机构地区:[1]天津工业大学机械工程学院,天津300387 [2]数字化学习技术集成与应用教育部工程研究中心,北京100039
出 处:《表面技术》2023年第7期239-249,共11页Surface Technology
基 金:天津市131创新型人才团队(201916);天津市自然科学基金(20JCQNJC00050);数字化学习技术集成与应用教育部工程研究中心创新基金(1221007)。
摘 要:目的研究钻削制孔表面分层损伤与拉伸载荷下开孔碳纤维增强聚醚醚酮(CF/PEEK)复合材料表面应变分布的相关性。方法通过对CF/PEEK复合材料层合板进行钻削制孔实验,分析不同进给速度对钻削温度、钻削轴向力、制孔出口表面分层和孔壁表面损伤的影响。采用数字图像相关技术(DIC)和力学实验相结合的方法,研究分层损伤程度对开孔CF/PEEK复合材料层合板拉伸性能和表面应变分布的影响。使用扫描电镜观测开孔试件的断裂形貌,分析开孔试件受拉伸载荷时的破坏模式。结果随着进给速度的增加,钻削温度降低,钻削轴向力提高,出口表面分层和孔壁损伤程度加剧。随着分层损伤程度的增加,层合板的拉伸强度呈现出降低的趋势,试件的拉伸强度从558.4 MPa降低到525.63 MPa,降低了5.87%。在中应力和高应力状态下,试件x方向的最大负应变随着分层损伤程度的增加而增加。在高应力状态下,试件y方向的最大正应变随着分层损伤程度的增加而增加。试件的断裂方式主要是基体开裂、分层和纤维撕裂,断口有纤维脱落和纤维拔出,垂直于载荷方向的纤维破坏模式为剥离破坏,与载荷方向一致的纤维破坏模式为拉伸破坏。结论钻削制孔表面分层损伤会降低开孔CF/PEEK复合材料的拉伸强度。不同分层损伤程度的开孔层合板表面应变分布表现出明显的差异性。The work aims to investigate the correlation between delamination damage on drilled hole surface and surface strain distribution of open-hole CF/PEEK composites under tensile load.Drilling experiments were carried out on CF/PEEK composite laminates with twist drill.The effects of different feed speed on the drilling temperature,drilling thrust force,surface delamination of the drilled hole outlet and the surface damage of the hole wall were analyzed.The effects of delamination damage on the tensile properties and surface strain distribution of open-hole CF/PEEK composite laminates were investigated through the combination of digital image correlation(DIC)and tensile experiments.The fracture morphology of the specimens was observed by scanning electron microscope,and the failure mode of the open-hole specimens under tensile load was analyzed.With the increase of feed speed,the time used to drill the workpiece was shorter,the accumulation of cutting heat was reduced,and the drilling temperature was reduced.Lower feed speed led to higher drilling temperature and softer matrix,and lower feed speed could produce relatively lower drilling thrust force.The increase of the feed speed led to the increase of the drilling thrust force,which aggravated the delamination damage of the outlet surface.The cutting surface of each specimen was coated with resin and the hole wall showed delamination,crack,fiber pull out and fiber debonding.As the degree of delamination damage increased,the tensile strength of the laminates tended to decrease and the tensile strength of the specimen was reduced from 558.4 MPa to 525.63 MPa,with a reduction of 5.87%.The maximum negative strain in the x-direction of the specimen increased with the degree of delamination damage under middle and high stress states.It could be seen that the maximum negative strain exhibited sensitivity to the degree of delamination damage under middle and high stress states.The maximum positive strain in the y-direction of the specimen increased with the degree of delami
关 键 词:CF/PEEK复合材料 制孔损伤 拉伸性能 数字图像相关技术 表面应变
分 类 号:TG506.7[金属学及工艺—金属切削加工及机床]
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