About the Conference
Euroscicon Ltd invites all the participants from all over the world to attend ‘2nd Edition of International conference on Materials Technology and Manufacturing Innovations' during October 04-05, 2018 in Moscow, Russia, which includes prompt keynote presentations, Oral Talks, Poster Presentations and Exhibitions.
Theme of the conference “Experimenting materials to rewrite the history” is designed in such a way to explore the latest technologies and Innovations in the turf of Materials Science, Metallurgy and Manufacturing Engineering. The target of Materials-Manufacturing 2018 is to present the latest research and results of scientists related to Mechanical, Materials and Manufacturing efforts.
Materials and Manufacturing deals with the multidisciplinary turfs which begins with design, production and development from raw materials into required specific applications. Materials technology is a constantly developing discipline, and latest materials with interesting properties lead to new applications. The Materials-Manufacturing 2018 serves as an annual platform to exchange ideas around the impact of market dynamics and new technologies for current and future manufacturing, operations and supply chain leaders. Whether it is automation, robotics, software, Product Design, 3D printing, wearable’s, safety, lean, supply chain and material handling or augmented/virtual reality the Materials-Manufacturing 2018 is a perfect platform to explore the latest ideas and technologies.
IMPORTANCE AND SCOPE
Materials Technology and Manufacturing Innovations play a vital role in our lives because of its uniqueness in properties and extended application in various industries. The development of Materials Technology will be the key policy makers and bring a new wave as the radical innovations in many application areas.
These are the origin of current technology. Materials research is the heart of many technological developments that touch our lives and find applications such as magnetic materials, electronic materials for communication and information technology, biomaterials for tissue engineering, sensors for intelligent environment, energy materials for renewable energy and environment, light alloys for better transportation, materials for strategic applications and more.
The European countries form the largest market for the materials technology owing to large application use of materials in various industries. Electrical and electronics, metallurgical and chemical products are the major application segments in Europe, North America and Asia pacific markets. Europe has the significant market share in nanomaterial’s market. Reduction in price of materials due to increase in mass production has lead to robust growth of materialstechnology in these regions. Asia Pacific is also expected to witness remarkable growing in the expected period. Increasing government support and funds, rising environmental awareness, and rising demand for specialty materials is expected to boost up the growth of materials and manufacturing market in the foreseeable period.
Manufacturing Innovation is the modern trend in manufacturing engineering and deals with multiple manufacturing practices, research, design, development, processes, machines, tools, and equipment. Manufacturing is a process to turn raw materials into an updated or new product in the best economic, efficient effective productive way. It involves understanding how products and machinery work/ how to design/ make or usage of it. Applying the latest materials and manufacturing technologies, there is robust change from basic steam engines to high-performance automobiles, air-conditioned environments and jet aircraft in society for the better use.
THEME: Experimenting materials to rewrite the history
Materials Science and Technology may be a field of technology that encompasses the spectrum of materials varieties and the way to use them in producing. Materials span the range: metals, ceramics, polymers (plastics), semiconductors, and mixtures of materials known as composites. We have a tendency to sleep in a world that’s each dependent upon and restricted by materials. Everything we have a tendency to see and use is created of materials: cars, airplanes, computers, refrigerators, microwave ovens, TVs, dishes, silverware, athletic instrumentation of all sorts, and even medicine devices like replacement joints and limbs. All of those need materials specifically tailored for his or her application. Specific properties area unit needed that result from fastidiously choosing the materials and from dominant the producing processes wont to convert the essential materials into the ultimate designed product. New materials technologies developed through engineering and science can still build surprising changes in our lives within the twenty first century, and folks in Materials Science and Engineering can still be a key in these changes and advances.
