Conferences related to Self-healing Materials

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2021 IEEE Photovoltaic Specialists Conference (PVSC)

Photovoltaic materials, devices, systems and related science and technology


2020 IEEE International Conference on Plasma Science (ICOPS)

IEEE International Conference on Plasma Science (ICOPS) is an annual conference coordinated by the Plasma Science and Application Committee (PSAC) of the IEEE Nuclear & Plasma Sciences Society.


2020 IEEE International Magnetic Conference (INTERMAG)

INTERMAG is the premier conference on all aspects of applied magnetism and provides a range of oral and poster presentations, invited talks and symposia, a tutorial session, and exhibits reviewing the latest developments in magnetism.


2020 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)

All areas of ionizing radiation detection - detectors, signal processing, analysis of results, PET development, PET results, medical imaging using ionizing radiation


2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


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Periodicals related to Self-healing Materials

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Communications Magazine, IEEE

IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...


Device and Materials Reliability, IEEE Transactions on

Provides leading edge information that is critical to the creation of reliable electronic devices and materials, and a focus for interdisciplinary communication in the state of the art of reliability of electronic devices, and the materials used in their manufacture. It focuses on the reliability of electronic, optical, and magnetic devices, and microsystems; the materials and processes used in the ...


Dielectrics and Electrical Insulation, IEEE Transactions on

Electrical insulation common to the design and construction of components and equipment for use in electric and electronic circuits and distribution systems at all frequencies.


Distributed Systems Online, IEEE

After nine years of publication, DS Online will be moving into a new phase as part of Computing Now (http://computingnow.computer.org), a new website providing the front end to all of the Computer Society's magazines. As such, DS Online will no longer be publishing standalone peer-reviewed articles.


Electrical Insulation Magazine, IEEE

The magazine covers theory, analysis, design (computer-aided design), and practical implementation of circuits, and the application of circuit theoretic techniques to systems and to signal processing. Content is written for the spectrum of activities from basic scientific theory to industrial applications.


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Xplore Articles related to Self-healing Materials

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Self-healing materials for autonomous cable repair

CIRED - Open Access Proceedings Journal, 2017

Self-healing materials are capable, when damaged, of responding to restore the pre-damage properties of an asset. This is of particular interest for high- value electrical assets which cannot be routinely accessed for preventive maintenance or repair, such as underground or offshore cables. The incorporation of self-healing materials would effectively allow these systems to maintain themselves, resulting in enhanced resilience, lower ...


Self-healing electrical insulation systems

2016 IEEE International Conference on Dielectrics (ICD), 2016

Self-healing materials (SHMs) are capable of autonomously repairing minor damages, thereby restoring the pre-damage characteristics of the material. Such materials are of great interest for high-voltage assets, particularly those that are difficult or prohibitively expensive to access such as underground or subsea cables, transformers, and generator stators. In these systems, preventative maintenance is rarely possible so otherwise minor damage can ...


Smart Materials in Construction Technology

2018 International Conference on Smart City and Emerging Technology (ICSCET), 2018

Smart materials are the materials which have the ability to respond to changes in their condition or the environment to which they are exposed, in a useful and usually repetitive manner. Structures that incorporate smart materials are called as “Smart Structures”. Smart materials are developed which responds to environmental stimuli such as pressure, temperature and wind. Smart materials used in ...


Developments in functional materials for extended performance dielectrics

2018 12th International Conference on the Properties and Applications of Dielectric Materials (ICPADM), 2018

Achieving high performance electrical power assets for higher voltage and higher ampacity applications in both alternating and direct current networks requires dielectric materials with increasingly enhanced performance. This paper will examine a number of developments in functional materials that enable new materials to be formulated that can meet some of the key challenges while enabling an appropriate balance of properties ...


Self-healing electrical insulation systems

2017 INSUCON - 13th International Electrical Insulation Conference (INSUCON), 2017

Self-healing materials (SHMs) are those which, when damaged, are capable of responding to restore their pre-damage state. As such, they are of particular interest for deployment within high-value assets which cannot be readily accessed or maintained, including underground and offshore cables. Although SHMs confer a number of benefits upon the host asset, it is necessary to consider a range of ...


