Experimental study on z-pin bridging law by pullout test

Shao Cong Dai; Wenyi Yan; Hong Yuan Liu; Yiu Wing Mai

doi:10.1016/j.compscitech.2004.04.005

Experimental study on z-pin bridging law by pullout test

Shao Cong Dai, Wenyi Yan, Hong Yuan Liu, Yiu Wing Mai

Research output: Journal article publication › Journal article › Academic research › peer-review

147 Citations (Scopus)

Abstract

This paper presents an experimental study on the evaluation of bridging law for a z-pin. The relationship between the z-pin bridging force and its displacement was measured by z-pin pullout tests. The tests were carried out using three types of samples with: single small pin; 3 × 3 small-pins (three columns × three rows) and 3 × 3 big-pins. For 3 × 3 small-pins samples, a typical pullout curve with initial bonding, debonding and frictional sliding was obtained. A high peak value of the debonding force was reached before z-pin debonding started. After debonding was initiated, the pullout force dropped rapidly to a lower value, the pins were then pulled out steadily against friction. However, for samples with 3 × 3 big-pins, it was difficult to discern the peak debonding force. The major results of this study are expected to provide a better physical understanding of the mechanics and mechanisms of z-pin bridging, aside from an efficient and accurate methodology to measure the crack-bridging law.

Original language	English
Pages (from-to)	2451-2457
Number of pages	7
Journal	Composites Science and Technology
Volume	64
Issue number	16
DOIs	https://doi.org/10.1016/j.compscitech.2004.04.005
Publication status	Published - Dec 2004
Externally published	Yes

Keywords

Pullout test
Z-pin reinforcement

ASJC Scopus subject areas

Ceramics and Composites
General Engineering

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10.1016/j.compscitech.2004.04.005

Cite this

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title = "Experimental study on z-pin bridging law by pullout test",

abstract = "This paper presents an experimental study on the evaluation of bridging law for a z-pin. The relationship between the z-pin bridging force and its displacement was measured by z-pin pullout tests. The tests were carried out using three types of samples with: single small pin; 3 × 3 small-pins (three columns × three rows) and 3 × 3 big-pins. For 3 × 3 small-pins samples, a typical pullout curve with initial bonding, debonding and frictional sliding was obtained. A high peak value of the debonding force was reached before z-pin debonding started. After debonding was initiated, the pullout force dropped rapidly to a lower value, the pins were then pulled out steadily against friction. However, for samples with 3 × 3 big-pins, it was difficult to discern the peak debonding force. The major results of this study are expected to provide a better physical understanding of the mechanics and mechanisms of z-pin bridging, aside from an efficient and accurate methodology to measure the crack-bridging law.",

keywords = "Pullout test, Z-pin reinforcement",

author = "Dai, {Shao Cong} and Wenyi Yan and Liu, {Hong Yuan} and Mai, {Yiu Wing}",

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AU - Dai, Shao Cong

AU - Yan, Wenyi

AU - Liu, Hong Yuan

AU - Mai, Yiu Wing

PY - 2004/12

Y1 - 2004/12

N2 - This paper presents an experimental study on the evaluation of bridging law for a z-pin. The relationship between the z-pin bridging force and its displacement was measured by z-pin pullout tests. The tests were carried out using three types of samples with: single small pin; 3 × 3 small-pins (three columns × three rows) and 3 × 3 big-pins. For 3 × 3 small-pins samples, a typical pullout curve with initial bonding, debonding and frictional sliding was obtained. A high peak value of the debonding force was reached before z-pin debonding started. After debonding was initiated, the pullout force dropped rapidly to a lower value, the pins were then pulled out steadily against friction. However, for samples with 3 × 3 big-pins, it was difficult to discern the peak debonding force. The major results of this study are expected to provide a better physical understanding of the mechanics and mechanisms of z-pin bridging, aside from an efficient and accurate methodology to measure the crack-bridging law.

AB - This paper presents an experimental study on the evaluation of bridging law for a z-pin. The relationship between the z-pin bridging force and its displacement was measured by z-pin pullout tests. The tests were carried out using three types of samples with: single small pin; 3 × 3 small-pins (three columns × three rows) and 3 × 3 big-pins. For 3 × 3 small-pins samples, a typical pullout curve with initial bonding, debonding and frictional sliding was obtained. A high peak value of the debonding force was reached before z-pin debonding started. After debonding was initiated, the pullout force dropped rapidly to a lower value, the pins were then pulled out steadily against friction. However, for samples with 3 × 3 big-pins, it was difficult to discern the peak debonding force. The major results of this study are expected to provide a better physical understanding of the mechanics and mechanisms of z-pin bridging, aside from an efficient and accurate methodology to measure the crack-bridging law.

KW - Pullout test

KW - Z-pin reinforcement

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IS - 16

ER -

Experimental study on z-pin bridging law by pullout test

Abstract

Keywords

ASJC Scopus subject areas

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