材料研究学报  2007, Vol. 21 Issue (4): 439-443

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聚碳酸酯的动态应力应变响应和屈服行为

胡文军　 张方举　 田常津　 刘占芳

胡文军; 张方举; 田常津; 刘占芳 . 聚碳酸酯的动态应力应变响应和屈服行为[J]. 材料研究学报, 2007, 21(4): 439-443.

摘要 参考文献 相关文章 Metrics 全文: PDF(861 KB)   摘要: 测量聚碳酸酯在3.8×10-5 s-1到大约8000 s-1应变率范围内的单向压缩力学行为,研究了应变率对聚碳酸酯屈服应力的影响.结果表明:在应变率低于1 s-1时,聚碳酸酯先出现应变软化,然后出现稳定的塑性流动和应变硬化;在高应变率时,应力应变曲线的软化区域消失,屈服应力和屈服应变随着应变率的增大而增大.分析了高应变率时热软化与应变硬化的竞争机制,提出了描述宽应变率范围内聚碳酸酯的屈服应力与应变率关系的幂律型本构模型,能在较宽的应变率范围描述聚碳酸酯屈服应力与应变率的关系. Key words： 收稿日期: 1900-01-01      服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 胡文军 张方举 田常津 刘占芳 44.8K 链接本文: https://www.cjmr.org/CN/Y2007/V21/I4/439 1 M.Takahashi,S.Tobishima,K.Takei,Y.Sakurai,Charac- terization of LiFePO4 as the cathode material for recharge- able lithium batteries,J.Power Sources,97-98,508- 511(2001) 2 A.K.Padhi,K.S.K.Nanjundoswamy,C.Masquelier, S.Okada,J.B.Goodenough,Effect of structure on Fe~(3+)/Fe~(2+)redox couple in iron phosphates,J.Elec- trochem.Soc.,144,1609-1913(1997) 3 J.Barker,M.Y.Saidi,J.L.Swoyer,Lithium iron(Ⅱ) pohospho-olivine prepared by a novel carbontherma re- duction method,Electrochem.Solid State Lett.,6,A53- A55(2003) 4 A.A.salah,A.Mauger,K.Zaghib,J.B.Goodenough, N.Ravet,M.Gauthier,F.Gendron,C.M.Julien,Reduction Fe~(3+)of impurities in LiFePO_4 from pyrolysis of organic precursor used for carbon deposition,J.Electrochem. Soc.,153,A1692-A1701(2006) 5 P.P.Prosini,M.Carewska,S.Scaccia,P.Wisniewski, S.Passerini,M.Pasquali,A new synthetic route for preparing LiFePO_4 with enhanced electrochemical per- formance,J.Electrochem.Soc.,149,A886-A890(2002) 6 S.Yang,Y.Peter,M.Zavalij,S.Whittingham,Hydrother- mal synthesis of lithium iron phosphate electrodes,Elec- trochemistry communication,3,505-508(2001) 7 J.Chen,M.S.Whittingham,Hydrothermal synthesis of lithium iron phosphate,Electrochemistry communication, 8,855-858(2006) 8 A.D.Spong,G.Vitins,J.R.Owen,A solution-precursor synthesis of carbon-coated LiFePO_4 for Li-ion cells,J. Electrochem.Soc.,152,A2376-A2382(2005) 9 J.S.Yang,J.J.Xu,Nonaqueous Sol-Gel synthesis of high performance LiFePO_4,Electrochem.Solid State Lett.,7, A515-A518(2004) 10 G.X.Wang,S.L.Bewlay,K.Konstantinov,H.K.Liu, S.X.Dou,Physical and electrochemical properties of doped lithium iron phosphate electrodes,Electrochimica Acta,50,443-447(2004) 11 A.Yamada,M.Hosoya,S.C.Chung,Olivine type cathodes achievement and problems,J.Power Sources,119-121, 232-238(2003) 12 M.Higuchi,Y.Azuma,Synthesis of LiFePO_4 cathode ma- terial by microwave processing,J.Power Sources,119- 121,258-261(2003) 13 S.Franger,F.L.Cras,C.Bourbon,H.Rouault,Comparison between different LiFePO_4 synthesis routes and their influ- ence on its physico-chemical properties,J.Power Sources, 119-121,252-257(2003) 14 CAO Chu'nan,The principle of corrosion electrochem- istry,Beijing,Chemical Industry Press,1985,p.147 (曹楚南，腐蚀电化学原理(北京，化学工业出版社，1985年) p．147) 15 F.Crose,A.D.Epifanio,J.Hassoun,A.Deptula,T.Olczac, B.Scrosati,A novel concept for the synthesis of an im- proved LiFePO_4 lithium battery cathode,Electrochem. Solid-State Lett.,5,A47-A50(2002) 16 D.P.Chen,A.Maljuk,C.T.Lin,Floating Zone growth of lithium iron(Ⅱ)phosphate single crystals,J.Crystal Growth,284,86-90(2005) No related articles found! Viewed Full text Abstract Cited   Shared      Discussed