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Addressing New Challenges and Emerging Issues in Magnetic Materials
- Magnetic Materials 2018


Thanks for attending Magnetic Materials 2018!!

 2nd International Conference on Magnetism and Magnetic Materials has been successfully completed - The 2nd edition – and we must Thank the attendees, Mercure Budapest Buda- Krisztina körút  & Conference Centre Staff, and the Organizing Committee, Ad-Sponsors & Media partners and everyone else that helped to make this 2nd International Conference on Magnetism and Magnetic Materials with the theme: Addressing New Challenges and Emerging Issues in Magnetic Materials a successful conference.

To Attendees,

We hope that you obtained the kind of advance technical information in the arena of Material Science and Engineering that you were seeking, and that your role in the field has been enhanced via your participation. We hope that you were able to take part in all the sessions and take advantage of the tremendous advancements in Magnetism, Materials Science and Engineering that scientists are working with.

If you have any feedback for us for future consideration or enhancements of this Conference, please provide your feedback to Conference Manager.
Avya Casa at

The meeting covered various sessions, in which the discussions included the scientific tracks:

Magnetism and Magnetic Materials
Hard and Soft Magnetic Materials
Spintronics Effects and Devices
Materials Science and Engineering
Superconductivity and Superfluidity
Functional Magnetic Materials
Magnetization Dynamics
Nano Materials and Nanotechnology

The Keynote presentations were given by:

Georgios K. Kertsopoulos| Independent Private Inventor| Greece

Shailender Gaur| P.W.D. B&R, Br. Hisar| Government of Haryana| India

Wolfgang Kleemann| University Duisburg-Essen| Germany

Sandeep Kumar Srivastava| Central Institute of Technology| India

We offers its heartfelt appreciation to organizations and other eminent personalities who supported the conference by promoting in various modes online and offline which helped the conference reach every nook and corner of the globe. We also took privilege to felicitate the Keynote Speakers, Organizing Committee Members, Chairs and sponsors who supported this event

With the grand success of Magnetic Materials 2018, we are proud to announce the "3rd International conference on Magnetism and Magnetic Materials " to be held during October 16-17, 2018, Barcelona, Spain.

 Bookmark your dates: We hope to see you at Magnetic Materials 2019, at Barcelona, Spain during October 11-12, 2019

Welcome Message


Magnetic Materials 2018 will attract a large group of scientists and researchers around the globe. We extend a warm welcome to the distinguished Nobel laureates, renowned speakers, young researchers, students and delegates from Associations, Societies, Magnetic materials Industries, to attend 2nd International Conference on Magnetism and Magnetic Materials  during September 24-26, 2018 held at Budapest, Hungary hosted by Allied Academies through the theme “Addressing New Challenges and Emerging Issues in Magnetic Materials ”, conference will explore the Magnetism research and latest  technologies and techniques through invited plenary lectures, symposia, workshops, invited sessions, oral and poster sessions, B2B meetings.

This three-day Conference will address key issues concerning magnetism, Magnetic Materials, latest and exciting innovations in all areas of Magnetic Materials and offering a unique opportunity for investigators across the globe to meet, network, and perceive new scientific innovations. The Conference focuses on moving from present knowledge to future scope and advancements. We cordially invite you to contribute through submission of your high-quality research abstracts, posters, and e-posters for presenting at the conference and help to configure the gathering.

Allied Academies is an international collaborative venture incorporating academicians, researchers, scholars and business entrepreneurs to exchange information from past two decades through international scientific meetings and Journals. Established in the year 1997, Andrew John Publishing Group is a specialized Medical publisher that operates in collaboration with the association and societies. The conferences provide a global platform for the attendees to showcase their research and services in front of many key players in the field.

We are a globally recognized and trusted organization to provide unique scientific and business services through our Journals and we are expanding the functionality of our International conferences.


Magnetism and Magnetic Materials 2018 conference paves a platform to globalize the research by installing a dialogue between industries and academic organizations and knowledge transfer from research to industry.Magnetism and Magnetic Materials 2018 aims in proclaim knowledge and share new ideas amongst the professionals, industrialists and students from research areas of magnetism and all the related disciplines to share their research experiences and indulge in interactive discussions and special sessions at the event. Events include hot topics presentations from all over the world and professional networking with industries, leading working groups and panels.

