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Single channel microvascular delivery for self-healing polymer composites
Brett P. Krull
, Yelizaveta Fedonina
, Scott R White
,
Nancy R. Sottos
Aerospace Engineering
Beckman Institute for Advanced Science and Technology
Materials Research Lab
Technology Entrepreneur Center
Mechanical Science and Engineering
Center for Advanced Study
Materials Science and Engineering
Research output
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Contribution to conference
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Paper
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peer-review
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Keyphrases
Autonomous Delivery
25%
By Design
25%
Chaotic Flow
25%
Crack Separation
25%
Damage Zone
25%
Fiber-reinforced Composites
25%
Hardener
25%
Healing Agent
100%
High Viscosity
25%
In-situ Mixing
25%
Microfluidic Device
25%
Microvascular Architecture
25%
Microvascular Channels
25%
Microvascular Network
25%
Microvascular System
25%
Modular Design
25%
Neat Polymers
25%
Polymer Reinforced Composite
25%
Pressurization
50%
Resin
25%
Self-healing Chemistry
25%
Self-healing Functionality
25%
Self-healing Polymer Composites
100%
Single Channel
100%
Small Crack
25%
Static Pressure
25%
Surface Energy
25%
Surface Stoichiometry
25%
Surface Viscosity
25%
Two-component System
25%
Vascular Architecture
25%
Vascularization
25%
Vasculature
25%
Material Science
Fiber-Reinforced Composite
100%
Polymer Composite
100%
Polymerization
100%
Self-Healing Polymer
100%
Small Crack
100%
Surface Energy
100%