EuroSciCon International Conference and Expo on Ceramics and Composite Materials is hosted by EuroSciCon Ltd. and it is focused on the : Exploring and Innovating the Advancements in Ceramics and materials Science. Ceramics 2019 aims in proclaim knowledge and share new ideas amongst the professionals, industrialists and students from research areas of Ceramics and Composite Materials, Materials Science and Engineering to share their research experiences and indulge in interactive discussions and technical sessions at the event. The conference will be a platform to globalize one research, to share scientific experiences, to gain knowledge of new technologies and regulations. The conference is scheduled for Jan 28-29, 2019 in Dubai,UAE. We invite sponsors and exhibitor to showcase your products to our participants and make it reach the public through them. We request you to make use of this opportunity to make the world a better place to live in.
WHAT IS NEW?
Ceramics 2019 includes international attendee workshops, lectures and symposia, including a designated registration area, a refreshment break and gala lunch.Ceramics and material science Researchers can join the EuroSciCon as an international member to receive discounts on registration. So come and join leading experts and allied professionals from Jan 28-29, 2019 in Dubai,UAE to keep up with the rapidly accelerating pace of change that is already having an impact on the field of Ceramics Engineering and Material science.
WHY TO ATTEND?
Ceramics 2019 conference provides a striking opportunity of being connected and gaining contacts with delegates who are active in the concerned field. Networking enables sharpening skills, spark inspiration and uncover new ideas during break-out sessions providing tea and lunch for the delegates. The important subjects are addressed by the expertise keynote speakers with global recognition thus conferring knowledge on the new technologies and the latest drift in the domain. The international Ceramics and composite materials conference accents the prominent keynote speakers, plenary speeches, poster presentations, technical workshops and career guidance sessions
- Materials Scientists
- Ceramics scientists
- Chemical Engineers
- Materials Engineers
- Academic Professors
- Junior/Senior research fellows of Materials Science/ Ceramics/Nanotechnology/ Polymer Science
- Members of different Materials science associations
- Members of different Ceramics associations
- Members of different nanotechnology associations
Dubai is one of the seven emirates that make up the United Arab Emirates (UAE) on the Arabian Peninsula.The Emirate of Dubai is the second largest of the seven United Arab Emirates . According to the census conducted by the Statistics Centre of Dubai, the population of the emirate was 1,771,000 as of 2009, which included 1,370,000 males and 401,000 females. As of June 2017, the population is 2,789,000. The region covers 1,287.5 square kilometres (497.1 sq mi). The population density is 408.18/km2 – more than eight times that of the entire country.Dubai is a global city and business hub of the Middle East. It is also a major global transport hub for passengers and cargo. Oil revenue helped accelerate the early development of the city. Dubai has attracted world attention through large construction projects and sports events, in particular the world's tallest building, the Burj Khalifa .. Dubai is the second most expensive city in the region and 20th most expensive city in the world. Dubai has been called the "shopping capital of the Middle East.
Track 1 : Ceramic Engineering
Ceramic engineering is the science and technology of creating objects from inorganic, non-metallic materials. This is done either by the action of heat, or at lower temperatures using precipitation reactions from high-purity chemical solutions. The word Ceramics covers inorganic, non metallic, solid materials that have been hardened by baking at a high temperature. The most important of these were the traditional clays, made into pottery, dinnerware, bricks, and tiles. Ceramics have high hardness, high compressive strength, and chemical inertness.