Meet Your Objective Business sector With individuals from and around the globe concentrated on finding out about Magnetism and Magnetic Materials, this is the best chance to achieve the biggest collection of members from everywhere throughout the World. Conduct shows, disperse data, meet with current, make a sprinkle with another product offering, and get name acknowledgment at this occasion.

Market Report


Magnetic Materials 2018 welcomes attendees, presenters, and exhibitors from all over the world to Budapest, Hungary. We are delighted to invite you all to attend and register for the “The 2nd International Conference on Magnetism and Magnetic Materials ” which is going to be held during September 24-26, 2018 in Budapest, Hungary.

The organizing committee is gearing up for an exciting and informative conference program including plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at Magnetic Materials 2018, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Magnetic Materials 2018 organizing committee look forward to meeting you in Budapest, Hungary.

The global market for magnets and magnetic materials reached $32.2 billion in 2016. The market should reach $34.9 billion in 2017 and $51.7 billion by 2022, increasing at a compound annual growth rate (CAGR) of 8.2% from 2017 through 2022. An overview of the global market for magnets and their materials, along with emerging technologies and potential business opportunities in the future.  The report "Soft Magnetic Materials Market by Material Type (Soft Ferrite, Electrical Steel, Cobalt), Application (Motor, Transformer, Alternator), End User Industry (Automotive,Electrical Electronics & Telecommunications) - Global Forecast to 2026", is projected to reach USD 28.15 Billion by 2021, growing at a CAGR of 7.8%, from 2016 to 2021. The increasing demand for materials that can reduce eddy current loss and offer good permeability is driving the usage of soft magnetic materials in many end-user industries such as automotive, electronics & telecommunications, and electrical, among others.
The global permanent magnet market is expected to grow from nearly $13.4 billion in 2015 to roughly $20 billion by 2020, with a compound annual growth rate (CAGR) of 8.4% for the period of 2015-2020. The global market for superconductivity technologies should reach $5.3 billion by 2021 from $3.4 billion in 2016 at a compound annual growth rate (CAGR) of 9.4%, from 2016 to 2021.Insight into the major end-use markets, such as instrumentation and other electronics, appliances and consumer electronics, industrial, and automotive. Global Industry Analyze Soft Magnetic Materials Market by its type, competitive players, regions and applications of Soft Magnetic Materials market, forecast up to 2023. The global Soft Magnetic Materials market will reach xxx Million USD in 2017 and CAGR xx% 2011-2017.


Welcome to the 2nd International Conference on Magnetism and Magnetic Materials. The Conference will be Budapest, Hungary held, during September 24-26, 2018. The Conference will encompass all aspects of magnetism from fundamental physics and new materials to applied magnetics and device technologies. The Magnetism and Magnetic Materials Conference brings together members of the international scientific and engineering communities interested in recent developments on all aspects of fundamental and applied magnetism. Topics range from fundamental magnetism to advances in magnetic recording, emerging applications in energy and power technologies, and biomagnetism. This Conference provides an outstanding opportunity for worldwide participants to meet their colleagues and collaborators and discuss developments in all areas of magnetism research.

Magnetism and Magnetic Materials

The origin of magnetism lies in the orbital and spin motions of electrons and how the electrons interact with one another. The magnetic behavior of materials can be categorized into the following five major groups:

Diamagnetism is an essential property of all matter, though it is usually very weak. It is due to the non-cooperative conduct of orbiting electrons when exposed to an applied magnetic field. Diamagnetic substances are composed of atoms which have no remaining magnetic moments (ie., all the orbital shells are filled and there are no unpaired electrons). But, when exposed to a field, a negative magnetization is formed and therefore the susceptibility is negative.

Paramagnetism materials, some of the irons or atoms in the material have a net magnetic moment due to unpaired electrons in incompletely filled orbitals. One of the significant atoms with unpaired electrons is iron. However, distinct magnetic moments do not interrelate magnetically, and like diamagnetism, the magnetization is zero when field is detached. In the existence of a field, there is now a partial configuration of the atomic magnetic moments in the direction of the field, resultant in a net positive magnetization and positive susceptibility.

