Abstract
Bolted joints are the most common solution for joining composite components in aerospace structures. Critical structures such as wing to fuselage joints, or flight control surface fittings use bolted joining techniques. Recent research concluded that higher bearing strengths in composite bolted joints can be achieved by a CFRP/ Titanium hybrid lay-up in the vicinity of the bolted joint. The high costs of titanium motivate a similar research with the more cost competitive austenitic steel. An experimental program was performed in order to compare the apparent inter-laminar shear stress (ILSS) of a CFRP reference beam with the ILSS of hybrid CFRP/Steel beams utilizing different surface treatments in the metallic ply. The apparent ILSS was determined by short beam test, a three-point bending test. Finite element models using cohesive elements in the CFRP/Steel interface were built to simulate the short beam test in the reference beam and in the highest interlaminar shear stress hybrid beam. The main parameters for a FEM simulation of inter laminar shear are the cohesive elements damage model and appropriate value for the critical energy release rate. The results show that hybrid CFRP/Steel have a maximum ILSS very similar to the ILSS of the reference beam. Hybrid CFRP/Steel is a competitive solution when compared with the reference beam ILSS. FEM models were able to predict the maximum ILSS in each type of beam.
Highlights
Composite materials have been used in aerospace applications in the past four decades
The results show that hybrid CFRP/Steel have a maximum inter-laminar shear stress (ILSS) very similar to the ILSS of the reference beam
TExperimental results he apparent inter-laminar shear strength for the reference beam was calculated based on the load measured by the testing machine using Eq (2) [12]:
Summary
Composite materials have been used in aerospace applications in the past four decades. The research concluded that compressive strength of hybrid material is higher than monolithic CFRP; the bearing tests using a three row bolted joint showed that CFRP/TI has a joint efficiency over 65% in the case of a 0o-on axis loading, and a satisfactory fatigue behaviour. Fink and Camanho [6] performed inter-laminar shear stress by the use of the short beam method and experimental and numerical response of the bearing strength of a hybrid CFRP/Ti alloy. Corrosion resisting steel has the advantage of higher stiffness, higher ultimate strength, excellent fatigue properties and much lower cost when compared with Ti alloys. It has the disadvantage of having a higher CTE producing a significant residual thermal stress. The results of both the experiments and the simulations are presented and compared
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