These engineers agitate the science and technology of manufacturing materials that have properties and shapes appropriate for sensible use. Activities of those engineers vary from primary materials production, as well as use, through the planning and development of recent materials to the reliable and economical producing for the ultimate product. Such activities area unit found usually in industries like part, transportation, natural philosophy, energy conversion, and medical specialty systems. The long run can bring ever-increasing challenges and opportunities for brand spanking new materials and higher process. Materials area unit evolving quicker these days than at any time in history. New associate degree improved materials area unit an “underpinning technology” - one which might stimulate innovation and merchandise improvement. prime quality product result from improved process and a lot of stress are going to be placed on reclaiming and use. For these several reasons, most surveys name the materials field collectively of the careers with wonderful future opportunities.
Materials Technology is a field of technology that encompasses the spectrum of materials types and how to use them in manufacturing. Materials span the range: metals, ceramics, polymers (plastics), semiconductors, and combinations of materials called composites. We live in a world that is both dependent upon and limited by materials. Everything we see and use is made of materials: cars, airplanes, computers, refrigerators, microwave ovens, TVs, dishes, silverware, athletic equipment of all types, and even biomedical devices such as replacement joints and limbs. All of these require materials specifically tailored for their application. Specific properties are required that result from carefully selecting the materials and from controlling the manufacturing processes used to convert the basic materials into the final engineered product.
Materials science has always been with us from the ancient times and has always been the backbone of human’s evolution and development. Materials scientists lay stress on understanding how the history of a material influences its structure, and thus its properties and performance. All this factors have paved way for the improvement of the quality of human life to a great extent. Materials Technology 2018 gives you the in-depth analysis of materials research and new definition to your imaginations. Materials Technology 2018 gives you the base to build your own castle of knowledge and makes you completely ready and prepares you for the challenges in material science Industry.
Why to Attend?
With members from around the world focused on learning about the Materials Technology, Manufacturing Innovations, and Metallurgical Engineering this is your single best opportunity to reach the largest assemblage of participants from all over the globe. Conduct demonstrations, distribute information, meet with the current and potential customers, make a splash with a new product line, and receive name recognition at this prestigious event.
- Materials and Manufacturing Technology Students, Scientists
- Materials and Manufacturing Technology Researchers
- Materials and Manufacturing Technology Faculty
- Materials and Manufacturing Technology Colleges
- Materials and Manufacturing Technology Associations and Societies
- Business Entrepreneurs
- Training Institutes
- Manufacturing Medical Devices Companies
World-renowned speakers, the recent techniques and the latest updates along with the advances in the fields of Materials Technology and Manufacturing Innovations.
Come be Part of it...!
Major Materials Science Associations around the Globe
• American Chemical Society (ACS)
• American Physical Society (APS)
• The Materials Information Society (ASM International)
• The Materials Research Society (MRS)
• Microscopy Society of America (MSA)
• The Minerals, Metals & Materials Society (TMS)
• Sigma Xi: The Scientific Research Society
• International Society for Optical Engineering (SPIE)
• The American Ceramic Society (ACerS)
Major Materials Science Associations in Russia
Materials Research Society of Russia (MRS-R)
ISMAN Russian Academy of Sciences
Top Universities in Russia
- St. Petersburg State University
- ITMO University
- Tomsk State University
- Novosibirsk State University
- Kazan Federal University
- Peter the Great St. Petersburg Polytechnic University
- Ural Federal University National University of Science and Technology (MISIS)• Sigma Xi: The Scientific Research Society
- International Society for Optical Engineering (SPIE)
- The American Ceramic Society (ACerS)
Geometric Analysis of Universities
We welcome you all to the International Conference on Materials Technology and Manufacturing Innovations. Materials and Manufacturing 2018 provides you the life-time chance to explore and enrich your information in materials science and technology. This material technology congress provides you the chance to act with eminent and notable academicians, scientists, industrialists and young students connected to the sphere of materials science and engineering below one roof in one podium to find out, share and prosper your information in one in all the foremost numerous and undiscovered topics.
