About Us

Session-1: Sustainable Energy and Development

Natural resource depletion and population growth around the world have created a worldwide demand for energy. Industries are hoping for renewable sources of energy, super capacitors, battery energy storage, thermoelectric systems, transfer of energy by star cells and fuel cells.  Would you like to grow for Production and processing of electricity, equipment as well as various components, processes and properties are used, for example, batteries such as atomic number 3 battery area units used in many types of mobile devices, as well as appliances, electronics, recreational vehicles, power tools, toys, games, lighting and medical devices. Semiconductor devices have replaced vacuum tubes and diodes, transistors, light-weight emitting diodes (LEDs) for energy efficiency have emerged from these semiconductor materials.

Session 2: Materials &  Mechanism of material

Strength of materials, also called mechanics of materials, deals with the behavior of solid objects subject to stresses and strains. The complete theory began with the consideration of the behavior of one and two dimensional members of structures, whose states of stress can be approximated as two dimensional, and was then generalized to three dimensions to develop a more complete theory of the elastic and plastic behavior of materials. 

Session 3: Engineering Materials & Composite Materials

The Materials used for Manufacturing of engineering products are termed engineering materials. Ability of a nation to harness nature as well as its ability to cope up with the challenges posed by it is determined by its complete knowledge of materials and its ability to develop and produce them for various applications.A materials structure made out of at least two physically unique stages whose blend produces total properties that are different from those of its constituents. Composites can be exceptionally solid and hardened, yet light in weight, so proportions of quality to weight and firmness to weight are a few circumstances more noteworthy than steel or aluminium.

Session 4: Advanced Bio-Materials & Bio-Devices

Biomaterials from social insurance perspective can be characterized as materials those have some novel properties that makes them suitable to come in quick relationship with the living tissue without evoking any unfriendly invulnerable dismissal responses. Biomaterials are in the administration of humankind through old occasions yet ensuing advancement has made them increasingly adaptable and has expanded their utilization. Biomaterials have changed the zones like bioengineering and tissue designing for the improvement of systems to counter perilous maladies. These ideas and advancements are being utilized for the treatment of diseases like cardiac failure, fractures, deep skin injuries, etc. Research is being performed to improve the current strategies and for the development of new methodologies. With the present advancement in biomaterials we can expect a future social insurance which will be financially attainable to us.

Session- 5: Nano Technology Nano Medicine & Drug Delivery

Nano engineering  is set out in view of the fact that science handles the tiny, intense particles or one measurement approximate particles from one to one hundred nm referred to as nanoparticles. These particles are capable of monitoring unique iotas and atoms. Because of the various potential applications, a wide range of tests goes under the nanotechnology throughout the world. Such as surface science, compound science, organic science, semiconductor material science, stockpiling of vitality, little creation, subatomic construction, and soon. Nano technology includes science, design, and innovation, and includes Nano-scale imagery, measurement, display, and control.

Session-6: Analytical Techniques and Instrumentation

Various techniques related to the synthesis of materials to form useful chemical substances constitute the field of analytical study. Instrumental analysis mainly helps us to know the assessment of purity, their chemical composition, structure and function. Analysis of chemical compounds was done to produce results for “what chemicals are present, what are their characteristics and in what quantities are they present?” Basic methods rely on important factors like sample preparation, accuracy, precision and cleanliness. Calibration curves help in the calculation of proper quantities of sample used and also detect the synthesized novel compounds. Certain equipment like electron microscopes, spectrometers, diffractive instruments and so on was employed in the analytical process of a particular synthesis. Scanning Electron Microscope (SEM) helps in microstructural analysis, fault diagnosis, imaging and elemental analysis of solid materials. 

Session-7: Piezoelectric Materials and 3-D Printing

Piezoelectric materials are smart materials that accumulate electrical load at mechanical stress throughout the material surface and this load can alter the material's shape. Ceramic, quartz, quantum dots, etc. are some of these materials. Such digital materials are used in the automotive industry as sensors and actuators. Rapid prototyping, 3dimensional (3D) printing or additive manufacturing (AM) of smart materials such as smart nano composites, shape memory alloys, ceramics, shape memory polymers, soft robotics actuators, self-evolving structures, anti-counterfeiting systems, and 4D printing also included structural material reconfiguration over time.

