Investigation on the hot ductility of Fe-36Ni invar alloy with cerium addition

The hot ductility of Fe-36Ni invar alloy with different additions of the element cerium was investigated using a Gleeble-3800 thermal-mechanical simulator over the temperature range 850-1,050 degree Celsius, and the improvement mechanism of the hot ductility was analyzed using a combination of SEM,...

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Veröffentlicht in:	Baosteel Technical Research 2014-12, Vol.8 (4), p.20-20
Hauptverfasser:	Hongguang, Zheng, Wei, Zhuang, Xufeng, Liu
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Sprache:	eng
Schlagworte:	Alloying additive Alloying elements Cerium base alloys Ductility Ferrous alloys Grain boundaries Grain boundary sliding Grain structure Low expansion alloys
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creator	Hongguang, Zheng Wei, Zhuang Xufeng, Liu
description	The hot ductility of Fe-36Ni invar alloy with different additions of the element cerium was investigated using a Gleeble-3800 thermal-mechanical simulator over the temperature range 850-1,050 degree Celsius, and the improvement mechanism of the hot ductility was analyzed using a combination of SEM, EDS, and OM. The results indicated that Fe-36Ni invar alloy exhibited poor hot ductility below 1,050 degrees Celsius, which was mainly attributed to weak grain boundaries and the action of grain boundary sliding. However, the alloys with cerium contents of 0.016% and 0.024% both demonstrated substantial improvement in the hot ductility over the entire testing temperature range. The observed improvement of the hot ductility of the alloy with 0.016% cerium at 950 degrees Celsius and the alloy with 0.024% cerium at 900 degrees Celsius was associated mainly with the grain boundary strengthening and the restriction of the grain boundary sliding because the addition of cerium reduced the segregation of sulfur at grain boundaries and refined the grain structure.
doi_str_mv	10.3969/j.issn.1674-3458.2014.04.004
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The results indicated that Fe-36Ni invar alloy exhibited poor hot ductility below 1,050 degrees Celsius, which was mainly attributed to weak grain boundaries and the action of grain boundary sliding. However, the alloys with cerium contents of 0.016% and 0.024% both demonstrated substantial improvement in the hot ductility over the entire testing temperature range. The observed improvement of the hot ductility of the alloy with 0.016% cerium at 950 degrees Celsius and the alloy with 0.024% cerium at 900 degrees Celsius was associated mainly with the grain boundary strengthening and the restriction of the grain boundary sliding because the addition of cerium reduced the segregation of sulfur at grain boundaries and refined the grain structure.</description><identifier>ISSN: 1674-3458</identifier><identifier>DOI: 10.3969/j.issn.1674-3458.2014.04.004</identifier><language>eng</language><publisher>Research Institute, Baoshan Iron & Steel Co.,Ltd., Shanghai 201900 ,China%Baosteel Special Steel Co., Ltd., Baosteel Group Corporation, Shanghai 200940, China</publisher><subject>Alloying additive ; Alloying elements ; Cerium base alloys ; Ductility ; Ferrous alloys ; Grain boundaries ; Grain boundary sliding ; Grain structure ; Low expansion alloys</subject><ispartof>Baosteel Technical Research, 2014-12, Vol.8 (4), p.20-20</ispartof><rights>Copyright © Wanfang Data Co. 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The results indicated that Fe-36Ni invar alloy exhibited poor hot ductility below 1,050 degrees Celsius, which was mainly attributed to weak grain boundaries and the action of grain boundary sliding. However, the alloys with cerium contents of 0.016% and 0.024% both demonstrated substantial improvement in the hot ductility over the entire testing temperature range. The observed improvement of the hot ductility of the alloy with 0.016% cerium at 950 degrees Celsius and the alloy with 0.024% cerium at 900 degrees Celsius was associated mainly with the grain boundary strengthening and the restriction of the grain boundary sliding because the addition of cerium reduced the segregation of sulfur at grain boundaries and refined the grain structure.