Sessions & Tracks
Materials science plays an important role in metallurgy too. Powder metallurgy is a term covering a wide range of ways in which materials or components are made from metal powders. They can avoid, or greatly reduce, the need to use metal removal processes and can reduce the costs. Pyro metallurgy includes thermal treatment of minerals and metallurgical ores and concentrates to bring about physical and chemical transformations in the materials to enable recovery of valuable metals. A complete knowledge of metallurgy can help us to extract the metal in a more feasible way and can used to a wider range. Global Metallurgy market will develop at a modest 5.4% CAGR from 2014 to 2020. This will result in an increase in the market’s valuation from US$6 bn in 2013 to US$8.7 bn by 2020. The global market for powder metallurgy parts and powder shipments was 4.3 billion pounds (valued at $20.7 billion) in 2011 and grew to nearly 4.5 billion pounds ($20.5 billion) in 2012. This market is expected to reach 5.4 billion pounds (a value of nearly $26.5 billion) by 2017.
- Extractive metallurgy
- Powder metallurgy
- Light Metals
- Welding and Coatings
Manufacturing Innovation is the current trend in production engineering and deals with various manufacturing practices, research, design, development, processes, machines, tools, and equipment. Manufacturing is a process to turn raw materials into an updated or new product in the best economic, efficient and effective way. It involves understanding how products and machinery work/ how to design/ make or use of it. From basic steam engines to high-performance automobiles, air-conditioned environments and jet aircraft, Manufacturing Innovations has changed society for the better.
- Advanced manufacturing
- Manufacturing technology strategies
- Machine tools and metal fabrication
- Lean manufacturing
- Design & Engineering
- IoT/Smart manufacturing
Nanotechnology is the handling of matter on an atomic, molecular, and supramolecular scale. The interesting aspect about nanotechnology is that the properties of many materials alter when the size scale of their dimensions approaches nanometers. Materials scientists and engineers work to understand those property changes and utilize them in the processing and manufacture of materials at the nanoscale level. The field of materials science covers the discovery,characterization, properties, and use of nanoscale materials. Nanomaterials research takes a materials science-based approach to nanotechnology, influencing advances in materials metrology and synthesis which have been developed in support of microfabrication research. Materials with structure at the nanoscale level o have unique optical, electronic, or mechanical properties. Although much of nanotechnology's potential still remains un-utilized, investment in the field is booming. The U.S. government distributed more than a billion dollars to nanotechnology research in 2005 to find new developments in nanotechnology. China, Japan and the European Union have spent similar amounts. The hopes are the same on all fronts: to push oneself off a surface on a growing global market that the National Science Foundation estimates will be worth a trillion dollars. The global market for activated carbon totaled $1.9 billion, in 2013, driven primarily by Asia-Pacific and North American region for applications in water treatment and air purification.
- Carbon nanotubes
- Risks and regulation of nanotechnology
- Nanophotonics and optics
- Surface nanoscience
Characterization, when used in materials science, refers to the broader and wider process by which a material's structure and properties are checked and measured. It is a fundamental process in the field of materials science, without which no scientific understanding of engineering materials could be as curtained. Spectroscopy refers to the measurement of radiation intensity as a function of wavelength. Microscopy is the technical field of using microscopes to view objects that cannot be seen with the naked eye. Characterization and testing of material is very important before the usage of materials. Proper testing of material can make the material more flexible and durable. Research indicates the global material testing equipment market generated revenues of $510.8 million in 2011, growing at a marginal rate of 3.1% over the previous year. The market is dominated by the ‘big three’ Tier 1 competitors, namely MTS Systems Corporation, Instron Corporation, and Zwick/Roell, while other participants have performed better regionally, such as Tinus Olsen in North America and Shimadzu Corporation in Asia Pacific.
