Litcius/Paper detail

Minimizing Delamination in CFRP Laminates: Experimental and Numerical Insights into Drilling and Punching Effects

Murat Demiral, Tamer Saraçyakupoğlu, Burhan Şahin, Uğur Köklü

2025Polymers10 citationsDOIOpen Access PDF

Abstract

Carbon fiber-reinforced polymer (CFRP) laminates are extensively utilized in aerospace and advanced engineering fields because of their outstanding strength-to-weight ratio and superior fatigue durability. However, despite their high in-plane strength and stiffness, CFRP laminates are inherently susceptible to delamination. This weakness stems from the relatively low interlaminar strength of the resin-rich interfaces between layers compared to the much stronger in-plane fiber reinforcement. During mechanical processes such as drilling and punching, out-of-plane stresses and interlaminar shear forces develop, concentrating at these weak interfaces. This study investigates the delamination behavior of CFRP laminates with 3 to 7 plies under drilling and punching, focusing on the effects of ply count and drilling speed. Experimental tests were conducted using an 8 mm punch and drill bit at 2500, 3000, and 3500 rpm, reflecting typical workshop practices for M8 fastener holes. Scanning electron microscopy (SEM) analyses at different magnifications were used to quantify delamination extent. A three-dimensional finite element model was created in ABAQUS/Explicit, integrating the Hashin failure criterion to predict damage initiation within the plies and cohesive surfaces to simulate interlaminar delamination. The analyses show that with proper support, punching can approach the damage levels of drilling for thin CFRP plates, but drilling remains preferable for thicker laminates due to better integrity and tool longevity.

Topics & Concepts

Materials scienceDelamination (geology)DrillingFastenerPunchingComposite materialDrillCarbon fiber reinforced polymerFinite element methodStructural engineeringComposite laminatesShear (geology)Shear strength (soil)Fibre-reinforced plasticSpecific strengthEmbedmentKevlarAerospaceCompression (physics)Compressive strengthVibrationMechanical Behavior of CompositesAdvanced machining processes and optimizationComposite Structure Analysis and Optimization
Minimizing Delamination in CFRP Laminates: Experimental and Numerical Insights into Drilling and Punching Effects | Litcius