</description><subject>Alloying additive</subject><subject>Alloying elements</subject><subject>Cerium base alloys</subject><subject>Ductility</subject><subject>Ferrous alloys</subject><subject>Grain boundaries</subject><subject>Grain boundary sliding</subject><subject>Grain structure</subject><subject>Low expansion alloys</subject><issn>1674-3458</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><recordid>eNo9kEtrwzAQhHVooSHNf9Ch0F7sStbD0rGEpg2E9JK7kfVIZBwpteyG_PsqpBQGFnaGWb4F4AmjkkguX7vSpxRKzGtaEMpEWSFMS5SF6B2Y_e8fwCKlDiFUSU4xpzOwXYcfm0a_V6OPAWaNBwsPcYRm0qPv_XiB0cGVLQjfeujDjxqg6vt4gWc_HqC2g5-OUBnjrwWP4N6pPtnF35yD3ep9t_wsNl8f6-XbpjhxRgurK6G1w8i22CiFBEHcCKEcdkxwYnDL6lrJFleCW2OMIlpmR1OHrKKoInPwfKs9q-BU2DddnIaQDzbtvkuX7oqPaIbPyZdb8jTE7ymTNkeftO17FWycUpNfU0vGpGDkF3j2Ye4</recordid><startdate>20141201</startdate><enddate>20141201</enddate><creator>Hongguang, Zheng</creator><creator>Wei, Zhuang</creator><creator>Xufeng, Liu</creator><general>Research Institute, Baoshan Iron & Steel Co.,Ltd., Shanghai 201900 ,China%Baosteel Special Steel Co., Ltd., Baosteel Group Corporation, Shanghai 200940, China</general><scope>8BQ</scope><scope>8FD</scope><scope>JG9</scope><scope>2B.</scope><scope>4A8</scope><scope>92I</scope><scope>93N</scope><scope>PSX</scope><scope>TCJ</scope></search><sort><creationdate>20141201</creationdate><title>Investigation on the hot ductility of Fe-36Ni invar alloy with cerium addition</title><author>Hongguang, Zheng ; Wei, Zhuang ; Xufeng, Liu</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p654-ec28ccf10eb1daa08306d88af1f5863d1b577a9b1286eddda3c9f58c4f0ea4023</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2014</creationdate><topic>Alloying additive</topic><topic>Alloying elements</topic><topic>Cerium base alloys</topic><topic>Ductility</topic><topic>Ferrous alloys</topic><topic>Grain boundaries</topic><topic>Grain boundary sliding</topic><topic>Grain structure</topic><topic>Low expansion alloys</topic><toplevel>online_resources</toplevel><creatorcontrib>Hongguang, Zheng</creatorcontrib><creatorcontrib>Wei, Zhuang</creatorcontrib><creatorcontrib>Xufeng, Liu</creatorcontrib><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Materials Research Database</collection><collection>Wanfang Data Journals - Hong Kong</collection><collection>WANFANG Data Centre</collection><collection>Wanfang Data Journals</collection><collection>万方数据期刊 - 香港版</collection><collection>China Online Journals (COJ)</collection><collection>China Online Journals (COJ)</collection><jtitle>Baosteel Technical Research</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hongguang, Zheng</au><au>Wei, Zhuang</au><au>Xufeng, Liu</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Investigation on the hot ductility of Fe-36Ni invar alloy with cerium addition</atitle><jtitle>Baosteel Technical Research</jtitle><date>2014-12-01</date><risdate>2014</risdate><volume>8</volume><issue>4</issue><spage>20</spage><epage>20</epage><pages>20-20</pages><issn>1674-3458</issn><abstract>The hot ductility of Fe-36Ni invar alloy with different additions of the element cerium was investigated using a Gleeble-3800 thermal-mechanical simulator over the temperature range 850-1,050 degree Celsius, and the improvement mechanism of the hot ductility was analyzed using a combination of SEM, EDS, and OM. 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subjects	Alloying additive Alloying elements Cerium base alloys Ductility Ferrous alloys Grain boundaries Grain boundary sliding Grain structure Low expansion alloys
title	Investigation on the hot ductility of Fe-36Ni invar alloy with cerium addition
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