The void formation in FRP composites is unavoidable and the void content measurement is very important to study its deleterious effects on the mechanical properties of the material. Generally destructive methods are used to calculate the void volume fraction. But the recent advances in X-ray computed tomography can be used to detect and quantify the void content in the composites in a non-destructive manner. In this study average area method is proposed and validated for the void volume measurement from the X-ray CT image slices through digital image processing. The effects of void size, shape and position in the accuracy of the measurement is studied and presented here. The void volume fraction of a CFRP laminate manufactured with compression molding technique is calculated by this method and found to be around 1%. © 2018 Trans Tech Publications, Switzerland.

Raghu V. Prakash

Department of Mechanical Engineering

Mathew John

Carbon fiber reinforced plastics

Composite materials

Compression molding

Fiber reinforced plastics

Image processing

Mechanical properties

Void fraction

Volume fraction

Volume measurement

X rays

COMPRESSION-MOLDING TECHNIQUE

Deleterious effects

DESTRUCTIVE METHODS

NON DESTRUCTIVE

VOID VOLUME FRACTION

Voids

X RAY CT IMAGES

x-ray computed tomography

Computerized tomography

IIT Madras is a public technical and research university located in Chennai, Tamil Nadu. Founded in 1959, it is recognised as an Institute of National Importance.

IIT Madras has been ranked as the top engineering institute in India for four years in a row by the National Institutional Ranking Framework of the MHRD

It currently offers undergraduate, postgraduate and research degrees across 16 disciplines in Engineering, Sciences, Humanities and Management. About 596 faculty belonging to science and engineering departments and centres of the Institute are engaged in teaching, research and industrial consultancy.

IIT Madras

Materials Science Forum

Carbon fiber-reinforced polymer (CFRP) composites are widely used in safety-critical aerospace structures and experience low-velocity impacts, which deteriorate their residual strength and residual life. This paper presents the results of damage accumulation during fatigue loading, estimated through stiffness degradation under constant amplitude and the programmed version of FALSTAFF spectrum loading (Prog-FALSTAFF) of [0/90]8 and quasi-isotropic CFRP laminates. The laminates are prepared by a hand lay-up technique; specimens of size 250 mm by 45 mm by 4.5 mm thickness are extracted from the laminate for testing. Some of the specimens are subjected to drop impact at different input impact energies (23J, 35J, and 51J), and the fatigue response after impact loading is studied. The rate of degradation of stiffness for impacted CFRP specimens under a Prog-FALSTAFF spectrum loading is less compared to constant amplitude loading. The sequence of intermediate block cycles of constant ampltiude in Prog-FALSTAFF is organized either in an ascending order of magnitude, low to high (Lo-Hi), or in a descending order of magnitude (Hi-Lo) to study the effect of load sequencing on damage accumulation. Lo-Hi sequencing results in greater damage compared to Hi-Lo sequencing for all the orientations of CFRP laminates studied. In the case of unimpacted specimens, there is a marginal increase in stiffness in the early stages, followed by a drop in stiffness; the stiffness degradation rate in unimpacted specimens is much less compared to impacted specimens. Computed X-ray tomography has been carried out on specimens under the following conditions: pristine; after fatigue cycling; after impact damage; and postimpact, postfatigue cycling to understand the damage progression. As an exploratory study, investigation of damage through active infrared thermography is carried out. The presence of delamination could be identified through the variable specimen cooling curves of CFRP specimens using the active thermography technique. Copyright ©2017 by ASTM International.

ASTM Special Technical Publication

Fatigue studies on impacted and unimpacted CFRP laminates

International Journal of Fatigue

Fatigue behaviour of glass/epoxy laminates in the presence of voids

Computers and Geotechnics

A new method to identify void constrictions in micro-CT images of sand

Reinforced Plastics

ASTM standard provides testing for fractures

Journal of Composite Materials

Structural analysis of composites with porosity defects based on X-ray computed tomography

Void content measurement in fiber reinforced plastic composites by X-ray computed tomography

Journal	Materials Science Forum
Publisher	Trans Tech Publications Ltd
ISSN	02555476
Open Access	No