采用光学电镜(OM)、扫描电镜(SEM)、Image Pro Plus 6.0等表征手段,结合数学及理论分析,构建了TC11钛合金低温冲击韧性-组织参数定量关系,阐明了其内在影响机理。结果表明:组织中初生α相体积分数通过影响塑性变形功及裂纹扩展撕裂功而...采用光学电镜(OM)、扫描电镜(SEM)、Image Pro Plus 6.0等表征手段,结合数学及理论分析,构建了TC11钛合金低温冲击韧性-组织参数定量关系,阐明了其内在影响机理。结果表明:组织中初生α相体积分数通过影响塑性变形功及裂纹扩展撕裂功而影响TC11钛合金低温冲击韧性。当初生α相体积分数小于50%时,低温冲击韧性符合sine函数变化规律,大于50%时,则维持在25 J/cm2左右。初生α相体积分数约为30%~35%时,合金的塑性变形功及裂纹扩展撕裂功均取得极大值,此时低温冲击韧性达到峰值。相较于裂纹扩展路径曲折程度对低温冲击韧性所带来的影响,试样在冲击过程中所吸收的塑性功起到更为关键的作用。展开更多
To get a deep understanding of the evolution behavior of equiaxedαphase in Ti−8Al−1Mo−1V alloy during annealing,its static coarsening mechanism was studied based on the calculations of coarsening exponent n and the a...To get a deep understanding of the evolution behavior of equiaxedαphase in Ti−8Al−1Mo−1V alloy during annealing,its static coarsening mechanism was studied based on the calculations of coarsening exponent n and the activation energy forαboundary migration.The result of n=6 indicates a special coarsening mechanism of equiaxedαphase.The activation energy forαboundary migration is calculated to be 138 kJ/mol,which is close to the activation energy for grain growth of pureα-Ti.It is revealed that the coarsening of equiaxedαcan be mainly attributed to the self-diffusion of Ti atoms across theα/αboundaries.Based on the experimental findings,a static coarsening kinetics model of equiaxedαgrains in theα+βfield is established.At last,the effects of the coarsening behavior of equiaxedαon tensile properties were studied.展开更多
基金the financial support from the Fundamental Research Program of Shanxi Province,China(No.202203021211130)the National Natural Science Foundation of China(Nos.51801132,52075359)。
文摘采用光学电镜(OM)、扫描电镜(SEM)、Image Pro Plus 6.0等表征手段,结合数学及理论分析,构建了TC11钛合金低温冲击韧性-组织参数定量关系,阐明了其内在影响机理。结果表明:组织中初生α相体积分数通过影响塑性变形功及裂纹扩展撕裂功而影响TC11钛合金低温冲击韧性。当初生α相体积分数小于50%时,低温冲击韧性符合sine函数变化规律,大于50%时,则维持在25 J/cm2左右。初生α相体积分数约为30%~35%时,合金的塑性变形功及裂纹扩展撕裂功均取得极大值,此时低温冲击韧性达到峰值。相较于裂纹扩展路径曲折程度对低温冲击韧性所带来的影响,试样在冲击过程中所吸收的塑性功起到更为关键的作用。
基金financial supports from the China Scholarship Council(No.201906935013)the National Natural Science Foundation of China(No.51801132).
文摘To get a deep understanding of the evolution behavior of equiaxedαphase in Ti−8Al−1Mo−1V alloy during annealing,its static coarsening mechanism was studied based on the calculations of coarsening exponent n and the activation energy forαboundary migration.The result of n=6 indicates a special coarsening mechanism of equiaxedαphase.The activation energy forαboundary migration is calculated to be 138 kJ/mol,which is close to the activation energy for grain growth of pureα-Ti.It is revealed that the coarsening of equiaxedαcan be mainly attributed to the self-diffusion of Ti atoms across theα/αboundaries.Based on the experimental findings,a static coarsening kinetics model of equiaxedαgrains in theα+βfield is established.At last,the effects of the coarsening behavior of equiaxedαon tensile properties were studied.