Meetings International presents the Advanced Material Engineering Conference, scheduled on October 20-21, 2021 at Osaka, Japan, which will allow the professional to characteristic their exploration of work through introductions and have a probability to select up mastering about the present circumstance of Advanced Material Engineering. Major attractions of this event would revolve around keynote presentations, oral presentations and poster presentations. This year we are focusing on the theme “Advancing the research & innovation on Materials Engineering ".
Materials engineering to be the constantly trending subject matter with modern day research technologies. Everyone who explores to strengthen their knowledge and gain extended about advanced technical cleverness is welcome to present/get new ideas. Materials Engineering Conference captivates individuals both from commercial and academic worlds yet establishes a firm link and binds us together with the recent updated accomplishments. We provide a good opportunity by admiring your updated research and also by publishing it in our respective journals. We assure our attendees return to their place with the self-belief to improve their abilities and outfitted with certified approaches to work with us. This meeting will allow the attendees to acquire these new updates and share their experiences with well-recognized speakers globally.
Session 1: Materials Engineering and Technology
Material Engineering is that the part of science manages the structure, properties, execution, portrayal, and technique for materials that identified with material science and technology development or assembling like metals, polymers, earthenware production, and composites, and so on. Through the assistance of the material science, we'll capture the historical backdrop of the material like physical and substance properties so in this way a reason material science and building choices a wonderful extension altogether in expository new technology and designing, nanotechnology, biomaterials, metallurgy, disappointment examination, examination materials.
Session 2: Advanced Materials Devices
The aim of Advance material Engineering is to report on outcomes that deliver new perceptions into, or considerably accepting the properties of materials or phenomena related with their design, synthesis, processing, description, and operation. Simulation of finite systems and electronic structure methods comes under computational Materials Engineering. Interatomic models are also termed as force fields. All features of modern materials modelling are of interest, together with quantum chemical methods, density functional theory, semi-empirical and classical approaches, statistical mechanics, atomic-scale simulations and phase-field techniques.
Scientific Session 3: Advanced Biomaterials and bio devices
The design and development of biomaterials play a significant role in the diagnosis, treatment, and prevention of diseases. When used with highly selective and sensitive biomaterials, cutting-edge bio devices can allow the rapid and accurate diagnosis of disease, creating a platform for research and development, especially in the field of treatment for prognosis and detection of diseases in the early stage. This book emphasizes the emerging area of biomaterials and bio devices that incorporate therapeutic agents, molecular targeting, and diagnostic imaging capabilities.
Scientific Session 4: Graphene and 2D Materials
Graphene was the primary 2nd material to be isolated. Graphene and different two-dimensional materials have a protracted list of distinctive properties that have created it a hot topic for intense research and also the development of technological applications. These even have Brobdingnagian potential in their title or together with Graphene. The extraordinary physical properties of Graphene and different 2nd materials have the potential to each enhance existing technologies and additionally produce a spread of latest applications. Pure Graphene has associate degree exceptionally big selection of mechanical, thermal and electrical properties. Graphene may greatly improve the thermal physical phenomenon of a fabric rising temperature reduction. In applications that need terribly high electrical physical phenomenon Graphene will either be employed by itself or as associate degree additive to different materials. Even in terribly low concentrations Graphene will greatly enhance the power of electrical charge to flow in an exceedingly material. Graphene’s ability to store electricity at terribly high densities is outstanding. This attribute, additional to its ability to apace charge and discharge, makes it appropriate for energy storage applications.
Scientific Session 5: Emerging Smart Materials
The medieval era where stone, bronze, steel was used, now ceramics, minerals developed, from which metallurgical fields were born. Research on metals, alloys, silica and carbon manometry has been researched in physics, chemistry, thermodynamics and many other areas of science. Material Science has now revolutionized the metals and alloys from semiconductor, plastic, biomaterials, rubbers, polymers, magnetic materials, medicinal implant materials, nanometers, etc. And it has not stopped yet! Smart structures are tools made from smart materials capable of feeling stimuli, respond to it and return to their original state after removing the stimuli. Self-healing materials, magnetic and thermoelectric materials, polycaprolactone are emerging smart structures, etc.
Scientific Session 6: Polymer Science & Engineering
Polymer science and engineering is the field of science that studies the synthesis and applications of chemical compound materials (polymers). Crystallization and polymerization of polymers, chemical compound engineering science, materials science and physics study and apply chemical compounds in many applications like lithium-ion polymer battery (LiPo), electro active polymers, chemical compound brush, self- assembled chemical compound films, chemical element nano spheres, collagen, enzymes, elastin, cellulose, chitin, plastics, fibers, and adhesives. Sensible materials like electricity materials, self-healing, and from memory polymers have additionally return underneath analysis during this field.
