Comparison of bevel and tulip triggered pultruded tubes for energy absorption

Czaplicki, Michael; Robertson, Richard E.; Thornton, Peter

doi:10.1016/0266-3538(91)90041-m

Cited by 61 publications

(32 citation statements)

References 5 publications

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“…(2) delamination or inter-laminar crack growth, Mode II fracture; (3) axial splitting of the middle layer; (4) lamina bundle bending damage and fracture; (5) friction between the platen and the crush zone; (6) friction between the debris wedge and the interior layer; (7) friction between the debris wedge and the middle layer; (8) friction between the middle layer and the exterior layer; and (9) friction between adjacent lamina due to sliding.…”

Section: Energy Dissipation Mechanismsmentioning

confidence: 99%

“…Similar to single-chamfer-triggered pattern, applying this trigger pattern is an efficient way to weaken the peak load, reduce the probability of catastrophic failure and avoid unstable crush. Thornton, Czaplicki and Robertson [8,25] have found that the tulip trigger, incorporated at one end of the square tubes, affords an improvement in the crush stability and nearly 100% increase of the specific energy absorption (SEA) as compared with the bevel trigger. An inner-type jig [28] progressive crushing mode and improve the energy absorption capability.…”

Section: Introductionmentioning

confidence: 99%

“…The tests have also indicated that the energy absorption mechanism of composites is far more complex than those observed in metallic materials, including matrix cracking, matrix crushing, fibre breakage, fibre buckling, delamination and fibre-matrix de-bonding [2,4,11]. The energy absorption characteristics of composite components rely not only on the intrinsic properties of the materials, such as fibre type, matrix type, fibre architecture, fibre content, lamina design and fibre surface treatment [19,21], but also on the crush triggers [6,8,9,[12][13][14][15][16]20,[23][24][25][26][27][28][29] incorporated at appropriate locations in the components to initiate a stable progressive crush in a controlled manner without causing unacceptably high values of peak load or catastrophic failures.…”

Section: Introductionmentioning

confidence: 99%

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On a new crush trigger for energy absorption of composite tubes

Huang

Wang

2010

International Journal of Crashworthiness

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A new crush trigger, called crown trigger, is introduced at one end of carbon-fibre-reinforced polymer circular tubes. Quasistatic compression tests are performed on the tubes to investigate their energy absorption characteristics. It is observed that all tubes are crushed in a brittle fracturing mode. Both crown trigger and bevel trigger can effectively control the position of crushing initiation, reduce the peak load and increase the crushing stability. It is also found that the tube wall of each specimen is delaminated mainly into three layers. The relatively intact exterior layer may constrain the axial splits of the middle layer, make the lamina bundles break off near the base, slow down the central wall crack propagation and thus eliminate a low-performance failure mode. As compared with the bevel trigger, the crown trigger provides nearly the same specific energy absorption but 18.4% lower specific triggering stress and 21.2% higher crushing load efficiency.

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Section: Energy Dissipation Mechanismsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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On a new crush trigger for energy absorption of composite tubes

Huang

Wang

2010

International Journal of Crashworthiness

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“…Axial crushing of E-glass/polyester tubes and E-glass/vinyl ester tubes [11] has shown that certain parameters must be controlled for crushing to proceed satisfactorily. Of primary importance is the control of crack behavior.…”

Section: Discussionmentioning

confidence: 99%

Non-Axial Crushing of E-Glass/Polyester Pultruded Tubes

Czaplicki

Robertson

Thornton

1990

Journal of Composite Materials

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Two types of non-axial crushing, off-axis crushing and angled crushing, have been identified and significant differences found between the E-glass/polyester pultruded tubes crushed in these different configurations. Energy absorption for the two types of crushing was found also to vary significantly with the angle of inclination, with the difference being largest at high angles of inclination. Reasons for energy absorption differences between the crushing configurations include the initiation of different crack patterns, different loading of individual fibers, and altered friction. For all angles, the load required for continued crushing was found to fluctuate more for off-axis crushing than for angled crushing.

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“…Rabiee, H. Ghasemnejad graphite/epoxy and Kevlar/epoxy square cross section tubes. Czaplicki et al [85] reported that significantly higher energy absorption of tulip-triggered specimens were observed compared to bevel triggered specimens of the same geometry and material.…”

Section: Structural Geometrymentioning

confidence: 99%

Progressive Crushing of Polymer Matrix Composite Tubular Structures: Review

Rabiee¹,

Ghasemnejad²

2017

OJCM

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The present paper reviews crushing process of fibre-reinforced polymer (FRPs) composites tubular structures. Working with anisotropic material requires consideration of specific parameter definition in order to tailor a well-engineered composite structure. These parameters include geometry design, strain rate sensitivity, material properties, laminate design, interlaminar fracture toughness and off-axis loading conditions which are reviewed in this paper to create a comprehensive data base for researchers, engineers and scientists in the field. Each of these parameters influences the structural integrity and progressive crushing behaviour. In this extensive review each of these parameters is introduced, explained and evaluated. Construction of a well-engineered composite structure and triggering mechanism to strain rate sensitivity and testing conditions followed by failure mechanisms are extensively reviewed. Furthermore, this paper has mainly focused on experimental analysis that has been carried out on different types of FRP composites in the past two decades.

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Comparison of bevel and tulip triggered pultruded tubes for energy absorption

Cited by 61 publications

References 5 publications

On a new crush trigger for energy absorption of composite tubes

On a new crush trigger for energy absorption of composite tubes

Non-Axial Crushing of E-Glass/Polyester Pultruded Tubes

Progressive Crushing of Polymer Matrix Composite Tubular Structures: Review

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