- Ceramic Forming Techniques
- Ceramic Processing steps
- Ceramics Applications in Aerospace Industry
- Transparent Ceramics
Track 2: Composite Materials
Composite materials are formed with two distinct materials, which join to give properties better than those of the individual constituents. In composite materials produced using metal and Ceramics, a metallic substrate material is fortified with Ceramic hardened particles. This makes it possible to combine the low weight of the metal with the resistance of ceramics. They ordinarily result in lighter, stronger, more durable solutions contrasted with conventional materials. The principle properties of the materials are Weight reduction, Durability and Maintenance, Added functionality, Design freedom
- Ceramic,Metallic and polymer matrix composites
- Graphene materials
- Fabrication methods
- Robotic Materials
Track 3: Ceramics and Glasses
The purpose of ceramics processing to an applied science is the natural result of an increasing ability to refine, develop, and characterize ceramic materials. The crystallinity of ceramic materials ranges from highly oriented to semi-crystalline, and often completely amorphous (e.g., glasses). Varying crystallinity and electron consumption in the ionic and covalent bonds cause most ceramic materials to be good thermal and electrical insulators and extensively researched in ceramic engineering.
Track 4: Sintering
The impact of electrical fields on different Phenomena in ceramic science is an emerging area which deals with the ceramic materials at higher temperatures and furthermore the sintering attributes appeared by materials. Sintering is the process of compacting and shaping a solid mass of material by heat and/or pressure without melting it to the point of liquefaction. Sintering happens normally in mineral deposits or as a manufacturing process utilized with metals, Ceramics, plastics, and different materials.
- Flash Sintering
- Field Assisted Sintering Alumino Silicates
- Microwave Sintering
- Electric current assisted sintering
Track 5: Nanostructured Ceramics
Metal oxides represent an assorted and appealing class of materials whereby the field of metal oxide nanostructured morphologies has become one of the most active research areas within the nano-science community. The ability to manufacture ceramics with an intrinsic nanostructure enables the resulting ceramic materials to be optimized for a specific purpose.
- Properties of Ceramic Nano particles
- Nano Particles application and synthesis
- Nano fabrication
- Applications of Nano Technology in Ceramics
- Nano structured coatings
Track 6: Advanced Ceramic Materials
Ceramic-like inorganic polymers can be made under low energy conditions such as ambient temperatures and pressures. These materials include aluminosilicates or Geopolymers, phosphates and other chemically bonded inorganic compounds. Advanced ceramics such as alumina, aluminum nitride, zirconia, silicon carbide, silicon nitride and titania-based materials, each with their own specific characteristics, offer a high-performance, economic alternative to conventional materials such as glass, metals and plastics.
- Chemically bonded ceramics
- Coating and Glazing
- Powder synthesis
Track 7: Electro-magnetic and optical ceramics and devices
A few of the major photonics organizations on the planet sees on various advancements and suppositions about future difficulties for makers and integrators of lasers and photonics items. The silicon photonics advertise is foreseen to develop to $497.53 million by 2020, extending at a CAGR of 27.74% from 2014 to 2020. The silicon carbide semiconductors advertise is evaluated to develop $3182.89 Million by 2020, at a normal CAGR of 42.03% from 2014 to 2020.Film Dosimetry and Image Analysis
- Semiconductor materials
- Fabrication of integrated circuits
- Soft and Hard magnetic materials
- Dielectric materials
- Electronic and ionic conduction
- Ferro electricity and piezoelectricity
- Magnetic Storage
Track 8: Ceramics Applications
The thermal stability, wear-resistance and resistance to corrosion of ceramic components make the application of ceramic the ideal choice for many industrial uses. Ceramic Applications is the new platform for advances in the development of ceramic components and their integrative design in complex industrial solutions to realize sustainable, economic applications in the wide range of user segments.
- Ceramics in Medical Technology
- Ceramics in Automotive Industry
- Ceramics in Mechanical &Metal Industry,
- Ceramics in Chemical Process Engineering
Track 9: Bioceramics and Medical Applications
Bioceramics are an important subset of biomaterials. Bioceramics range in biocompatibility from the ceramic oxides, which are inert in the body, to the other extreme of resorbable materials, which are eventually replaced by the body after they have assisted repair. Bioceramics are used in many types of medical procedures. Bioceramics are typically used as rigid materials in surgical implants, though some bioceramics are flexible. The ceramic materials used are not the same as porcelain type ceramic materials. Rather, bioceramics are closely related to either the body's own materials or are extremely durable metal oxides.
