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Natural Science

Natural Science

Natural Science

ISSN Print: 2150-4091
ISSN Online: 2150-4105
www.scirp.org/journal/ns
E-mail: ns@scirp.org
"Self-repairing material systems―a dream or a reality?"
written by Hartmut Fischer,
published by Natural Science, Vol.2 No.8, 2010
has been cited by the following article(s):
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[3] A bibliometric survey of research trends in vitrimer
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[5] Structural integrity and healing efficiency study of micro-capsule based composite materials via 1H NMR relaxometry
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[6] Self-healing capability and mechanical properties of asphalt mixtures prepared with light-activated polyurethane prepolymer modified asphalt binder
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[7] Intrinsic self-healing potential of asphalt concrete
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[8] Exploring the cracking and healing behaviour of the thin asphalt overlay
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[9] Flow charts as a method to transfer self-sealing from plant models into programmable materials and related challenges
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[10] Theoretical Background of Self-Healing in Asphalt Concrete
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[11] AKILLI MALZEME OLARAK POLİMERLER VE UYGULAMALARI
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[12] Magazine of Civil Engineering
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[13] Self-healing of polymers and polymer composites
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[14] Self-healable fiber-reinforced vitrimer composites: overview and future prospects
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[15] Smart Coatings: Fundamentals, Developments, and Applications
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[16] Concept of self-healing in polymeric materials
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[17] Is this the end of the road for bio-inspired road construction materials?
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[18] Inovativni materijali I tehnologije za izgradnju puteva
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[19] UV-triggered self-healing SiO2/PDA hybrid microcapsules with both enhanced UV-shielding ability and improved compatibility for epoxy resin coating
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[20] Material Design for Enhancing Properties of 3D Printed Polymer Composites for Target Applications
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[21] A methodological review on self-healing asphalt pavements
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[22] Creep and Recovery Behavior of Vitrimers with Fast Bond Exchange Rate
Macromolecular Rapid Communications, 2022
[23] Renewable Vitrimer—A Novel Route Towards Reprocessable and Recyclable Thermosets from Biomass-Derived Building Block
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[24] Microscopic dynamics and rheology of vitrimers using hybrid molecular dynamics and Monte Carlo simulations
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[25] Ecological, Photocatalytic, Superhydrophobic and Self-Cleaning Asphalt Pavement Surfaces
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[26] A Review of Asphaltic Crack Healing Approaches and Its Mechanism
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[27] Review and analysis of advances in functionalized, smart, and multifunctional asphalt mixtures
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[28] Effect of phase selective wetting of hybrid filler on the self-healing properties of rubber blends
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[29] Self-healing polymer/carbon nanotube nanocomposite: a review
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[30] An overview of self-engineering systems
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[31] Self‐Healing Smart Composites
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[32] Sodium alginate emulsions for asphalt concrete modifiers encapsulating: structural rheological properties
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[33] Growing living and multifunctional mycelium composites for large-scale formwork applications using robotic abrasive wire-cutting
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[34] Itsekorjautuvuus polymeeripohjaisissa automaaleissa
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[35] Effect of Mill-Rejected Granular Cement Grains on Healing Concrete Cracks.
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[36] Inhibitor-encapsulated smart nanocontainers for the controlled release of corrosion inhibitors
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[37] Container-based smart nanocoatings for corrosion protection
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[38] Self-healing polymeric coating for corrosion inhibition and fatigue repair
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[39] Mechanomutable Asphalt Materials for the Construction of Smart Pavements
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[40] Materiales Asfálticos Mecanomutables para la Construcción de Pavimentos Inteligentes
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[41] Состояние и перспективы развития технологии самовосстанавливающихся дорожных материалов
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[42] Novel magnetically induced healing in road pavements
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[43] Experimental investigation of the fatigue phenomenon in nano silica-modified warm mix asphalt containing recycled asphalt considering self-healing behavior
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[44] Highly Self-Healable Polymeric Blend Synthesized Using Polymeric Glue with Outstanding Mechanical Properties
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[45] Effect of Mill-Rejected Granular Cement Grains on Healing Concrete Cracks
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[46] Recovery capacity of electroconductive asphalt mortars under the influence of magnetic fields
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[47] Self-healing polymers can lift composites to the next level, bringing solutions for engineering problems from maintenance to recycling
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[48] Volumetric and Rheological Properties of Vitrimers: A Hybrid Molecular Dynamics and Monte Carlo Simulation Study
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[49] A heterocyclic polyurethane with enhanced self-healing efficiency and outstanding recovery of mechanical properties
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[50] Review of Road Materials Self-healing: Problems and Perspective
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[51] Microbial precipitation of calcium carbonate in cementitious materials–A critical review
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[52] Technology of self-healing road pavements: current status and development prospects
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[53] Моделювання бімодальної поведінки самовідновлювальних оптично прозорих систем, схильних до крихкого руйнування
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[55] Modeling the Bimodal Behavior of Self-Repairing Optical Window Systems Prone to Brittle Failure
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[56] Microcapsule-based self-healing materials: Healing efficiency and toughness reduction vs. capsule size
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[57] Synthesis and characterization of multi-cavity Ca-alginate capsules used for self-healing in asphalt mixtures
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[58] Corrosion behavior of polypyrrole (Ppy) coating modified by polyethylene glycol (PEG) doped ammonium bifluoride on AZ31 magnesium alloy
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[59] Mechanical and Self-Healing Performances of Asphalt Mixtures Containing Recycled Asphalt Materials and Light-Activated Self-Healing Polymer
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[60] Vitrimers: Associative Dynamic Covalent Adaptive Networks in Thermoset Polymers
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[61] Development of a self-healing asphalt mixture through the use of encapsulated healing agents/İyileştirici maddeler içeren kapsüller kullanılarak kendini …