Ferromagnetism is the simple mechanism by which some materials form permanent magnets, are attracted to magnets. In physics, distinct types of magnetism are distinguished. Ferromagnetism is the strongest type it is the only one that naturally creates forces strong enough to be felt, and in charge of the common phenomena of magnetism in magnets that happens in everyday life. In ionic compounds, such as oxides, additional complex forms of magnetic ordering can happen as an outcome of the crystal arrangement. One kind of magnetic ordering is called ferrimagnetism. Materials which are not attracted to the magnet are called non-magnetic materials 

Materials that display antiferromagnetism, the magnetic moments of atoms, commonly related to the spins of electrons, align in a systematic pattern with neighboring spins directing in opposite directions. This is, like ferromagnetism and ferrimagnetism, an appearance of ordered magnetism. Normally, the antiferromagnetic order may exist at appropriately low temperatures, disappearing at and above a certain temperature, the Neel temperature  Above the Neel temperature, the material is naturally paramagnetic.


A permanent magnet has a magnetic field. A magnetic field consists of flux lines that produce from the north pole to the south pole and back to the north pole through the magnetic material. Unlike magnetic poles have an attractive force between them but, two like poles repel each other. Once nonmagnetic materials such as paper, glass, wood or plastic are placed in a magnetic field, the lines of force are unchanged. When a magnetic material such as iron is placed in a magnetic field, the flux lines tend to be transformed to pass over the magnetic material. Electricity and magnetism are real consequences of the similar thing. Electromagnetism is a division of physics which contains the study of the electromagnetic force, a type of physical interaction that happens between electrically charged particles. The electromagnetic force usually shows electromagnetic fields, such as magnetic fields, electric fields, and light. The electromagnetic force is one of the four fundamental interactions. The additional three fundamental interactions are the strong interaction, the weak interaction, and gravitation.

Hard and Soft Magnetic Materials

Hard magnetic materials

Hard magnetic materials, strongly repel demagnetization when magnetized They are used, in loudspeakers ,motors, holding devices, and meters, and have cervicitis Hc from some hundred to many thousands of oersteds The majority of permanent magnets are of the ceramic type, followed by the Alnicos and the iron-neodymium, cobalt-samarium, iron-chromium-cobalt, and elongated single-domain types in decreasing order of usage. The complete quality of a permanent magnet is characterized by the highest-energy product (BH)m but dependent on the design concerns, high Hc, high residual induction Br and reversibility of permeability may also be regulatory factors.

To know the relation between the resistance to demagnetization, that is, the metallurgical microstructure,  and coercivity, it is essential to understand the mechanisms of magnetization reversal. The two main mechanisms are reversal against a shape anisotropy and reversal through nucleation and progress of reverse magnetic domains across crystal anisotropy. The Alnicos, the iron-chromium-cobalt alloys, and the ESD Lodex alloys are instances of materials of the shape anisotropy structure, whereas the cobalt-samarium alloys, the iron-neodymium-boron, and barium ferrites alloys are examples of the crystal anisotropy-controlled materials.

Soft Magnetic Materials

Soft magnetic materials are those materials that are simply magnetized and demagnetized. The categories of applications for soft magnetic materials fall into two main categories AC and DC. In DC applications the material is magnetized in order to execute an operation and then demagnetized at the end of the operation, e.g. an electromagnet on a crane at a scrap yard will be swapped on to attract the scrap steel and then switched off to drop the steel. In AC applications the material will be endlessly cycled from being magnetized in a solitary direction to the other, through the period of operation, e.g. a power supply transformer. A high penetrability will be desirable for each form of application but the importance of the other properties varies.

Soft magnetic materials are used for electromagnetic pole-pieces, to increase the fields produced by the magnet. Solenoid switches also depend on soft magnetic materials to activate the switches. Mostly permanent magnet devices will use soft magnetic materials to channel fluidity lines or provide a return path for magnetic fields, e.g. MRI body scanners have huge permanent magnets with a load of soft magnetic material to prevent self-demagnetizing fields that would decrease the field in the gap of the scanner.

