Effect of Z-pin on the through-the-thickness strength of woven composite laminates

J. H. Son; H. J. Chun; K. T. Kang; H. Y. Lee; J. H. Byun; M. K. Um; S. K. Lee; B. S. Kim

doi:10.4028/www.scientific.net/AMR.123-125.47

Effect of Z-pin on the through-the-thickness strength of woven composite laminates

J. H. Son, H. J. Chun, K. T. Kang, H. Y. Lee, J. H. Byun, M. K. Um, S. K. Lee, B. S. Kim

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Citations (Scopus)

Abstract

Delamination failure occurs due to the out-of-plane loading because of the weakness in the thickness directional properties of composite materials. The z-pinned composite has been developed to overcome such a problem. In this study, the mechanical properties of z-pinned composite laminates were examined using the analytical model. The effects of z-pins on the strength in the thickness direction were investigated. Fibers in the laminate are gradually waved by the formation of resin rich zone caused by inserting the z-pins. A constitutive model was developed for the predictions of strengths of woven z-pinned composites. The changes in the strengths in the in-plane and out-of-plane directions of the woven z-pinned composites and the effects of controlling parameters such as the diameter of z-pin and densities of z-pin on the strengths were identified. It was found that the out-of-plane tensile strength increases 14% relative to that of composite without z-pins when the diameter of z-pin is 0.25 mm. However, the in-plane tensile strength and in-plane and out-of-plane shear strengths were reduced to 9%, 7% and 8%, respectively, over the strengths of composite without z-pins. Qualitatively good correlations are obtained between the results of the suggested model and the experiments.

Original language	English
Title of host publication	Multi-Functional Materials and Structures III
Pages	47-50
Number of pages	4
DOIs	https://doi.org/10.4028/www.scientific.net/AMR.123-125.47
Publication status	Published - 2010
Externally published	Yes
Event	3rd International Conference on Multi-Functional Materials and Structures, MFMS 2010 - Jeonju, Korea, Republic of Duration: 2010 Sept 14 → 2010 Sept 18

Publication series

Name	Advanced Materials Research
Volume	123-125
ISSN (Print)	1022-6680

Other

Other	3rd International Conference on Multi-Functional Materials and Structures, MFMS 2010
Country/Territory	Korea, Republic of
City	Jeonju
Period	10/9/14 → 10/9/18

Keywords

Fiber waviness
Resin rich zone
Strengths
Unit cell
Woven z-pinned composite

ASJC Scopus subject areas

Engineering(all)

Access to Document

10.4028/www.scientific.net/AMR.123-125.47

Cite this

Son, JH, Chun, HJ, Kang, KT, Lee, HY, Byun, JH, Um, MK, Lee, SK & Kim, BS 2010, Effect of Z-pin on the through-the-thickness strength of woven composite laminates. in Multi-Functional Materials and Structures III. Advanced Materials Research, vol. 123-125, pp. 47-50, 3rd International Conference on Multi-Functional Materials and Structures, MFMS 2010, Jeonju, Korea, Republic of, 10/9/14. https://doi.org/10.4028/www.scientific.net/AMR.123-125.47

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title = "Effect of Z-pin on the through-the-thickness strength of woven composite laminates",

abstract = "Delamination failure occurs due to the out-of-plane loading because of the weakness in the thickness directional properties of composite materials. The z-pinned composite has been developed to overcome such a problem. In this study, the mechanical properties of z-pinned composite laminates were examined using the analytical model. The effects of z-pins on the strength in the thickness direction were investigated. Fibers in the laminate are gradually waved by the formation of resin rich zone caused by inserting the z-pins. A constitutive model was developed for the predictions of strengths of woven z-pinned composites. The changes in the strengths in the in-plane and out-of-plane directions of the woven z-pinned composites and the effects of controlling parameters such as the diameter of z-pin and densities of z-pin on the strengths were identified. It was found that the out-of-plane tensile strength increases 14% relative to that of composite without z-pins when the diameter of z-pin is 0.25 mm. However, the in-plane tensile strength and in-plane and out-of-plane shear strengths were reduced to 9%, 7% and 8%, respectively, over the strengths of composite without z-pins. Qualitatively good correlations are obtained between the results of the suggested model and the experiments.",

keywords = "Fiber waviness, Resin rich zone, Strengths, Unit cell, Woven z-pinned composite",

author = "Son, {J. H.} and Chun, {H. J.} and Kang, {K. T.} and Lee, {H. Y.} and Byun, {J. H.} and Um, {M. K.} and Lee, {S. K.} and Kim, {B. S.}",

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AU - Son, J. H.

AU - Chun, H. J.

AU - Kang, K. T.

AU - Lee, H. Y.

AU - Byun, J. H.

AU - Um, M. K.

AU - Lee, S. K.

AU - Kim, B. S.

PY - 2010

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N2 - Delamination failure occurs due to the out-of-plane loading because of the weakness in the thickness directional properties of composite materials. The z-pinned composite has been developed to overcome such a problem. In this study, the mechanical properties of z-pinned composite laminates were examined using the analytical model. The effects of z-pins on the strength in the thickness direction were investigated. Fibers in the laminate are gradually waved by the formation of resin rich zone caused by inserting the z-pins. A constitutive model was developed for the predictions of strengths of woven z-pinned composites. The changes in the strengths in the in-plane and out-of-plane directions of the woven z-pinned composites and the effects of controlling parameters such as the diameter of z-pin and densities of z-pin on the strengths were identified. It was found that the out-of-plane tensile strength increases 14% relative to that of composite without z-pins when the diameter of z-pin is 0.25 mm. However, the in-plane tensile strength and in-plane and out-of-plane shear strengths were reduced to 9%, 7% and 8%, respectively, over the strengths of composite without z-pins. Qualitatively good correlations are obtained between the results of the suggested model and the experiments.

AB - Delamination failure occurs due to the out-of-plane loading because of the weakness in the thickness directional properties of composite materials. The z-pinned composite has been developed to overcome such a problem. In this study, the mechanical properties of z-pinned composite laminates were examined using the analytical model. The effects of z-pins on the strength in the thickness direction were investigated. Fibers in the laminate are gradually waved by the formation of resin rich zone caused by inserting the z-pins. A constitutive model was developed for the predictions of strengths of woven z-pinned composites. The changes in the strengths in the in-plane and out-of-plane directions of the woven z-pinned composites and the effects of controlling parameters such as the diameter of z-pin and densities of z-pin on the strengths were identified. It was found that the out-of-plane tensile strength increases 14% relative to that of composite without z-pins when the diameter of z-pin is 0.25 mm. However, the in-plane tensile strength and in-plane and out-of-plane shear strengths were reduced to 9%, 7% and 8%, respectively, over the strengths of composite without z-pins. Qualitatively good correlations are obtained between the results of the suggested model and the experiments.

KW - Fiber waviness

KW - Resin rich zone

KW - Strengths

KW - Unit cell

KW - Woven z-pinned composite

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Effect of Z-pin on the through-the-thickness strength of woven composite laminates

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