CHA杂种小麦籽粒品质性状的杂种优势

  • 许海霞 ,
  • 吕德彬
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  • 河南农业大学小麦育种研究室!郑州450002

网络出版日期: 2000-03-15

摘要

利用化学杂交剂(CHA)GENESIS配制了11个小麦杂交种,研究了CHA杂交种籽粒品种性状的杂种优势。结果表明:CHA杂交种在蛋白质含量、湿(干)面筋含量方面表现出较强的正向杂种优势和超亲优势;而沉淀值和降落值的平均杂种优势和超亲杂种优势较小,但通过合理选配亲本,利用杂种优势改善小麦的烘烤品种和加工品质仍有可能。

本文引用格式

许海霞 , 吕德彬 . CHA杂种小麦籽粒品质性状的杂种优势[J]. 河南农业科学, 2000 , 29(3) : 7 -9 . DOI: 10.3969/j.issn.1004-3268.2000.03.002

参考文献

1 WEI Xicheng, XIE Qun, FU Renyu, LI Lin, The dynamie tensile behaviour of HSLA TRIP steel and its modelling, Chinese Journal of Materials Research, 20(5), 556(2006)
(韦习成, 谢 群, 符仁钰, 李 麟, HSLA TRIP钢的动态拉伸行为及其模拟, 材料研究学报, 20(5), 556(2006))
2 WU Zhiqiang, TANG Zhengyou, LI Huaying, ZHANG Haidong, Effect of strain rate on microstructure evolution and mechanical behavior of a low C high Mn TRIP/TWIP steels, Acta Metallurgica Sinica, 48(5), 593(2012)
(吴志强, 唐正友, 李华英, 张海东, 应变速率对低C高Mn TRIP/TWIP钢组织演变和力学行为的影响, 金属学报, 48(5), 593(2012))
3 Ji Hyun Sung, Ji Hoon Kim, R.H. Wagoner, A plastic constitutive equation incorporating strain, strain-rate, and temperature, International Journal of Plasticity, 26(12), 1746(2010)
4 W. Xu, D. Westerbaan, S.S. Nayak, D.L. Chen F. Goodwin, E. Biro Y. Zhou, Microstructure and fatigue performance of single and multiple linear fiber laser welded DP980 dual-phase steel, Materials Science and Engineering A, 553A, 51(2012)
5 Sawitree Sodjit, Vitoon Uthaisangsuk, Microstructure based prediction of strain hardening behavior of dual phase steels, Materials & Design, 41(5), 370(2012)
6 G. B. Broggiato, F. Campana, L. Cortese, E. Mancini, Comparison between two experimental procedures for cyclic plastic characterization of high strength steel sheets, Journal of Engineering Materials and Technology, 134(4), 041008(2012)
7 Z. Li, T.S. Wang, X.J. Zhang, F.C. Zhang, Annealing softening behaviour of cold-rolled low-carbon steel with a dual-phase structure and the resulting tensile properties, Materials Science and Engineering A, 552A, 204(2012)
8 Roslinda Idris, Yunan Prawoto, Influence of ferrite fraction within martensite matrix on fatigue crack propagation: An experimental verification with dual phase steel, Materials Science and Engineering A, 552A, 547(2012)
9 Nader Abedrabbo, Robert Mayer, Alan Thompson, Christopher Salisbury, Michael Worswick, Isadora van Riemsdijk, Crash response of advanced high-strength steel tubes: Experiment and model, International Journal of Impact Engineering, 36(8), 1044(2009)
10 JIN Guangcan, ZHAO Zhengzhi, XU Gang, LIU Guangming, Microstructure and fracture mechanism of 1000MPa hot dip galvanized dual phase steel, Journal of University of Science and Technology Beijing, 31(10), 1245(2009)
(金光灿, 赵征志, 徐 刚, 刘光明, 1000MPa热镀锌双相钢组织和断裂机理, 北京科技大学学报, 31(10), 1245(2009))
11 DAI Qifeng, SONG Renbo, FAN Wuyan, GUO Zhifei, GUAN Xiaoxia, Behaviour and mechanism of strain hardening for dual phase steel DP1180 under high strain rate deformation, Acta Metallurgica Sinica, 48(10), 1160(2012)
(代启锋, 宋仁伯, 范午言, 郭志飞, 关小霞, DP1180双相钢在高应变速率变形条件下应变硬化行为及机制, 金属学报, 48(10), 1160(2012))
12 DAI Qifeng, SONG Renbo, GUAN Xiaoxia, GUO Zhifei, Effects of ferrite grain size on dynamic deformation behavior of ferrite-martensite dual phase steel DP980, Journal of Mechanical Engineering, 48(6), 44(2012)
(代启锋, 宋仁伯, 关小霞, 郭志飞, 铁素体晶粒尺寸对铁素体-马氏体双相钢DP980动态变形行为影响, 机械工程学报, 48(6), 44(2012))
13 ZHAO Zhengzhi, NIU Feng, TANG Di, ZHAO Aimin, JIN Guangcan, Microstructure and properties of ultra-high strength cold-rolled dual phase steel, Journal of University of Science and Technology Beijing, 32(10), 1287(2010)
(赵征志, 牛 枫, 唐 荻, 赵爱民, 金光灿, 超高强度冷轧双相钢组织与性能, 北京科技大学学报, 32(10), 1287(2010))
14 MA Mingtu, WU Baorong, Dual Phase Steel: Physical and Mechanical Metallurgy, 2nd Edition (Beijing, Metallurgical Industry Press, 2009) p.146
(马鸣图, 吴宝榕, 双相钢——物理和力学冶金, 第二版 (北京, 冶金工业出版社, 2009) p.146)
15 S. Oliver, T.B. Jones, G. Fourlaris, Dual phase versus TRIP strip steels: Microstructural changes as a consequence of quasi-static and dynamic tensile testing, Materials Characterization, 58(4), 390(2007)
16 Y. Chen, A.H. Clausen, O.S. Hopperstad, M. Langseth, Application of a split-Hopkinson tension bar in a mutual assessment of experimental tests and numerical predictions, International Journal of Impact Engineering, 38(10), 824(2011)
17 Jinbo Qu, Wael Dabboussi, Farid Hassani, James Nemes, Steve Yue, Effect of microstructure on the dynamic deformation behavior of dual phase steel, Materials Science and Engineering A, 479A(1-2), 93(2008)
18 G.R. Johnson, W.H. Cook, A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures, in: Proceedings of the Seventh International Symposium on Ballistic, (Hague, Netherlands, 1983) p.541
19 Haidong Yu, Yongjin Guo, Xinmin Lai, Rate-dependent behavior and constitutive model of DP600 steel at strain rate from 10-4 to 103s-1, Materials & Design, 30(7), 2501(2009)
20 S. Winkler, A. Thompson, C. Salisbury, M. Worswick, I. Van Riemsdijk, R. Mayer, Strain rate and temperature effects on the formability and damage of advanced high-strength steels, Metallurgical and Materials Transactions A, 39(6), 1350(2008)
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