Spintronics Effect and Devices

The combination of magnetic materials and impurities into Nanoelectronic devices allows the use of the electron spin, as well as its charge, for transport information.  This new prototype in information processing devices has been called “spintronics” in electronics. Functional spintronic devices include development of new materials and integration of varied materials with atomic-level control. Magnetic tunnel junctions (MTJs) are perfect spintronic devices. They contain three layers, a ferromagnetic metal, an insulator, and another ferromagnetic metal. The insulator is only a limited nanometers thick, which is thin sufficient to allow tunneling of electrons from one metallic electrode to the another. When the magnetizations of the ferromagnetic layers are allied, the tunneling current is huge and the device resistance is little. When the magnetizations of the ferromagnetic layers are anti-aligned, the tunneling current is slight and the device resistance is huge.  If the magnetization of a single electrode is fixed, for example by exchange coupling to a neighboring antiferromagnetic and the other layer can switch dependent on a practical magnetic field, the MTJ display magnetoresistance, in which the resistance state of the device depends on the sign of the applied field.  MTJs are used as sensors in the read heads of magnetic hard disk drives.

Materials Science and Engineering

Materials Science is a commended scientific expanding, discipline in recent decades to surround, ceramics, glass, polymers, biomaterials and composite materials. It involves the discovery and design of novel materials.  Many of the most pressing scientific problems humans presently face are due to the boundaries of the materials that are available and, as a product; major advances in materials science are likely to affect the upcoming of technology considerably.

Nanomaterials and Nanotechnology

Imagine a world where unique phenomena at the molecular scale can lead to entirely new, innovative, and transformative product designs all done by utilizing properties of materials at the Nanoscale level. Nanoscale materials are not new to nature or in science. What is new is the ability to engineer nanomaterial, specifically designed with controlled sizes, shapes, and compositions, in addition to driving down costs through the adaptation of new and improved manufacturing technology. Carbon Nanomaterials are an enabler for technology with seemingly endless potential applications: detecting cancer before it spreads, self-repairing buildings and bridges, filtering water, and powering mobile devices from body heat or movement.  Carbon nanotubes are incredibly small and incredibly strong, 100 times stronger than steel at one-sixth of the density and 10,000 times smaller than one human hair. Graphene is a carbon membrane that, at just one atom thick, is stronger than steel and can tolerate wide temperature and pH ranges.

Superconductivity and Superfluidity

Superconductivity is the property of matter when it displays zero resistance to the flow of electric current. Superfluidity is the property of liquid where it acts as a free or zero tension liquid. Together with this phenomenon are reached actual low temperatures and have a challenge in achieving this period. Also succeeding these phenomenon at high temperature is a challenge to researchers and a bit of work is going on for this. In spite of this, superconductors are having a wide range of presentations in modern-day laboratories and new infrastructures.

Functional Magnetic Materials

The molecule-based magnet is a type of magnetic material.In molecule-based magnets, the physical building blocks are molecular in nature. These building blocks are either organic molecules, coordination compounds or a combination of both. In this case, the unpaired electrons may exist in d or f orbitals on isolated metal atoms, but may also exist in localized p and s orbitals as well as the purely organic classes. Like conventional magnets, they may be categorized as hard or soft, dependent on the magnitude of the coercive field. An additional distinguishing feature is that molecule-based magnets are arranged via low-temperature solution-based techniques, versus high-temperature metallurgical processing or electroplating.  This permits a chemical tailoring of the molecular building blocks to alter the magnetic properties.

Magnetization Dynamics

Atomic-level dynamics includes interactions between magnetization Dynamics, electrons, and phonons. These connections are transmissions of energy generally named relaxation. Magnetization damping can occur through energy transfer (relaxation) from an electron's spin to

Itinerant electrons (electron-spin relaxation)

Lattice vibrations (spin-phonon relaxation)

Spin waves, magnons (spin-spin relaxation)

Impurities (spin-electron, spin-phonon, or spin-spin)

Spin waves are circulating disturbances in the ordering of magnetic materials. These low-lying collective excitations happen in magnetic frames with continuous symmetry. From the corresponding quasiparticle point of view, spin waves are recognized as magnons, which are boson modes of the spin-lattice that agree roughly to the phonon excitations of the nuclear lattice. As the temperature is greater than before, the thermal excitation of spin waves decreases a ferromagnet's spontaneous magnetization. The dynamism of spin waves are naturally only UeV in keeping with typical Curie points at room temperature.


