Applying ultrasonic vibration to decrease drilling-induced delamination in GFRP laminates

机译：应用超声波振动减少GFRP层压板中的钻孔诱导分层

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Delamination is a major problem in drilling of fiber-reinforced composite materials. Thrust force is an important factor leading to propagation of delamination during drilling process. One of effective methods to reduce machining forces is application of ultrasonic vibrations. In this study ultrasonic assisted drilling is applied to reduce thrust force in drilling of GFRP laminates. In order to conduct experiments a setup is designed and fabricated to apply both vibrations and rotation to drill bits. Using Taguchi method, a set of experiments is conducted with feed rate, spindle speed, and ultrasonic vibration amplitude as control factors. The results show that applying ultrasonic vibration reduces the thrust force and therefore the drilling induced delamination dramatically.

机译：分层是钻纤维增强复合材料的主要问题。推力是导致钻井过程中分层传播的重要因素。减少加工力的有效方法之一是应用超声波振动。在该研究中，应用超声波辅助钻孔以减少GFRP层压板钻孔的推力。为了进行实验，设计并制造成型以应用振动和旋转以钻头。使用Taguchi方法，通过进料速率，主轴速度和超声振动幅度进行一组实验作为控制因子。结果表明，施加超声波振动降低了推力，因此钻探诱导分层急剧。

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《CIRP Conference on Electro Physical and Chemical Machining》|2013年||共6页
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P. Mehbudi; V. Baghlani; J. Akbari; A. R. Bushroa; N. A. Mardi;
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中图分类 TH16-53;
关键词
Ultrasonic assisted drilling; GFRP laminates; Drilling induced delamination; Taguchi method;

机译：超声波辅助钻孔;GFRP层压板;钻探诱导分层;TAGUCHI方法;

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专利

1. Applying Ultrasonic Vibration to Decrease Drilling-Induced Delamination in GFRP Laminates [J] . P. Mehbudi, V. Baghlani, J. Akbari, Procedia CIRP . 2013,第2aPartaB期

机译：应用超声波振动减少GFRP层压板中钻孔引起的分层
2. Numerical study of GFRP joints bearing strength reduction due to drilling-induced delamination [J] . Journal of Composite Materials . 2020,第16期

机译：GFRP接头轴承强度降低引起的分层引起的数值研究
3. Drilling-induced damage in uni-directional glass fiber reinforced plastic (UD-GFRP) composite laminates [J] . I. Singh, N. Bhatnagar The International Journal of Advanced Manufacturing Technology . 2006,第9a10期

机译：单向玻璃纤维增强塑料（UD-GFRP）复合层压板的钻孔引起的损坏
4. Applying ultrasonic vibration to decrease drilling-induced delamination in GFRP laminates [C] . P. Mehbudi, V. Baghlani, J. Akbari CIRP Conference on Electro Physical and Chemical Machining . 2013

机译：应用超声波振动减少GFRP层压板中的钻孔诱导分层
5. The effects of delamination on the vibrational characteristics of composite structural elements [D] . Bhalla, Kenneth. 1992

机译：分层对复合结构元件振动特性的影响
6. Failure Progress of 3D Reinforced GFRP Laminate during Static Bending Evaluated by Means of Acoustic Emission and Vibrations Analysis [O] . Mateusz Koziol, Tomasz Figlus 2015

机译：通过声发射和振动分析评估3D增强GFRP层压板在静态弯曲过程中的破坏进展
7. Applying Ultrasonic Vibration to Decrease Drilling-Induced Delamination in GFRP Laminates [O] . Mehbudi P., Baghlani V., Akbari J., 2013

机译：应用超声波振动减少GFRP层压板中钻孔引起的分层
8. Characterization of Delaminations and Transverse Matrix Cracks in Composite Laminates Using Multiple-Angle Ultrasonic Inspection. [R] . Johnston, P. H., Appleget, C. D., Odarczenko, M. T. 2012

机译：用多角度超声检测表征复合材料层合板的脱层和横向基体裂纹。

Applying ultrasonic vibration to decrease drilling-induced delamination in GFRP laminates

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