金属学报
金屬學報
금속학보
ACTA METALLURGICA SINICA
2009年
7期
840-843
,共4页
室温蠕变%屈服强度%X70管线钢%应变速率
室溫蠕變%屈服彊度%X70管線鋼%應變速率
실온연변%굴복강도%X70관선강%응변속솔
room temperature creep%yield strength%X70 pipeline steel%strain rate
研究了正火态X70管线钢的相续室温蠕变现象及其对随后变形的影响,结果表明,在屈服点上、下的数种应力水平下X70钢均存在室温蠕变现象,且通常呈现为速率递减的α型蠕变.屈服点后的室温蠕变提高了随后的流变应力.利用应变速率一应力曲线判断室温蠕变对随后应力应变行为的影响:经历低于屈服强度的室温蠕变过程后,应变速率突变点明显低于普通拉伸实验的比例极限;而在较高应力水平下的室温蠕变使随后的应变速率-应力曲线出现明显峰值.利用局部可动位错密度模型解释了室温蠕变的影响.
研究瞭正火態X70管線鋼的相續室溫蠕變現象及其對隨後變形的影響,結果錶明,在屈服點上、下的數種應力水平下X70鋼均存在室溫蠕變現象,且通常呈現為速率遞減的α型蠕變.屈服點後的室溫蠕變提高瞭隨後的流變應力.利用應變速率一應力麯線判斷室溫蠕變對隨後應力應變行為的影響:經歷低于屈服彊度的室溫蠕變過程後,應變速率突變點明顯低于普通拉伸實驗的比例極限;而在較高應力水平下的室溫蠕變使隨後的應變速率-應力麯線齣現明顯峰值.利用跼部可動位錯密度模型解釋瞭室溫蠕變的影響.
연구료정화태X70관선강적상속실온연변현상급기대수후변형적영향,결과표명,재굴복점상、하적수충응력수평하X70강균존재실온연변현상,차통상정현위속솔체감적α형연변.굴복점후적실온연변제고료수후적류변응력.이용응변속솔일응력곡선판단실온연변대수후응력응변행위적영향:경력저우굴복강도적실온연변과정후,응변속솔돌변점명현저우보통랍신실험적비례겁한;이재교고응력수평하적실온연변사수후적응변속솔-응력곡선출현명현봉치.이용국부가동위착밀도모형해석료실온연변적영향.
The deformation of metallic materials at low homologous temperature (the ratio of experimental temperature and melting point T/Tm<0.2)used to be described by time independent models.With the development of measuring technique and the improvement of required accuracy,the time dependence of deiormation has been concerned about.So far,room temperature creep(RTCl has been observed in many metals and alloys,and some experiments have been performed to investigate the fundamental deformation mechanism and influencing factors.A previous paper reported that RTC increased the subsequent flow stress of an X70 pipeline steel.However,the evolution of deformation following RTC is not thoroughly understood.In this paper,sequential RTC tests and their effects on the subsequent deformation have been investigated in the X70 pipeline steel.The steel exhibits time dependent deformation at various stress levels around yield strength,and RTC iS generally primary α type.Moreover,the post-yield RTC markedly enhances the subsequent flow stress.The influence of RTC on subsequence stress-strain behavior can be evaluated using strain rate-stress curve:the burst point of strain rate,due to pre-yield RTC process,is lower than elastic limit,while a distinct peak is observed after RTC has been performed at higher stress level.Local mobile dislocation model has been applied to analyze the behavior.