Scientific Session 7: Biosensors and Bioelectronic Materials
The biosensor is an analytical device which converts a biological response into an electrical signal. The device is made up of a transducer and a biological element that may be an enzyme, an antibody or a nucleic acid. The characteristic identifying segment can be a substance, a receptor counter pro, or DNA. Bioelectronics is used to help improve the lives of people with disabilities and diseases. For example, the glucose monitor is a portable device that allows diabetic patients to control and measure their blood sugar levels. Bioelectronics is used to help improve the lives of people with disabilities and diseases. For example, the glucose monitor is a portable device that allows diabetic patients to control and measure their blood sugar levels.
Scientific Session 8: Materials for Green Technology
Green technology incorporates a constantly developing group of procedures and materials from techniques for creating energy to non-toxic cleaning products. At present the expectation of this field is to bring innovation and changes in daily life of similar scale to the information technology evolution over past two decades. Sustainability is addressing the necessities without yielding the ability addressing the necessities without yielding the ability of future generations to meet their own requirements. The reduction of waste and pollution by the change in patterns of consumption and production is termed as source reduction. To reduce the use and generation of hazardous substances the invention, design and application of chemical products is known as green chemistry.
Scientific Session 9: Nanotechnology
Nanotechnology is rapidly evolving and is merged with the field of Materials Science. Nanotech-level smart materials or nanomaterial’s synthesis can have different properties for finding healthcare, construction, and material applications in the material industry. Nanotechnology is rapidly evolving and it has been mixed in the field of materials science. Nano-level smart materials or nanometers to synthesis materials industry can have different properties to find healthcare, construction, and content applications.
Session 10 : Sustainable Energy and Development
Depletion of natural resources and a worldwide increase in population has created a worldwide demand for energy. Materials hope for renewable energy sources, super capacitors, energy storage in batteries, thermo electrical devices, energy conversion through star cells and fuel cells. For the growing would like for production and energy storage, systems as well as numerous materials, operations and properties are used, for instance, batteries like atomic number 3 batteries area unit employed in numerous kinds of mobile devices, as well as installation, computers, recreation devices, power tools, toys, games, lighting, and medical devices. Semiconductor devices have replaced vacuum tubes and from these semiconductor materials diodes, transistors, light-weight emitting diodes (LEDs) have emerged for energy efficiency.
Session 11: 3D printing materials
After over a year of research, countless filament spools, and hundreds of hours of printing, our team is proud to present the Ultimate 3D Printing Materials Guide. Covering over a dozen of the most popular materials in use today, this guide will help you select the best material for your next project or improve the quality of your prints with tips from our experts. Use the tags below to quickly sort the materials based on their characteristics, or view our extensive Filament Properties Table for a detailed side-by-side comparison. Once you have selected a material, view a detailed article with pros and cons, hardware requirements, best practices, pro-tips, example projects and more! Whether you’re new to 3D printing or an advanced user looking to experiment with a new material, this guide has everything you need to make the most of your next project.
Session 12: Advanced Ceramics & Composite Materials
Ceramic materials are inorganic and non-metallic porcelains, tiles, enamels, cements, glasses and refractory bricks. Today, "ceramics" has gained a wider meaning as a new generation of materials influence on our lives; electronics, computers, communications, aerospace and other industries rely on a number of their uses. In general, advanced ceramic materials include electro-ceramics, optoelectronic-ceramics, superconductive ceramics and the more recent development of piezoelectric and dielectric ceramics. They can be considered for their features including mechanical properties, decorative textures, environmental uses, energy applications, as well as their usage in bio-ceramics, composites, functionally graded materials, intelligent ceramics and so on.
Market Size & Forecast:
Global materials engineeing market is expected to reach USD 1,978,331.6 Million by the end of 2024 from USD 1,370,242.2 Million in 2016. Advanced material market is anticipated to achieve absolute $ opportunity of USD 510,244.1 Million 2018-2024. Additionally, advanced material segment is expected to grow at a CAGR of 5.1% over the forecast period i.e. 2018-2024. Moreover, advanced material segment is expected to observe the growth rate of 1.3x over the forecast period. Advanced Material segment is expected to achieve Y-o-Y growth rate of 6.4% in 2024 as compared to previous year.
