Ni-16Cr-9Fe的晶界特征分布:方法和结果。

D C Crawford, G S Was
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引用次数: 13

摘要

在扫描电镜上成像的选定区域的通道模式被数字化并显示在Macintosh计算机的屏幕上,用户在屏幕上选择测量的通道带以确定方向。利用晶界相邻晶粒对的取向信息发现晶界取向错误,并根据取向错误信息将晶界分类为低角度晶界(lab)、重合点阵晶界(cslb)和一般晶界(ghab)。应用该技术分析了Ni-16Cr-9Fe的晶界特征分布(gbcd)。溶液退火材料的gbcd与随机取向多晶聚集的gbcd相似。然而,固溶退火后进行的连续热处理(5%拉伸应变+ 945℃:75 min + 2%拉伸应变+ 890℃:15 h + 3%拉伸应变+ 890℃:20 h或9%压缩应变+ 890℃:20 h + 9%压缩应变+ 890℃:20 h + 3%压缩应变+ 890℃:15 h)将gbcd中ghab的比例从76-79%降低到47-64%。拉伸变形试样和压缩变形试样的csl增强的gbcd似乎主要是通过再结晶过程中孪晶和孪晶相关边界的碰撞而形成的;压缩变形样品的CSL增强的GBCD似乎比拉伸变形样品受晶粒旋转过程的影响程度更大。CSL增强的GBCD中的CSL边界通常比溶液退火材料的近随机GBCD中的CSL边界更接近确切的CSL取向。对取向错误轴分布的分析表明,晶粒取向错误织构与GBCD演化之间没有相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Grain boundary character distributions in Ni-16Cr-9Fe using selected area channeling patterns: methodology and results.

Selected area channeling patterns imaged on an SEM are digitized and displayed on the screen of a Macintosh computer, on which the user selects channeling bands that are measured to determine orientation. Grain boundary misorientations are found using the orientation information for pairs of grains adjacent at grain boundaries, and the boundaries are classified as low angle boundaries (LABs), coincident site lattice boundaries (CSLBs), or general boundaries (GHABs) based on the misorientation information. The technique was implemented to analyze the grain boundary character distributions (GBCDs) in Ni-16Cr-9Fe. The GBCDs of solution annealed material were similar to those expected in an aggregate of randomly oriented polycrystals. However, sequential thermomechanical treatments (5% tensile strain + 945 degrees C:75 min + 2% tensile strain + 890 degrees C:15 h + 3% tensile strain + 890 degrees C:20 h or 9% compressive strain + 890 degrees C:20 h + 9% compressive strain + 890 degrees C:20 h + 3% compressive strain + 890 degrees C:15 h) applied after the solution anneal lowered the proportions of GHABs in the GBCDs from 76-79% to 47-64%. The CSL-enhanced GBCDs of both the tensile-deformed samples and the compression-deformed sample appear to have evolved mainly through impingement of twin and twin-related boundaries during recrystallization; the CSL-enhanced GBCD of a compression-deformed sample appears to have been influenced by grain rotation processes to a greater degree than were the tensile-deformed samples The CSL boundaries in the CSL-enhanced GBCDs were, in general, closer to the exact CSL misorientations than were those in the near-random GBCDs of the solution annealed material. An analysis of the distribution of misorientation axes did not indicate any correlation between grain misorientation texture and GBCD evolution.

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