- Micro and macro materials characterization
- Computational models and experiments
- Microscopic and Spectroscopic techniques
- Advances in characterization techniques
- Mechanics of materials
- Experimental and measurement tests
Biomaterials from healthcare viewpoint can be defined as “materials those possess some novel properties that makes them appropriate to come in immediate association with the living tissue without eliciting any adverse immune rejection reactions. Biomaterials are in the service of mankind through ancient times but subsequent evolution has made them more versatile and has increased their usage. Biomaterials have transformed the areas like bioengineering and tissue engineering for the development of strategies to counter life threatening diseases. These concepts and technologies are being used for the treatment of different diseases like cardiac failure, fractures, deep skin injuries, etc. Research is being performed to improve the existing methods and for the innovation of new approaches. With the current progress in biomaterials we can expect a future healthcare which will be economically feasible to us. Equipment and consumables was worth US$ 47.7 billion in 2014 and is further expected to reach US$ 55.5 billion in 2020 with a CAGR (2015 to 2020) of 3%.
- Metallic biomaterials
- Biomaterials for biological engineering
- Dental Biomaterials
- Biomaterials Industry and Market analysis
- Polymer biomaterials
- 3D printing of biomaterials
- Ceramic biomaterials
- Self-assembly of biomaterials
- Tissue engineering and Regenerative Medicine
- Drug delivery system
Materials science has a wider range of applications which includes ceramics, composites and polymer materials. Bonding in ceramics and glasses uses both covalent and ionic-covalent types with SiO2 as a basic building block. Ceramics are as soft as clay or as hard as stone and concrete. Usually, they are crystalline in form. Most glasses contain a metal oxide fused with silica. Applications range from structural elements such as steel-reinforced concrete, to the gorilla glass. Polymers are also an important part of materials science. Polymers are the raw materials which are used to make what we commonly call plastics. Specialty plastics are materials with distinctive characteristics, such as ultra-high strength, electrical conductivity, electro-fluorescence, high thermal stability. Plastics are divided not on the basis of their material but on its properties and applications. The global market for carbon fiber reached $1.8 billion in 2014, and further the market is expected to grow at a five-year CAGR (2015 to 2020) of 11.4%, to reach $3.5 billion in 2020. Carbon fiber reinforced plastic market reached $17.3 billion in 2014, and further the market is expected to grow at a five-year CAGR (2015 to 2020) of 12.3%, to reach $34.2 billion in 2020.
- Building materials
- Ceramics and glasses
- Magnetic materials
- Composite materials
- Iron and steel
- Optical materials
Materials Science and Engineering is an acclaimed scientific discipline, expanding in recent decades to surround polymers, ceramics, glass, composite materials and biomaterials. Materials science and engineering, involves the discovery and design of new materials. Many of the most pressing scientific problems humans currently face are due to the limitations of the materials that are available and, as a result, major breakthroughs in materials science are likely to affect the future of technology significantly. Materials scientists lay stress on understanding how the history of a material influences its structure, and thus its properties and performance. All engineered products from airplanes to musical instruments, alternative energy sources related to ecologically-friendly manufacturing processes, medical devices to artificial tissues, computer chips to data storage devices and many more are made from materials. In fact, all new and altered materials are often at the heart of product innovation in highly diverse applications.
- Fundamentals and computational modeling
- Processing and manufacturing
- Coatings and surface engineering
- Structural materials
- Metrology and measurement
- Functional and recycled materials
- Materials theory and culture
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. Advanced Materials are at the heart of many technological developments that touch our lives. Electronic materials for communication and information technology, optical fibers, laser fibers sensors for intelligent environment, energy materials for renewable energy and environment, light alloys for better transportation, materials for strategic applications and more. Advance materials have a wider role to play in the upcoming future years because of its multiple uses and can be of a greater help for whole humanity. The global market for conformal coating on electronics market the market is expected to grow at a CAGR of 7% from 2015 to 2020. The global market for polyurethanes has been growing at a CAGR (2016-2021) of 6.9%, driven by various application industries, such as, automotive; bedding and furniture; building and construction; packaging; electronics and footwear.Track 8-1Optical fibers and laser technologies
- Smart materials
- Sensors and actuators
- NEMS and MEMS
- Programmable matters
- Insulating materials
- Multiscale and multifunctional materials
- Smart grid and robots
- Thermal spray
Different geophysical and social pressures are providing a shift from conventional fossil fuels to renewable and sustainable energy sources. We must create the materials that will support emergent energy technologies. Solar energy is a top priority of the department, and we are devoting extensive resources to developing photovoltaic cells that are both more efficient and less costly than current technology. We also have extensive research around next-generation battery technology. Materials performance lies at the heart of the development and optimization of green energy technologies and computational methods now plays a major role in modeling and predicting the properties of complex materials. The global market for supercapacitor is expected to grow from $1.8 billion in 2014 to $2.0 billion in 2015 at a year-on-year (YOY) growth rate of 9.2%. In addition, the market is expected to grow at a five-year CAGR (2015 to 2020) of 19.1%, to reach $4.8 billion in 2020.
