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yonglegong木虫 (著名写手)
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请帮忙查一下这篇文章是否被EI收录,谢谢! Hong XU. Wear properties of (Ti,V)C/Fe composite. Advanced Materials Research, Vol.721(2013) pp303-307 |
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yonglegong: 金币+5, ★★★★★最佳答案 2013-12-11 10:00:20
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yonglegong: 金币+5, ★★★★★最佳答案 2013-12-11 10:00:20
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Accession number: 20133516683433 Title: Wear properties of (Ti,V)C/Fe composite Authors: Xu, Hong1 ; Ding, Yi Chao1 ; Wang, Jing1 Author affiliation: 1 Chengdu Technological University, Chengdu 611730, China Source title: Advanced Materials Research Abbreviated source title: Adv. Mater. Res. Volume: 721 Monograph title: Recent Advancement on Material Science and Manufacturing Technologies Issue date: 2013 Publication year: 2013 Pages: 303-307 Language: English ISSN: 10226680 ISBN-13: 9783037857328 Document type: Conference article (CA) Conference name: 2nd International Conference on Materials Science and Manufacturing, ICMSM 2013 Conference date: March 29, 2013 - March 31, 2013 Conference location: Zhangjia Jie, China Conference code: 99020 Publisher: Trans Tech Publications Ltd, Kreuzstrasse 10, Zurich-Durnten, CH-8635, Switzerland Abstract: (Ti,V)C particles reinforced Fe-based surface composite coatings were fabricated by in-situ synthesis and powder metallurgy route. The microstructure and wear properties were investigated by scanning electron microscopy and dry sliding wear test. The results show that fine (Ti,V)C particulates distribute uniformly in pearlite matrix; when V/Ti atomic ratio is 0.4, the wear weight loss of the composites achieve minimum. © (2013) Trans Tech Publications, Switzerland. Number of references: 6 Main heading: Wear of materials Controlled terms: Composite coatings - Composite materials - Manufacture - Microstructure - Powder metallurgy - Scanning electron microscopy Uncontrolled terms: Atomic ratio - Dry sliding wear test - Fe-based - In-situ synthesis - Particles reinforced - Wear properties - Wear weight loss Classification code: 951 Materials Science - 933 Solid State Physics - 813.2 Coating Materials - 811 Cellulose, Paper and Wood Products - 741.1 Light/Optics - 537.1 Heat Treatment Processes - 536 Powder Metallurgy - 421 Strength of Building Materials; Mechanical Properties - 415 Metals, Plastics, Wood and Other Structural Materials DOI: 10.4028/www.scientific.net/AMR.721.303 Database: Compendex Compilation and indexing terms, © 2013 Elsevier Inc. |
2楼2013-12-11 09:04:06
hezhao311
至尊木虫 (著名写手)
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yonglegong: 金币+5, ★★★★★最佳答案 2013-12-11 10:00:35
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Accession number: 20133516683433 Title: Wear properties of (Ti,V)C/Fe composite Authors: Xu, Hong1 ; Ding, Yi Chao1 ; Wang, Jing1 Author affiliation: 1 Chengdu Technological University, Chengdu 611730, China Source title: Advanced Materials Research Abbreviated source title: Adv. Mater. Res. Volume: 721 Monograph title: Recent Advancement on Material Science and Manufacturing Technologies Issue date: 2013 Publication year: 2013 Pages: 303-307 Language: English ISSN: 10226680 ISBN-13: 9783037857328 Document type: Conference article (CA) Conference name: 2nd International Conference on Materials Science and Manufacturing, ICMSM 2013 Conference date: March 29, 2013 - March 31, 2013 Conference location: Zhangjia Jie, China Conference code: 99020 Publisher: Trans Tech Publications Ltd, Kreuzstrasse 10, Zurich-Durnten, CH-8635, Switzerland Abstract: (Ti,V)C particles reinforced Fe-based surface composite coatings were fabricated by in-situ synthesis and powder metallurgy route. The microstructure and wear properties were investigated by scanning electron microscopy and dry sliding wear test. The results show that fine (Ti,V)C particulates distribute uniformly in pearlite matrix; when V/Ti atomic ratio is 0.4, the wear weight loss of the composites achieve minimum. © (2013) Trans Tech Publications, Switzerland. Number of references: 6 Main heading: Wear of materials Controlled terms: Composite coatings - Composite materials - Manufacture - Microstructure - Powder metallurgy - Scanning electron microscopy Uncontrolled terms: Atomic ratio - Dry sliding wear test - Fe-based - In-situ synthesis - Particles reinforced - Wear properties - Wear weight loss Classification code: 951 Materials Science - 933 Solid State Physics - 813.2 Coating Materials - 811 Cellulose, Paper and Wood Products - 741.1 Light/Optics - 537.1 Heat Treatment Processes - 536 Powder Metallurgy - 421 Strength of Building Materials; Mechanical Properties - 415 Metals, Plastics, Wood and Other Structural Materials DOI: 10.4028/www.scientific.net/AMR.721.303 Database: Compendex Compilation and indexing terms, © 2013 Elsevier Inc. |
3楼2013-12-11 09:04:40