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9220064 JOURNALOFBUILDINGMATERIALS Vol.9,No.2Apr.,2006:2005-01-14;:2005-06-18:(50578162);(03JJY3089):(1979-),,,. :1007-9629(2006)02-0245-05Q235丁发兴, 余志武, 温海林(,410075):通过对高温后Q235钢材力学性能的试验研究,描述了高温后钢材的表面特征,探讨了钢材受热温度和恒温时间对高温后钢材力学性能的影响,并建立了高温后钢材屈服强度-受热温度、极限强度-受热温度、泊松比-应力比和拉伸应力-应变关系曲线拟合方程.试验表明:随着受热温度的升高,高温后钢材的屈服强度、极限强度整体上呈降低趋势,而弹性模量和泊松比则基本不变;恒温时间对力学性能的影响不太明显;所拟合的高温后钢材屈服强度—受热温度、极限强度—受热温度、泊松比—应力比和拉伸应力—应变关系曲线方程均与实测结果吻合较好.:高温;钢材;拉伸应力-应变全曲线;力学性能:TU511.3+7 :AExperimentalResearchonMechanicalPropertiesofQ235SteelafterHighTemperatureTreatmentDINGFa-xing, YUZhi-wu, WENHai-lin(SchoolofCivilArchitecturalEngineering,CentralSouthUniversity,Changsha410075,China)Abstract:InexperimentalinvestigationonmechanicalpropertiesofQ235steelafterhightempera-turetreatment,surfacecharacteristicandinfluencesoftheimportantparametersincludingheat-ingtemperatureandtemperatureexposuretimeonthemechanicalpropertiesofsteelafterhightemperaturetreatmentwerestudied.FormulasforPossion’sratio-stressratio,tensilestress-strain,yieldstrength-heatingtemperature,tensilestrength-heatingtemperatureofsteelafterhightemperaturetreatmentareproposed.Theresultshowthat:withtheheatingtemperaturerising,yieldstrengthandtensilestrengthtendtodecreaseasawhole,whileelasticmodulusofthesteelandPossion’sratioalmostremainunchanged;withincreasingtemperatureexposuretime,themechanicalpropertiesofthesteelafterhightemperaturetreatmentarehardlyinflu-enced;thecalculatedresultsbyabove-mentionedformulasagreewellwithtestones.Keywords:hightemperature;steel;tensilestress-strainrelationship;mechanicalproperty ,().[1~6],、,-;,[3~6],,-.,[7~9],,、,-、—.,Q235,[7~9],—、—、——.1 Ф165mm×3mmQ235,500mm×20mm×3mm.,1,1200℃.20(),200,400,500,700,1000,1100℃.200℃700℃1,2,3h,2h.(Q235),.(2).《》(GB/T228—2002),:,,,7d,.2 2.1 ,:200℃,;400~500℃,,,;700℃,;1000~1100℃,,,,1100℃().[7],[7].2.2 (1) 1fs(t)、fu(t)、Esνs().1,,、,.,.(2) 1.1,700℃,.2.3 2.3.1 (1):400℃,;400~700℃,;,,1000℃40%.Q235()Q235[9](),fs(t)fs=1-6.4×10-6t-201005 t≤1000℃(1)246 9 1 Table1 MechanicalpropertiesofsteelafterhightemperaturetreatmentCodet/°CTime/hEs×10-5/MPafs(t)/MPafu(t)/MPaνs20-22022.14334.0423.00.270200-120012.08343.0436.70.267200-220022.05346.1445.90.254200-320032.14333.7420.40.265400-240022.06358.3398.30.266500-250022.12316.4383.90.264700-170012.17323.0370.40.260700-270022.13296.4366.60.269700-370032.06308.1380.60.2671000-2100022.13138.1226.30.250fs.,0.2%. 600℃,[7]fs(t)fs=1 t≤400℃1+2.23×10-4(t-20)-5.88×10-7(t-20)2 t400℃(2) 800℃Q235,[8]fs(t)fs=1 t≤330℃1.1-3.0×10-4t t330℃(3) (1)~(3)2.2,780℃,(1).1 Fig.1 Temperature-timecurve2 Fig.2 Yieldstrengthofsteelafterhightemperaturetreatment2.3.2 (1),200~1000℃,2.05×105~2.17×105MPa,(2.14×105MPa).,.[9].2.3.3 (1):400℃,;400~700℃,;,,1000℃50%;200℃,.Q235()Q235247 2:Q235 [9](),fu(t)fu=1-5×10-5t-201004 t≤1000℃(4)fu.800℃Q235,[8]fu(t)fu=1 t≤347℃1.08-2.3×10-4t t347℃(5) (4)、(5)3.3,620℃,(4).2.3.4 (1),200~1000℃,0.250~0.269,0.265,(0.270).,..,,0.8fs,fsνs=0.5,0.8fs~fs.,,νs=0.45,,.,νs=ν0 y≤yaνf-(νf-ν0)1-y-ya1-ya2 yay≤1νf y1(6):ν0;νf;y,y=σ/fs(t),σ;ya.,ν0=0.265,νf=0.45,ya=0.8.420℃200,1000℃,(6).4:((6)).3 Fig.3 Tensilestrengthofsteelafterhightemperaturetreatment4 Fig.4 RelationbetweenPossion’sratioandstressofsteelafterhightemperaturetreatment3 - (20℃)200,500,700,1000℃-5.5,-,-.,(7)[1,2].248 9 σ=(Es-Etst)ε(1+(Es-Etst)εfs(t)nt)1/nt+Etstε ε≤εtufu(t) εεtu(7):Etst;nt-;ε;εtu,(7)、.,(7):Es=2.06×105MPa;Estt=0.01Es;nt=10.(7)5.5,-((7)).5 -Fig.5 Tensilesturess-strainrelationshipsofsteelafterhightemperaturetreatment4 1,.2.-、-、——,Q235.:[1] OKABETakeshi,ABETakeo.Buckingstrengthofsteelcolumnsusingfireresistantsteel(NSFR490A)athightemperature[J].JStructConstrEng(AIJ),2000,535(5):171-178.[2] OKABETakeshi.Buckingstrengthofsteelcolumnmodelsusingnewmetallicstructuralmaterial(SA44OB)athightempera-ture[J].JStructConstrEng(AIJ),1999,521(7):169-176.[3] .()[J].,2000,30(10):61-63,67.[4] .[J].,2000,30(4):26-28.[5] , .Q345[J].,2001,31(1):.53-55.[6] ,.Q235—[J].,2004,38(6):967-971.[7] .[D].:,1998.[8] ,,,.[M].:,1994.[9] .[D].:,2000.249 2:Q235
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本文标题:高温后Q235钢材力学性能试验研究-丁发兴
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