17251131[PMID] - PMC

Figure 10. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

Intra-ply shear cracks intercepting HGF within a self-healing CFRP laminate.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 1. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

Schematic of different hollow fibre self-healing approaches ().

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 4. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

Comparative load–displacement curves under four-point bend for undamaged, damaged and healed for 70 μm spaced HGF.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 2. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

Typical hollow glass fibre (35 μm external diameter with 55% hollowness fraction).

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 7. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

HGF spaced at 70 μm showing (a) good embedment and (b) fibre clumping within host laminate.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 8. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

HGF spaced at 200 μm showing (a) consistent spacing and (b) excellent embedment within host laminate.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 3. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

Location of resin and hardener self-healing filaments intermingled within an E-glass ply in the 16-ply stacking sequence of the composite laminate.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 9. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

(a) Damage distribution within laminate, (b) damage infiltration with healing resin and fluorescent dye, (c) delaminations deviating from interface and (d) propagating along interface causing HGF fracture.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

Figure 5. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

Impact damaged cross-section of [0°/+45°/90°/−45°]_2s GFRP laminate containing healing filaments at the +45°/90° and −45°/90° interfaces.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

10.

Figure 6. From: Bioinspired self-healing of advanced composite structures using hollow glass fibres.

Crushed-healing fibres located under the impact site viewed under (a) normal and (b) UV illumination. Healing resin bridging cracked interface viewed under (c) normal and (d) UV illumination.

R.S Trask, et al. J R Soc Interface. 2007 Apr 22;4(13):363-371.

Citation Full text

PMC

Result Filters

Article attributes

Text availability

Publication date

Custom date range

Research Funder

Additional filters

Display Settings:

PMC Full-Text Search Results

Items: 10

Display Settings:

Supplemental Content

Recent activity