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Educational Resources on Self-healing Materials

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IEEE.tv Videos

Transportation Electrification: San Diego Gas & Electric's Implementation of the SmartGrid
Robot Ethics in the Era of Self-Driving Automobiles
Spatial-Spectral Materials for High Performance Optical Processing - IEEE Rebooting Computing 2017
EMBC 2011-Keynote-From Nature and Back Again ... Giving New Life to Materials for Energy, Electronics, Medicine and the Environment - Angela Belcher, PhD
GHTC 2012 - Robert Freling Keynote
IMS 2012 Microapps - Bonding Materials used in Multilayer Microwave PCB Applications
Did You Know: Irwin Jacobs is HKN?!
Wanda Reder: Educational Materials for Expert and Non-Expert — IEEE Power and Energy Society’s “Plain Talk” — Studio Tech Talks: Sections Congress 2017
Behind Artificial Neural Networks
Practical Steps Towards Self-Driving Networks - Kireeti Kompella - IEEE Sarnoff Symposium, 2019
Multi-Function VCO Chip for Materials Sensing and More - Jens Reinstaedt - RFIC Showcase 2018
Unconventional Superconductivity: From History to Mystery
Autonomous Driving & Driverless Cars - Grant Imahara and Paul Godsmark from CAVCOE
Unique Fixtures for Characterizing Electromagnetic Properties of Materials at THz Frequencies: MicroApps 2015 - Keysight Technologies
Care Innovations: Green Engineering (com legendas em portugues)
Nanotechnology, we are already there: APEC 2013 KeyTalk with Dr. Terry Lowe
Robotics History: Narratives and Networks Oral Histories: Chuck Thorpe
Norha Villegas: The Role of Models at Runtime in Smart Cyber Physical Systems: WF IoT 2016
EMBC 2011 -Keynote- Applications and Opportunities for Wearable Technology in Physiological Monitoring -Dale Wiggins
Landing in a Self-Flying Airplane. Ready for it? - Antonio Crespo

IEEE-USA E-Books

  • Self-healing materials for autonomous cable repair

    Self-healing materials are capable, when damaged, of responding to restore the pre-damage properties of an asset. This is of particular interest for high- value electrical assets which cannot be routinely accessed for preventive maintenance or repair, such as underground or offshore cables. The incorporation of self-healing materials would effectively allow these systems to maintain themselves, resulting in enhanced resilience, lower failure rates, and longer operational lifetimes. Here, the authors demonstrate self-repair systems for extruded polymeric cables containing an extruded polymer self- repair layer, and self-healing fluids for legacy fluid-filled circuits. Both self-healing candidates have been formulated for their specific applications and demonstrate excellent efficacy, with ability to move to large-scale trials planned for the near future in advance of routine deployment.

  • Self-healing electrical insulation systems

    Self-healing materials (SHMs) are capable of autonomously repairing minor damages, thereby restoring the pre-damage characteristics of the material. Such materials are of great interest for high-voltage assets, particularly those that are difficult or prohibitively expensive to access such as underground or subsea cables, transformers, and generator stators. In these systems, preventative maintenance is rarely possible so otherwise minor damage can progress, unchecked, to failure. At this stage, it become s necessary to repair or replace the affected component, which is time-consuming and expensive. Although SHMs can represent substantial savings to systems operators, their incorporation into existing equipment designs is not trivial. As well as conferring self-healing capabilities upon the asset in question, the SHMs must be capable of functioning under operational conditions and avoid corrupting critical material properties (e.g., mechanical strength, electrical breakdown strength, etc.). The self-healing mechanism itself must also be carefully considered, as many systems will only allow a single healing cycle, or be triggered by very specific environmental conditions. Here, we illustrate these challenges with a number of examples drawn from recent research activity on self-healing systems for both solid and fluid filled insulation, and demonstrate how self-healing mechanisms can be used to effect practical self- repair.