Session-8: Ceramics & Composite material  A ceramic is an inorganic, non-metallic, solid material comprising metal, non-metal or metalloid atoms primarily held in ionic and covalent bonds. This article gives an overview of ceramic materials from the point of view of materials science. The crystallinity of ceramic materials ranges from highly oriented to semi-crystalline, vitrified, and often completely amorphous (e.g., glasses). Most often, fired ceramics are either vitrified or semi-vitrified as is the case with earthenware, stoneware, and porcelain.A Composite material (also called a composition material or shortened to composite, which is the common name) is a material made from two or more constituent materials with significantly different physical or chemical properties that, when combined, produce a material with characteristics different from the individual components. 

Materials Science also plays a major role in metallurgy. Powder metallurgy is a term that covers a wide range of ways of producing metal powder materials or components. We can eliminate the need to use metal extraction methods, or significantly reduce them, and can reduce costs. Thermal treatment for pyrometallurgy Minerals and metallurgical ores and concentrate to turn the materials physically and chemically in order to recover valuable metals. Full metallurgical expertise will help us remove metal in a more feasible manner and be able to use it to a wider range. The global market for metallurgy will grow modestly It is estimated that the demand will hit 5.4 billion pounds by 2017 (a cost of almost $26.5 billion).

Session-10: Optical, Magnetic and Electronic Materials

Research on optics, magnetic and electronic content combines the principles of many science fields such as solid state physics, chemistry, materials science, electronics, and chemistry. Magnetic materials will be used in research and data processing, super magnetism and spintronics. Industries of semi-conductors and energy. Their optical properties in various materials such as glass, ceramics, electrical, semiconductors, nanopromocytes and polymer fibers have been modified to meet the demands of the energy conservation, national security and commercial sector.

Session 11: Cluster Science & Nano-Toxicology

The branch of Nano toxicology deals with the study relating to the toxicity of the nano materials, as it is imperative to know that how toxic a nano material is before using it for various applications. The effects and impacts on human health also need to be assessed accordingly. The field of Nano toxicology has been growing fast, and literature reviews show that the results are not only numerous but also exciting.Nanoclusters represent a group of nanoparticles having at least one nanoscale dimension and size distribution within a narrow range. They may be composed of the single atom of an element or combinations of atoms of different atom in stoichiometric ratios. The forces that hold these atoms together can be covalent, ionic, metallic, van der Waals forces, or hydrogen bonds. This difference in types of bonding forces involved is the basis of differentiation among the different clusters.

Session-12: Material Synthesis and Characterization

The development of materials with desired structure and properties requires the use of several completely different process phases. The fabric structure, property, and process (Materials Paradigm) should be legendary as a cloth investigator. The fabric cannot be manufactured in business and marketing unless it is cost-effective and it's established a qualitative manufacturing methodology. The process of materials is therefore important to the materials science sector. The model of the subject aids in aviation accidents in rhetorical science, malfunction evaluation, and investigation. Recently, many sensitive materials have emerged or modified synthesis steps through new production methods.

Session 13: Magnetic & Multiferroic Materials

Fascination is one part of the joined electromagnetic drive. It suggests physical miracles rising up out of the propel realized by magnets, fights that make handle that attract or repel various things. The mix of a few ferric arranges in a similar material, founded under the term of Multiferroic, has starting late gotten a lot of thought.

Session 14: Carbon Nanostructures & Graphene

Carbon is solidly connected with almost all that we oversee in a standard calendar. In light of its phenomenal properties, for instance, high strength at characteristic conditions, differing hybridizations, strong covalent bond plan and basic of blends improvement, carbon has been a point of consistent excitement for a couple of locales. A nanostructure is a structure of medium size among moment and nuclear structures. Nano structural detail is a microstructure at the nanoscale.

Graphene is an allotrope of carbon as a two-dimensional, atomic scale, the hexagonal cross-area wherein one particle shapes each vertex. It is the basic helper part of various allotropes, including graphite, charcoal, carbon nanotubes and fullerenes. It can in like manner be considered as an uncertainly significant sweet-smelling iota, a conclusive case of the gathering of level polycyclic fragrant hydrocarbons.

Track 15: Polymers Science & Engineering

Materials Science has a wide range of applications which includes ceramics, composites and polymer materials. Bonding in ceramics & glasses uses both covalent and ionic-covalent types with SiO2 as a basic building block. Ceramics are as soft as clay or else as hard as stone and concrete. Usually, they are in crystalline form. Most glasses contain a metal oxide amalgamated with silica. Applications scale from structural elements such as steel-reinforced concrete to the gorilla glass. 

Market Research: Material research and  Technology 2021 is the global market size for smart materials, which was estimated at USD 32.77 billion in 2016 and is expected to grow steadily at a CAGR of 13.5 present between 2017 and 2025. They display responsiveness to ever-changing environments in a very controlled manner. You need one Molecular structure that allows them to respond to a wide range of external stimuli such as electrical fields, magnetic fields, stress, temperature, humidity, and chemicals.