Geomagnetism is the study of the Earth's magnetic field, which is produced in the internal core. The Earth's attractive field is prevalently a geo-hub dipole, with north and south magnetic poles situated close to the geographic poles that undergo periodic reversals and excursions. Gradiometers measure magnetic field gradient rather than total field strength. Magnetic gradient irregularities generally give a superior meaning of shallow covered elements, for example, covered tanks and drums, however, are less helpful for geological tasks. The profundity penetration of magnetic studies is unaffected by high electrical ground conductivities, which makes them valuable on sites with saline groundwater, earth or abnormal amounts of defilement where the GPR and Electromagnetic methods struggle.


Magneto-optics is a kind of magnetic materials. At the point when the light is transferred through a layer of magneto-optic material, the result is known as the Faraday effect the plane of polarization can be rotated, forming a Faraday rotator. The results of reflection from a magneto-optic material are recognized as the magneto-optic Kerr effect. Molecule-based magnets is a sort of magnetic material.

Organizing Committee
OCM Member
Ramesh K. Agarwal
Washington University
michigan, USA
OCM Member
Claudia Masselli
Postdoctoral Research Fellow
University of Salerno
Salerno, Italy
OCM Member
Koichiro Inomata
Emeritus , Department of Electronic Engineering
National Institute for Materials Science
Tokyo, Japan
OCM Member
Roman Boca
University of SS Cyril and Methodius in Trnava
Trnava , Slovakia
OCM Member
Joao Amaral
University of Aveiro
Azores, Portugal
OCM Member
Robert C Pullar
University of Aveiro
Azores, Portugal
OCM Member
Kaiyou Wang
Director of State Key Laboratory for Superlattices & Microstructure
Institute of Semiconductors
Haidian Qu, China
OCM Member
Edouard B Sonin
The Hebrew University of Jerusalem
Haifa, Israel
OCM Member
Osman Adiguzel
Professor, Department of Physics
Firat University
Nigde, Turkey
OCM Member
Peng-Sheng Wei
professor, Department of Mechanical and Electro-Mechanical Engineering
National sun yat-sen university
Kaohsiung, Taiwan
OCM Member
Run-Wei Li
Director of Key Laboratory of Magnetic Materials and Devices
Ningbo Institute of Material Technology &. Engineering
Changqing, China
OCM Member
Ora Entin-Wohlman
Ben Gurion University
Be'er Sheva, Israel
OCM Member
Mrinal Pal
Principal Scientist
CSIR-Central Glass and Ceramic Research Institute, Kolkata.
Kolkata, India
OCM Member
Kalasalingam University
Scientific Program


Barcelona, Spain

Registration Benefits:

Only Registration Includes:

  • Access to All Sessions
  • CPD accredited
  • Coffee break during the conference
  • 2 days breakfast during the conference
  • 2 days Lunch during the conference
  • Handbook & Conference Kit
  • Lunch during the conference
  • Certificate of Presentation
  • B2B meetings

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  • Accommodation for 2 nights: October 15 &16, 2019
  • Above all only registration benefits
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Book your Accommodation Now 

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If Allied Academies cancels this event for any reason, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Allied Academies event which must occur within one year from the date of cancellation.

If Allied Academies postpones an event for any reason and you are unable or unwilling to attend on one of the rescheduled dates, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Allied Academies event which must occur within one year from the date of postponement.

Allied Academies is not responsible for any loss or damage as a result of substitution, alteration or cancellation/postponement of an event. In the unlikely event of cancellation or postponement of the conference due to circumstances beyond Allied Academies reasonable control including but not limited to, acts of terrorism, war, and natural disaster, Allied Academies cannot be held responsible for any cost, damage or expense which may be incurred by registrants as a consequence of the event being postponed or cancelled. Due to any unavoidable circumstances if there is a change in venue of the conference, all the registered participants will be intimated immediately regarding the change.

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