768693 |
| source | AIP Journals Complete |
| subjects | Austenitic stainless steels Bimetals Coefficient of variation Composite materials Corrosion resistance Corrosion resistant steels Deformation effects Heat treating Heat treatment Heterogeneity Inhomogeneity Laminates Low carbon steels Microhardness Phase composition Plastic deformation Plastic flow Room temperature Tensile tests |
| title | Plastic deformation inhomogeneity of metal composites |
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