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[62] Impact of Diameter and Gap Distance on Partial Discharge Detection in Transformer Oil using RTL-SDR Method
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[63] Polysiloxane-based two-photon fluorescent elastomers with superior mechanical and self-healing properties and their application in bioimaging
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[64] Technological Features of Production Calcium-Alginate Microcapsules for Self-Healing Asphalt
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[65] Performance optimization of one-component polyurethane healing agent for self-healing concrete
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[66] DEVELOPMENT AND CHARACTERISATION OF POLYMER COMPOSITE MATERIALS WITH BIO-INSPIRED FUNCTIONS
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[67] Self-Healing Methods Used in Asphalt Mixtures
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[68] Investigating the electrothermal self-healing bituminous composite material using microcapsules containing rejuvenator with graphene/organic hybrid structure shells
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[69] Self‐Healing Asphalt Review: From Idea to Practice
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[70] Fabrication and Characterization of Novel Electrothermal Self-Healing Microcapsules with Graphene/Polymer Hybrid Shells for Bitumenious Material
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[71] Development of a self-healing asphalt mixture through the use of encapsulated healing agents
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[72] Self-Healing Polymeric Composite Material Design, Failure Analysis and Future Outlook: A Review
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[73] The compartmented alginate fibres optimisation for bitumen rejuvenator encapsulation
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[74] An Evaluation of the Efficiency of Compartmented Alginate Fibres Encapsulating a Rejuvenator as an Asphalt Pavement Healing System
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[75] Rheo-mechanical model for self-healing asphalt pavement
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[76] Self-healing properties of carbon nanotube filled natural rubber/bromobutyl rubber blends.
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[77] Self-healing Epoxy with Epoxy-amine Dual-capsule Healing System
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[78] Self-healing properties of carbon nanotube filled natural rubber/bromobutyl rubber blends
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[79] Technologies for Self Healing of Asphalt Pavements-A Review
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[80] SYNTHESIS AND CHARACTERIZATION OF HEALABLE WATERBORNE POLYURETHANES
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[81] Hybridpartikel, verzweigte Amphiphile und Ionomere für die Selbstreparatur in Polyurethan und Polyurethanschaum
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[82] Triggering the Self‐Healing Properties of Modified Bromobutyl Rubber by Intrinsically Electrical Heating
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[83] Chapter 7 Smart Coatings Including Antibacterial Coatings, Anti-Fogging Coatings and Self-Healing Materials
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[86] Self-healing of densely crosslinked thermoset polymers—a critical
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[88] Active Protective Coatings
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[90] Reinforcements and Composites with Special Properties
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[91] Delivery Systems for Self Healing Protective Coatings
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[92] Self-Healing Coatings for Corrosion Protection of Steel
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[93] Study of quantification methods in self-healing ceramics, polymers and concrete: A route towards standardization
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[94] The reinforcement and healing of asphalt mastic mixtures by rejuvenator encapsulation in alginate compartmented fibres
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[95] Green Polymer Composites Technology: Properties and Applications
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[96] Aerospace materials handbook
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[97] Synthesis and characterization of healable waterborne polyurethanes.
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[98] Crosslinking approaches towards self-healing polymers-“click”-crosslinking and supramolecular clustering;[kumulative Dissertation]
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[99] Crosslinking approaches towards self-healing polymers:“click”-crosslinking and supramolecular clustering;[kumulative Dissertation]
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[100] Deakin University, Geelong, VIC, Australia
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[101] Biomineralization for sustainable construction–A review of processes and applications
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[102] Recent advances in fiber/matrix interphase engineering for polymer composites
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[103] Polyisobutylene Based pH-Responsive Self-Healing Polymeric Gels
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[104] Damage sensing and self-healing materials through microencapsulation process
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[105] Effects of gamma ray and sub-cracks on ethanol-assisted crack healing in poly (methyl methacrylate)
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[106] Self-healing polymeric materials based on microencapsulated healing agents: From design to preparation
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[107] Self-Healing Technology for Asphalt Pavements
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[108] Crosslinking approaches towards self-healing polymers
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[112] Incorporating microcapsules in smart coatings for corrosion protection of steel
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[113] Novel and self-healing anticorrosion coatings using rare earth compounds
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[114] A mathematical model for bacterial self-healing of cracks in concrete
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[118] Self‐healing materials for structural applications
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[120] Self-Healing Polymers via Supramolecular Forces.
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[124] Self‐Healing Polymers via Supramolecular Forces
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[126] Development of Self Repairable Durable Concrete
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[127] Principles of self-healing polymers
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[128] Durability and corrosion of aluminium and its alloys: overview, property space, techniques and developments
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[129] Design and synthesis of self-healing polymers
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[130] Self Repair in Circuits—Automating Open Fault Repair in Integrated Circuits Using Field-Induced Aggregation of Carbon Nanotubes
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[131] Neue Additive und thermoreversible Conetzwerksysteme für selbstheilende NBR-Elastomere
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[132] Mathematical models to predict the critical conditions for bacterial self-healing of concrete
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[133] High Strength Al-Alloys: Microstructure, Corrosion and Principles of Protection
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[134] Two analytical models for the probability characteristics of a crack hitting encapsulated particles: Application to self-healing
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[135] A critical appraisal of the potential of self healing polymeric coatings
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[136] Mathematical Models to Predict the Critical Conditions for Bacterial Self-healing of Concrete.
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[137] Self-Healing at the Nanoscale: Mechanisms and Key Concepts of Natural and artificial systems
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[138] Designing green, self-healing coatings for metal protection
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