Materials Engineering in Asia:
In terms of regions, Asia Pacific is slated to account for a leading share of 58.0% by 2024 in the Materials Engineering market. The growth in the region can be attributed to increasing number of industries and rising manufacturing activities in this region. Besides, rapid industrialization and urbanization in developing Asian countries such as China and India is also expected to impel the growth of advanced material market in the Asia Pacific. China is the prominent market driving the growth in the region. China advanced material market was held at USD 389,099.1 Million in 2016 and is anticipated to reach USD 530,564.7 Million by the end of 2024. China Materials Engineering market accounted for a market share of 47.8% in 2016 and further, is expected to stood at a market share of 46.2% by the end of 2024. In addition to this, Europe region is also anticipated to witness satisfactory growth during the forecast period. Economies such as U.K., Spain are likely to be the key contributors to the growth of advanced material market in this region. Furthermore, rising demand for energy in Middle East & Africa region is expected to fuel the growth of Materials Engineering market in this region.
This fast development and prosperity have also given Japan a population density among the world’s highest, with the allure of such a strident economy and the ease of doing business proving hard to resist for many immigrants. It is also known for its cleanliness – famously, you aren’t allowed to chew gum in Japan, to ensure none ends up on the pavements – as well as for its punctual public transport and clear roads filled with gleaming automobiles, for which time-limited certificates of entitlement must be purchased. Singapore also has very strict laws against drug use, leading to one of the lowest rates of drug use in the world. Japan’s science and technology transformation over 50 years mirrors her remarkable leap from survival to excellence. Fifty years ago, technology served a functional role, today it is the central engine powering an ambitious economy. Singapore’s water technology, port management capability and petrochemical ecosystem are noteworthy. With the increasingly competitive global technology landscape, it is crucial that Japan has developed in scientific research also. Environmental and Water Technologies sector and the Interactive and Digital Media sector were identified as rapid growth areas for development.
Scope and Importance:
Materials Engineering is an expansive, different and multidisciplinary field. It is consistent cooperation with fundamental teaches and is additionally adding to address all Grand Societal Difficulties. This commitment is to such an extent that various reports have been delivered as of late in Europe and world - wide, with the point of illustration an exhaustive picture and proposing facilitated activities towards the foundation of rational systems in the field. The present report buys into this viewpoint, with a specific objective which is to add to the foundation of a thorough perspective on the job in effective advancement of key empowering innovations.
Growth Drivers & Challenges:
Rising electrical & electronics sector and development of aerospace sector is expected to drive the growth of advanced materials market over the forecast period. Continuous enhancement in research and development activities regarding Lithium-ion battery has found a decrease of 80% in the past 6 years due to which purchase of Lithium-ion battery has increased due to its low cost. Further, this factor is anticipated to drive the growth of materials engineering market. According to OICA, 94.7 million motor vehicle productions was held to be in 2016. Moreover, this represented a Y-o-Y growth of 5.0% as compared to 2015. Additionally, automotive production is anticipated to increase on the account of rising demand. This factor signals promising growth of the materials engineering market. Increasing construction solutions provided by steel makers for buildings and infrastructure is expected to drive the market at a significant rate across the forecast period. In contrast with, high cost of materials engineering such as Nanomaterial's and other such product is anticipated to limit the growth of advanced materials market over the forecast period.
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Expert Level (Scientific Research Award)
Meetings International is announcing Young Scientist Awards through Materials Engineering Conference (Materials Engineering 2021) which is scheduled at Osaka, Japan during October 20-21, 2021. This Materials Engineering focuses on “Advancing the Research & Innovation on Materials Engineering "
Materials Engineering 2021 and upcoming conferences will recognize participants who have significantly added value to the scientific community of Materials Engineering and provide them outstanding Young Scientist Awards. The Young Scientist Award will provide a strong professional development opportunity for young researches by meeting experts to exchange and share their experiences at our international conferences.
Materials Engineering 2021 focuses mainly on Materials Engineering and Technology, Advanced Materials Devices, Advanced Biomaterials and bio devices, Graphene and 2D Materials, Emerging Smart Materials, Polymer Science & Engineering, Biosensors and Bioelectronic Materials. Materials engineering operating committee is providing a platform for all the budding young researchers, young investigators, post-graduate/Master students, PhD. students and trainees to showcase their research and innovation.
Young Scientists, faculty members, post-doctoral fellows, PhD scholars and bright Final Year MSc and M.Phil. candidates. Persons from Scientific Industry can also participate.
Benefits: The Young Scientist Feature is a platform to promote young researchers in their respective area by giving them a chance to present their achievements and future perspectives.
Conditions of Acceptance:
To receive the award, the awardee must submit the presentation for which the award is given, for publication at the website, along with author permission. Failure to submit the PPT, and permission within the designated timeframe will result in forfeiture of award.
Official announcement of the recipients will occur after the completion of Materials Engineering Conference.
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