Effect of the Position of Defined Local Defect on the Mechanical Performance of Carbon-Fiber-Reinforced Plastics

Ashir, Moniruddoza; Nocke, Andreas; Cherif, Chokri

doi:10.1515/aut-2018-0034

Cited by 10 publications

(7 citation statements)

References 15 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The main disadvantage of destructive method is that the tested materials cannot be further used. Nevertheless, to derive the size and position of defects, these methods are widely used [7]. Tensile, bending, and impact testing are some examples of destructive methods.…”

Section: Composite Defects and Their Detectionmentioning

confidence: 99%

Damage detection by recurrence and entropy methods on the basis of time series measured during composite milling

Kęcik

Ciecieląg

Zaleski

2020

Int J Adv Manuf Technol

View full text Add to dashboard Cite

This paper presents methods for damage detection in machined material on the basis of time series measured during milling of glass-fiber–reinforced polymer (GFRP). Recurrence methods and different types of entropy have emerged as useful tools for detecting subtle non-stationarities and/or changes in nonlinear signals. In this research, a recurrence plot, recurrence quantifications, an approximate entropy, and sample entropy are used. By identifying changes in the cutting force measured during the composite milling process, the damage occurrence has been detected. Firstly, the damage has been modelled as the intentionally introduced hole with different diameters and depths in order to estimate the size detectable damages and to select proper recurrence measures as damage indicators. Next, the experiments with the real damage have been performed and the damage indicators have used.

show abstract

Section: Composite Defects and Their Detectionmentioning

confidence: 99%

Damage detection by recurrence and entropy methods on the basis of time series measured during composite milling

Kęcik

Ciecieląg

Zaleski

2020

Int J Adv Manuf Technol

View full text Add to dashboard Cite

show abstract

“…Therefore, to design safe and economical composite structures, the effect of defects on structural integrity must be understood. For unidirectional composites, research has been conducted on the detection of fabrication defects and their effect on stiffness and strength reduction [ 27 , 28 , 29 , 30 ]. However, in the case of textile composites, defect detection studies have appeared only recently [ 31 , 32 ], and a limited number of studies have been performed on the effect of defects on stiffness and strength degradation [ 33 , 34 ].…”

Section: Introductionmentioning

confidence: 99%

Effect of Defects on Progressive Failure Behavior of Plain Weave Textile Composites

2021

View full text Add to dashboard Cite

Various types of internal defects occur during manufacturing and handling of composite materials. It is practically impossible to manufacture composite structures without defects, making it crucial to understand the effect of defects on their failure behavior to maintain structural safety. In this work, the effect of pre-defects on the failure behavior of plain weave textile composites was studied. Unit cell configurations with symmetric, in-phase, and shifted fiber tow arrangements were considered. Inter-laced warp and fill tows and matrix pockets of plain weave unit cells were modeled in three-dimensional finite elements, and cohesive elements were inserted between all bulk elements to account for the fracture modes of the fiber and matrix direction failure of warp and fill tows, matrix pocket failure, and interface failure. Unit cell models containing pre-defects of voids, tow-matrix pocket separation, warp-fill tow separation, and cracks in the warp and fill tows were analyzed, and their effects on progressive failure behavior were investigated in terms of the interaction between fiber tow arrangements and defects. Results indicated that initial failure occurred in matrix-direction failure mode in fill tows, whereas fiber tow-matrix pocket separation was the major failure mode under uniaxial tensile load. Furthermore, failure behavior was found to be highly dependent on the fiber tow arrangement pattern and the location of pre-defects.

show abstract

“…A variety of natural fibers such as banana, jute, flax, pineapple leaf, bamboo, eucalyptus pulp, coconut, palm, sansevieria leaf, sisal, sugarcane fiber, cotton, ramie bast, date, malva, abaca leaf, kenaf bast, and hemp are being used as reinforcing materials in polymer composite materials to diversify their application from the automotive to biomedical fields [5,6]. Natural fiber-reinforced polymer composites (NFRPC) are extensively attractive in diversified applications from household to aerospace settings due to their light weight, biodegradability, renewability, high strength, high stiffness, good corrosion resistivity, enhanced energy recovery, lower fabrication cost, and many more [7][8][9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Influence of Gamma Radiation on Mechanical Properties of Jute Fabric-Reinforced Polymer Composites

Motaleb

Milašius

Ahad

2020

Fibers

View full text Add to dashboard Cite

Woven jute fabric was used as a reinforcing material for making two types of composite, named Jute/PR and Jute/Epoxy, with two different matrixes of polyester resin and epoxy, respectively, by hand layup techniques. Five different doses of gamma radiation from 100 to 500 krad were used to investigate the effects of the mechanical properties of the composites and the jute fabrics. Though gamma radiation improved the mechanical properties, such as the tensile strength (TS) and Young’s modulus (Y), and decreased the elongation at break % (Eb%) of the composites, it deteriorated all these properties for jute fabrics. The highest values of TS and Y and the lowest value of Eb% were found to be 39.44 Mpa, 1218.33 Mpa, and 7.68% for the Jute/PR; and 48.83 Mpa, 1459.67 Mpa, and 3.68% for the Jute/Epoxy composites, respectively, at a 300 krad gamma radiation dose. A further increase in dose altered all these properties; thus, 300 krad was found to be the optimum dose for both of the composites. Between the two composites, gamma radiation influenced the Jute/PR composite more than the Jute/Epoxy composite.

show abstract

Effect of the Position of Defined Local Defect on the Mechanical Performance of Carbon-Fiber-Reinforced Plastics

Cited by 10 publications

References 15 publications

Damage detection by recurrence and entropy methods on the basis of time series measured during composite milling

Damage detection by recurrence and entropy methods on the basis of time series measured during composite milling

Effect of Defects on Progressive Failure Behavior of Plain Weave Textile Composites

Influence of Gamma Radiation on Mechanical Properties of Jute Fabric-Reinforced Polymer Composites

Contact Info

Product

Resources

About