Yu et al., 2016 - Google Patents
Interfacial welding of dynamic covalent network polymersYu et al., 2016
View PDF- Document ID
- 556897616765189912
- Author
- Yu K
- Shi Q
- Li H
- Jabour J
- Yang H
- Dunn M
- Wang T
- Qi H
- Publication year
- Publication venue
- Journal of the Mechanics and Physics of Solids
External Links
Snippet
Dynamic covalent network (or covalent adaptable network) polymers can rearrange their macromolecular chain network by bond exchange reactions (BERs) where an active unit replaces a unit in an existing bond to form a new bond. Such macromolecular events, when …
- 238000003466 welding 0 title abstract description 55
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Yu et al. | Interfacial welding of dynamic covalent network polymers | |
| Rajawasam et al. | Educational series: characterizing crosslinked polymer networks | |
| Wornyo et al. | Nanoindentation of shape memory polymer networks | |
| Xu et al. | Constitutive modeling of shape memory polymer based self-healing syntactic foam | |
| Voyiadjis et al. | Large scale atomistic simulation of size effects during nanoindentation: Dislocation length and hardness | |
| Huang et al. | Characterizing polymer brushes via surface wrinkling | |
| Bode et al. | Characterization of self-healing polymers: From macroscopic healing tests to the molecular mechanism | |
| Yu et al. | Viscoelastic–viscoplastic cyclic deformation of polycarbonate polymer: experiment and constitutive model | |
| Shisode et al. | Preparation and characterization of microcapsules containing soybean oil and their application in self-healing anticorrosive coatings | |
| Barbaz-Isfahani et al. | Multi-scale modeling and experimental study on electrosprayed multicore microcapsule-based self-healing polymers | |
| Yu et al. | A computational model for surface welding in covalent adaptable networks using finite-element analysis | |
| Khan et al. | Influence of nanoparticle size on the mechanical and tribological characteristics of TiO2 reinforced epoxy composites | |
| He et al. | Cyclic welding behavior of covalent adaptable network polymers | |
| Bellamine et al. | Design of nanostructured waterborne adhesives with improved shear resistance | |
| Arjmandi et al. | From wet to protective: film formation in waterborne coatings | |
| Verma et al. | Nanocomposites for extrinsic self-healing polymer Materials: A comprehensive review of their repair behaviour | |
| Marur | Influence of imperfect interface on the elastic moduli of syntactic foams | |
| Coady et al. | Highly cross‐linked UV‐cured siloxane copolymer networks as icephobic coatings | |
| Han et al. | Restoration of compressive strength of CFRP plates with edge delamination through CNT crack-bridging deposited by resin pre-coating solution | |
| Palmer et al. | How particle deformability influences the surfactant distribution in colloidal polymer films | |
| Xiu et al. | Engineering internal nanostructure in 3D‐printed materials via polymer molecular weight distribution | |
| Liu et al. | Prediction on fatigue life of U‐notched PMMA plate | |
| Kajihara et al. | Penetrative fracture behavior of monolayer graphene oxide: nanoscale experiment and molecular dynamics simulation | |
| Zhang et al. | Film Thickness Dependence of Surface and Internal Morphology Evolution in Polymer-Grafted Nanocomposites | |
| Xu et al. | Time and temperature dependent mechanical behavior of HFPE-II-52 polyimide at high temperature |