 

Why to organize this conference:As a result of several edges of Material research, the  Material research and polymer engineering conference area unit organize relies on the fact that it is actually possible to adapt the structures of materials to specific properties at extraordinarily small scales, thereby significantly expanding the materials science toolkit. Taking advantage of Stronger, lighter, a lot of durable, a lot of reactive, a lot of sieve-like, or lower electrical conductors will be effectively created, among several alternative features. Currently on the market and in everyday usage, many daily business service units that have faith in critical materials and processes.

 

 

Material research aims to significantly improve, even revolutionize, various technology and business industries, including information processing, home security office, healthcare, transportation, power, food safety, and biology. A sampling of the chop-chop growing list of software advantages and applications could be listed below.

 

Energy Applications: Material research is finding application in traditional energy sources and is greatly enhancing alternative energy approaches to help meet the world’s increasing energy demands. Many Scientists explore ways of developing clean, affordable and renewable energy sources, along with ways of reducing energy consumption and reducing environmental toxicity burdens.

 

Environmental Remediation: Besides the ways in which smart materials can help improve energy efficiency, there are also many ways in which it can help detect and clean up pollutants. Smart materials can help meet the need for safe, clean drinking water by easily identifying and removing impurities in water at low cost.

 

Future Transportation Benefits: Material research promise to develop multifunctional materials to help build and maintain lighter, safer, smarter, and more efficient vehicles, aircraft, spacecraft, and ships. However, Smart Materials offers a variety of ways to improve transport infrastructure.

 

Scope of conference: Material Researches have multiple applications in various fields of medicine and engineering and, in addition, the increase in demand for good materials is enough to assume that the good materials will have a broad range in the future. The activity on the atomic scale of true good materials remains how off, though Unit area innovation sanctioning under progress. Significant efforts are being made worldwide to develop smart materials and structures, and the technological edges of such systems have also begun to be known, and the demonstration area unit under construction for a wide variety of field and part applications, For engineering and domestic products, these systems area units are recognized as a long-term strategic technology with considerable potential for developing unknown products and improving the performance of existing products in industrial sectors as a way forward for intelligent materials and In fact, this industry provides a number of job openings.

 

 

Business value: The global market for Material research is expected to succeed in USD 98.2 billion by 2025, in line with a report by Grand read analysis, Inc. in depth analysis & innovation activities has expanded the economic applications of sensitive materials. Increased use of sensitive actuators, sensors and motors over the next few years, structural materials are expected to fuel demand. Smart materials are sophisticated items that are capable of detecting and reacting to a wide variety of stimuli, including electrical and magnetic fields, temperature, strain, mechanical stress, hydrostatic pressure, nuclear radiation and alteration. These product's distinctive properties allow them to return to their original state once the stimuli are removed.

 

Top global Universities in the field of Material Research:

 

 

 

 

 

 

 

 

 

 

 

List of Universities in the field of Material Research in Europe:

 

 

 

 

 

 

 

 

 

 

 

List of Universities in the field of Material Research in America:

 

 

 

 

 

 

 

 

 

List of Universities in the field of Material Research in Australia/New Zealand:

 

 

 

 

 

 

 

 

 

 

 

List of Universities in the field of Material Research in Asia/Africa:

 

 

 

 

 

 

 

 

 

 

 

 

Members Associated with Materials Research:

 

 

 

 

Apart from the industrial,other research communities include:

 

 

 

 

 

 Major Materials Research Associations around the Globe:

 

 

 

 

 

 

 

 

 

 

 

Market Growth of Materials Science in the last and upcoming five years: The global market is expected  to reach $6,000 million by 2020 and significantly record a CAGR of 10.2% between 2015 and 2020. Market expansion can be estimated to be powered by a growing demand for oil & gas and construction materials. The region of North Yank remains Followed by Asia-Pacific, the most important market. On the side of the growing concern for building insulation and energy savings, the European market can be calculated to grow at a smooth rate due to economic recovery in the region.

References:

https://www.marketdataforecast.com/market-research

https://www.grandviewresearch.com/

Conclusion:  Materials Research is capable of sensing and reacting to their surroundings. They have the potential to enhance existing technology and add new features to products. They have applications in a wide range of areas and play an important role in the reduction of waste. We have a multi-functional ability to work. Despite decades of research into smart materials and systems, commercial exploitation has been slow. This exploitation has been slowed down by the interdisciplinary nature of the subject and the tension between scientists and designers. Thus we conclude that there is an important role of smart materials in our life.