  • Smart Materials in Construction Technology

    Smart materials are the materials which have the ability to respond to changes in their condition or the environment to which they are exposed, in a useful and usually repetitive manner. Structures that incorporate smart materials are called as “Smart Structures”. Smart materials are developed which responds to environmental stimuli such as pressure, temperature and wind. Smart materials used in construction technology includes self healing coatings, smart concrete, shape shifting metals, transparent metals, aerogels etc which will change the construction technology in near future. A new material known as shape shifting material has been developed that once deformed will automatically return to its original shape when heated. Concrete is the major building material used in construction industry but it is vulnerable and starts to collapse when it comes in contact with environmental stimuli such as water, wind, stress and pressure. A new type of smart concrete contains dormant bacteria and when they come into contact with stimuli like water, they create limestone, filling up the cracks and thus creating a self-healing repair mechanism. The coatings, made with polymers internally react with one another when ruptured, thus creating a self-healing mechanism. Transparent metals and aerogels are the futuristic materials which will replace the conventional building materials and will play a crucial role in the development of smart cities. Identifying the conventional moiety between Materials Science and construction technology, the paper intent to show how these two fields are inherently connected. This paper provides a comprehensive review of the types of smart materials for construction technology, giving a new vision into innovative processes and techniques, providing new inspiration in the field of architectural design and construction technology.

  • Developments in functional materials for extended performance dielectrics

    Achieving high performance electrical power assets for higher voltage and higher ampacity applications in both alternating and direct current networks requires dielectric materials with increasingly enhanced performance. This paper will examine a number of developments in functional materials that enable new materials to be formulated that can meet some of the key challenges while enabling an appropriate balance of properties to be achieved. Currently, these developments are informed by some a priori molecular modelling, multi- scale modelling and simulation but also through the use of simple concepts based on experimental observation. We will illustrate this using examples drawn from recent work on thermoplastic polymer blends, nanocomposite dielectrics and self-healing materials having self-repair function.

  • Self-healing electrical insulation systems

    Self-healing materials (SHMs) are those which, when damaged, are capable of responding to restore their pre-damage state. As such, they are of particular interest for deployment within high-value assets which cannot be readily accessed or maintained, including underground and offshore cables. Although SHMs confer a number of benefits upon the host asset, it is necessary to consider a range of factors when selecting a suitable chemistry, and the SHM itself should not negatively effect critical component properties. Here, we present two potential self-healing solutions for underground cables insulated either with a layer of extruded polymer, or tightly-lapped paper impregnated with a low-viscosity mineral oil. Both systems have demonstrated excellent self-healing when challenged under conditions analogous to sheath defects, and are in the process of being scaled up for field trials prior to deployment as business as usual.

  • Evolution and Analysis of Genetic Networks for Stable Cellular Growth and Regeneration

    A computational model is presented that simulates stable growth of cellular structures that are in some cases capable of regeneration. In the model, cellular growth is governed by a gene regulatory network. By evolving the parameters and structure of the genetic network using a modified evolution strategy, a dynamically stable state can be achieved in the developmental process, where cell proliferation and cell apoptosis reach an equilibrium. The results of evolution with different setups in fitness evaluation during the development are compared with respect to their regeneration capability as well as their gene regulatory network structure. Network motifs responsible for stable growth and regeneration that emerged from the evolution are also analyzed. We expect that our findings can help to gain a better understanding of the process of growth and regeneration inspired by biological systems, in order to solve complex engineering problems, such as the design of self- healing materials.

  • Introduction to Nanotechnology

    This tutorial introduces the subject of nanotechnology to the beginner. Nanotechnolgoy will be defined and different nanomaterials will be presented. This course will explain what is special about nanotechology and why nanoproperties are different from bulk properties. Several examples will be presented that will examine the impact of nanotechnology on each economic sector.

  • Book Reviews [7 Reviews]

    The following books are reviewed: Extreme-Temperature and Harsh-Environment Electronics by V. K. Khanna; Advances in Magnetic Materials—Processing, Properties, and Performance by S. Zhang and D. Zhao; Self-Healing Materials by G. Wypych; Renewable Energy Integration, 2nd Edition by L. E. Jones; High- Power Converters and AC Drives, 2nd Edition by B. Wu and M. Narimani; Power System SCADA and Smart Grids by M. S. Thomas and J. D. McDonald; Energy Storage by G. M. Crawley.



Standards related to Self-healing Materials

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