高温下动态科尔斯基棒压缩方法：在Ti-6Al-4V上的应用

IF 1.5 4区工程技术 Q3 ENGINEERING, MECHANICAL

Experimental Techniques Pub Date : 2024-11-07 DOI:10.1007/s40799-024-00762-5

E.R. Pittman, A. J. Clarke, L. E. Lamberson

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引用次数: 0

摘要

在这项工作中，开发了一种实验装置，用于测量材料在应变率为10 \(^3\) s \(^{-1}\)和温度高达800°C的情况下的动态行为，该装置具有独特的三重驱动系统。该系统基于传统的Kolsky（或split-Hopkinson压力）棒设计，并增加了一个用于将样品加热到所需温度的外部炉。同步三重气动驱动系统用于控制样品、入射和传输杆的运动和定时。冷接触时间（CCT），或加热样品在压缩前与室温棒接触的时间，是通过实验测量和仔细控制的，以尽量减少样品上温度梯度的发展，并避免加热棒。实验与超高速成像和二维数字图像相关（DIC）以及高速热成像一起进行。为了验证所提出系统的可行性，在Ti-6Al-4V （wt）上进行了实验。%) at temperatures from 25°C up to and 800°C at an average strain rate of approximately 1200 s\(^{-1}\).

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A Method for Dynamic Kolsky Bar Compression at High Temperatures: Application to Ti-6Al-4V

An experimental apparatus for measuring the dynamic behavior of materials subjected to strain rates on the order of 10\(^3\) s\(^{-1}\) and temperatures up to 800°C with a unique triple actuation system is developed in this work. This system is based on the traditional Kolsky (or split-Hopkinson pressure) bar design, with the addition of an external furnace used to heat the specimen to the desired temperature. A synchronized triple pneumatic actuation system is used to control the motion and timing of the the sample, incident, and transmitted bars. The cold contact time (CCT), or the time during which the heated sample is in contact with the room temperature bars before compression, is measured experimentally and carefully controlled to minimize the development of a temperature gradient across the sample and avoid heating of the bars. Experiments are performed in conjunction with ultra high speed imaging and 2D digital image correlation (DIC), as well as high speed thermal imaging. To verify the viability of the proposed system, experiments were conducted on Ti-6Al-4V (wt.%) at temperatures from 25°C up to and 800°C at an average strain rate of approximately 1200 s\(^{-1}\).

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来源期刊

Experimental Techniques 工程技术-材料科学：表征与测试

CiteScore

3.50

自引率

6.20%

发文量

审稿时长

5.2 months

期刊介绍： Experimental Techniques is a bimonthly interdisciplinary publication of the Society for Experimental Mechanics focusing on the development, application and tutorial of experimental mechanics techniques. The purpose for Experimental Techniques is to promote pedagogical, technical and practical advancements in experimental mechanics while supporting the Society''s mission and commitment to interdisciplinary application, research and development, education, and active promotion of experimental methods to: - Increase the knowledge of physical phenomena - Further the understanding of the behavior of materials, structures, and systems - Provide the necessary physical observations necessary to improve and assess new analytical and computational approaches.