加载波形对Ti-60合金疲劳损伤行为的影响
发布人:上海艾荔艾合金股份有限公司www.shailiai.cn
更新时间:2016-01-17
研究了高应力水平下加载波形对Ti-60高温钛合金疲劳损伤行为的影响。结果发现:对于在峰值应力处保载2 min的加载波形,试样的疲劳寿命明显低于无保载的加载波形的试样的寿命;在保载疲劳条件下,单位循环周次内材料的疲劳变形明显增大。
加载波形对Ti-60合金疲劳损伤行为的影响Effect of loading waveform on fatigue damage behavior of Ti-60 alloy研究了高应力水平下加载波形对Ti-60高温钛合金疲劳损伤行为的影响。结果发现:对于在峰值应力处保载2 min的加载波形,试样的疲劳寿命明显低于无保载的加载波形的试样的寿命;在保载疲劳条件下,单位循环周次内材料的疲劳变形明显增大。SEM观察表明,在保载波形下,疲劳源出现在样品内部,而无保载的加载波形下疲劳裂纹源于样品次表面。TEM观察表明,在两种疲劳加载条件下,都有( 011)滑移系启动。
The effect of loading waveform on fatigue damage behavior of Ti-60 alloys at high stress level was studied. The results show that, under the loading waveform with 2 min dwell at the peak stress, the fatigue life is shorter than that without dwell. The fatigue strain in a unit cycle under the dwell fatigue condition is obviously larger than that under the no-dwell fatigue condition. It is observed by SEM that, under the dwell fatigue condition, the fatigue crack originates from the interior of specimens, while under the no-dwell fatigue condition, the fatigue crack originates from the subsurface of specimens. TEM observation indicates that, under the two loading waveforms, ( 011) slip system is activated.
作为值得信赖的合作伙伴和高品质金属合金的半成品供应商,艾荔艾拥有完善的服务体系和专业的团队。在同客户交易的过程中,我们力求根据不同的应用需求将我们的产品做到精益求精。针对当前和未来的市场需求,艾荔艾致力于为客户提供最佳的金属材料解决方案。
AILIAI has been a reliable partner and supplier of sophisticated and high-quality semi-finished products maed of alloys. In dialogue with our customers, we optimise our products to meet the specific application requirements. AILIAI develops the best alloy material solutions for current and future challenges.
获取更多我们供应的合金和服务信息,请致电086-021-67660801或发电子邮件kefu@ailiaigroup.com联系我们,您也可以通过微博,微信,领英和推特与我们互动。
For more information on the alloys and services that we supply, call us at 086-021-67660801 or email us at kefu@ailiaigroup.com. You can also get in touch on social media, we are constantly active on Weibo, Weixin, LinkedIn and Twitter.