共查询到16条相似文献,搜索用时 187 毫秒
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在应变速率为5.56×10-5s-1—5.56×10-3s-1的范围内,在不同温度下(从223K至773K),对3004铝合金进行系列拉伸试验,探索其锯齿屈服规律;通过激活能的计算、内耗研究、微观组织观察和能谱分析,探讨锯齿屈服的机理与物理本质.结果表明,3004铝合金在形变过程中会出现动态应变时效现象;发现了一种“反常”的锯齿屈服现象:在出现锯齿屈服的温区内,存在锯齿屈服临界应变量转变温度Tt,
关键词:
动态应变时效
锯齿屈服
铝合金
内耗 相似文献
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用低频扭摆测量了经过轻度冷加工的Al-0.l%Mg合金在室温时效过程中的内耗变化,观察到表现反常振幅效应的时效内耗峯。用经过充分时效而内耗已达到稳定值的试样进行升温和降温内耗测量,也在30—55℃的温度范围内观察到表现反常振幅效应的温度内耗峯。这些现象在高纯铝试样和经过完全退火的Al-0.l%Mg合金试样中都不出现。在Al-0.l%Mg合金中也能观察到以前在Al-0.5%Cu合金中所观察到的反常内耗现象,这就排斥了任何用在点阵中所发生的一般脱溶沉淀过程来解释这种反常内耗现象的可能性,困为在含0.1%Mg的铝合金中,在实验测量所涉及的温度范围内,是不能够在点阵中发生一般的脱溶沉淀过程的。为了解释铝镁合金中所呈现的反常内耗现象的特点,可以假设在铝镁合金中能够形成两种位错气团:一种是“镁原子-空位”对与位错所组成的气团,这种气团能够在应变时效过程中形成;另一种气团是镁原子与位错所组成的气团,当经过范性形变的试样的温度升高到100℃左右时,镁原子与空位脱离,在退火过程中就单独与位错形成气团。前一种气团对于位错的钉札较第二种为强,因而它的振幅内耗峯出现在较高的振幅值。 相似文献
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在改装了的拉力试验机上,以不同的拉伸速率ε(0.79—18×10-5s-1)进行加、卸载试验,并用中间扭摆和四端电位法同时测量了Ni-49at%Ti合金丝在应力诱导I/C相变过程的内耗Q-1、模量M/M0、电阻率ρ/ρ0和应力-应变曲线。研究了应力循环和应变速率的影响。在Q-1-ε曲线上出现Q-1峰,而在f2-ε曲线上出现与之相对应的模量极小。内耗峰的高度Qp-1和模量亏损值均随ε增大而增大。根据界面动力学模型和内耗的实验数据,计算得应力诱导I/C相变过程界面的动力学关系为V=V*(△G—△GR)m,V*和m为动力学参数,△GR为相变过程中运动相界面所受的阻力,计算得△GR≈1cal/mol。讨论了内耗和模量亏损、软模效应之间的关系。
关键词: 相似文献
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本文提出了一个杂质沉淀引起位错生成、位错-杂质相互作用、杂质原子沿晶粒间界快速扩散的模型,用以解释高剂量离子注入形成的非晶层在重新结晶的退火过程中杂质外扩散和缺陷运动现象。给出了在位错的合应力场的影响下杂质的扩散方程。以能量为80keV,剂量为1016cm-2的Pb+注入Si(111)面为例,对扩散方程进行了数学物理处理,从而给出了根据实验测量推演表观扩散系数随时间变化及位错的合应力场对杂质的作用力的纵向分布的方法。实验测得的位错合应力场对杂质的作用系数α≈8.4×10-28dyn·cm3,退火时间在5×103sec至8.25×103sec内,表观扩散系数D随时间的变化为一指数关系。
关键词: 相似文献
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利用可调谐半导体激光吸收光谱技术(TDLAS)并结合波长调制,在近红外波段1531.7nm处对常温常压下的NH3进行浓度测量.在10m的长程吸收池内得到了25×10-6的浓度信号,并且在25×10-6—400×10-6浓度范围内二次谐波信号与浓度具有良好的线性关系.讨论了粉尘颗粒对于二次谐波信号的干扰,并提出了利用激光强度线性拟合解决颗粒对气体测量干扰的方法.
关键词:
可调谐半导体吸收光谱
波长调制
3浓度测量')" href="#">NH3浓度测量
颗粒影响 相似文献
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J. Christopher 《哲学杂志》2013,93(26):2992-3016
The flow and work-hardening behaviour of tempered martensitic P92 steel have been investigated using phenomenological constitutive model in the temperature range 300–873 K for the strain rates ranging from 3.16 × 10?5 to 1.26 × 10?3 s?1. The analysis indicated that the hybrid model reduced to Estrin–Mecking (E–M) one-internal-variable model at intermediate and high temperatures. Further, the analysis also indicated that dislocation dense martensite lath/cell boundaries and precipitates together act as effective barriers to dislocation glide in P92 steel. The flow behaviour of the steel was adequately described by the E–M approach for the range of temperatures and strain rates examined. Three distinct temperature regimes have been obtained for the variations in work-hardening parameters with respect to temperature and strain rate. Signatures of dynamic strain ageing in terms of the anomalous variations in work-hardening parameters at intermediate temperatures and the dominance of dynamic recovery at high temperatures have been observed. The evaluation of activation energy suggested that deformation is controlled by the dominance of cross-slip of dislocations at room and intermediate temperatures, and climb of dislocations at high temperatures. 相似文献
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Spatial localization of deformation bands in LiF and KCl single crystals caused by instability of plastic flow in the strain rate range from 5 × 10?6 to 2 × 10?4 s?1 was studied experimentally. The geometrical parameters of localized shift bands (LSB) were studied as a function of strain rate and temperature. To study the LSB relief, a surface profilometry technique was used for the first time, which made it possible to determine the LSB parameters at the early stages of plastic flow (for strains in the range from 0.5 to 2%). The formation and branching of LSB steps on the surface of a deformed crystal due to the generation and motion of dislocations were found to be scaled. It was shown experimentally that the LSB formation is a thermally activated process that occurs through dislocation glide and is limited by dislocation creep. 相似文献
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