- Biomass and bioenergy
- Superconductors and supercapacitors
- Solar cells
- Rechargeable technologies
- Energy harvesting technologies
- Materials for energy saving and sustainability
- Quatntum dot devices
- Piezeoeletric materials and thermoelectrics
Materials chemistry involves the synthesis and study of materials that have interesting and potentially useful electronic, magnetic, optical, and mechanical properties. Material chemistry is one of the most talked topics in the last few years. They are the new branch of materials science which takes advantage of new developments in chemistry. In fact, chemistry may provide a complete new board of materials for materials scientists and engineers to use. Chemistry began, and largely continues today, to be inextricably associated with preparing, processing, and utilizing materials. Much of the focus of materials chemistry in discovering and developing materials that may be exploited for desired applications. Today, many materials chemists are synthesizing functional device materials, and the discipline is often seen as directed towards producing materials with function—electrical, optical, or magnetic. Material chemistry is involved in the designing and processing of materials. Global market for catalysts is expected to reach $28.5 billion by 2020, growing at a CAGR (2015 to 2020) of over 3%. Asia-Pacific is having the largest market for catalysts accounting for more than 35% share. Major players for Catalysts are Albemarle, Arkema, BASF, Chevron, Clariant, Dupont, Zeolyst International and others.
- Corrosion and environmental effects
- Polymer chemistry
- Soft matter materials chemistry
- Materials at high-pressure
Ceramics cover a very wide range of materials from structural materials like concrete to technical ceramics like PZT – a piezoelectric. Usually they are defined as solids with a mixture of metallic or semi-metallic and non-metallic elements (often, although not always, oxygen), that are quite hard, non-conducting and corrosion-resistant. The most useful technique for finding the composition of a ceramic is energy dispersive x-ray spectroscopy (EDS). Ceramics are mostly made by powder processing techniques, for example sintering . Composites are often used in applications that require specific ‘conflicting’ properties such as a high strength and high toughness. The properties may be conflicting because having a high yield stress sometimes relies on trapping and tangling dislocations, but these reduce the ductility and toughness of the material. Composites often consist of a matrix and fibres or particles that affect the properties.
- Thermoplastic carbonates in medical devices
- Silicone elastomers in cosmetics
- Polyesters in clothing and food packaging industries
- Polyacrylates in paints and varnishes
- Polymer quenchants for Industrial Heat treatment
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Materials Science and Engineering: A | Materials & Design Journal of Mechanical Working Technology | Computational Materials Science | Bioprinting | Applied Superconductivity | Advanced Powder Technology | Additive Manufacturing | 3D-Printed Materials and Systems | Applied Adhesion Science | Materials for Renewable and Sustainable Energy | Materials Theory | Journal of Advanced Ceramics | IEEE Transactions on Nanobioscience | Journal of Laser Micro Nanoengineering | Journal of Nanophotonics | Reviews on Advanced Materials Science | ACS Applied Materials & Interfaces Nanotechnology | Nano medicine and nano biotechnology | Precision Engineering| Advanced Functional Materials
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