- BioCeramics in Tissue Engineering
- Bioceramics for Dental Application
- Bioceramics for Cancer Therapy
Track 10: Simulation of Materials Processing and Technologies
Characterization alludes to the broad and general process by which a material's structure and properties are analyzed and measured. It is a fundamental methodology in the field of materials science, without which no legitimate perception of materials could be discovered. An enormous scope of methods is utilized to portray different plainly visible properties of materials, including: Mechanical testing, including elastic, compressive, and torsional, crawl, exhaustion, durability and hardness testing. Differential warm investigation (DTA) Dielectric warm examination and so on.. Structure is a champion among most essential part in the field of materials science. Materials science examines the structure of materials from the nuclear scale, quite far up to the full scale. Depiction is the way materials scientists assess the structure of a material. This incorporates procedures, for instance, diffraction with X-shafts, electrons, or neutrons, and diverse sorts of spectroscopy and substance investigation, for instance, Raman spectroscopy, vitality dispersive spectroscopy (EDS), chromatography, warm examination, electron magnifying instrument examination, et cetera. Structure is found out at various levels.
- Casting, Forming and Machining
- The Evolution of Material Properties Under the Specific Conditions
- Surface Engineering
- Design and Behavior of Equipment and Tool
Track 11: Surface Engineering and Ceramic Coating
Surface Engineering is the sub-discipline of materials science which deals with the surface of solid matter. It has applications to chemistry, mechanical engineering, and electrical engineering (particularly in relation to semiconductor manufacturing).Surface Coating is any mixture of film forming materials plus pigments, solvents and other additives which when applied to a surface and cured or dried, yields a thin film that is functional and often decorative. Surface coatings involve paints, drying oils and varnishes, synthetic clear coatings and other products whose primary function is to protect the surface of an object from the environment
- Optical Properties
- Electrical properties of ceramics
Track 12: Ultra-High Temperature Ceramics
Ultra-High Temperature Ceramics are a family of compounds that display a unique set of properties, including extremely high melting temperatures (>3000°C), high hardness and good chemical stability and strength at high temperatures. Structural materials for use in high-temperature oxidizing environments are presently limited mostly to SiC, Si3N4, oxide ceramics and composites of these materials. The maximum use temperatures of siliconhttps://ceramics.euroscicon.com/registration-based ceramics is limited to ~1600°C due to the onset of active oxidation (lower temperatures in water vapour environments), whilst oxides have exhibited high creep rates at higher temperatures. The improvement of Structural materials for use in oxidizing and quick warming situations at temperatures over 1600°C is hence of awesome designing significance.
- Processing of Ultra- High Temperature Ceramics
- Applications of UHT ceramics
- Properties of Ultra- High Temperature Ceramics
Track 13:Nano Composites
Nanocomposite is a multiphase strong material where one of the stages has one, a few measurements of under 100 nanometers (nm), or structures having nano-scale rehash removes between the diverse stages that make up the material. In the broadest sense this definition can incorporate permeable media, colloids, gels and copolymers, yet is all the more normally interpreted as meaning the strong mix of a mass grid and nano-dimensional stages contrasting in properties because of dissimilarities in structure and Chemistry. The mechanical, electrical, Thermal, optical, electrochemical, reactant properties of the nanocomposite will vary particularly from that of the segment materials. Estimate limits for these impacts have been proposed, <5 nm for reactant action, <20 nm for making a hard attractive material delicate, <50 nm for refractive list changes, and <100 nm for accomplishing super paramagnetism, mechanical reinforcing or confining network separation development.
- Super paramagnetism
- Composite Materials
- Ceramic Matrix Nanocomposites
- Metal Matrix Nanocomposites
- Polymer Matrix Nanocomposites
Track 14: Materials Science and Engineering
Materials science is a hybridizing discipline which is mainly of design and invention of new materials. It is the principal scholastic order developed by chemistry of combination rather splitting. The new scholarly control developed by combination of metallurgy, earthenware production, solid state physical science and chemistry is the field which manages ID, study and plan of materials. A few properties in particular holding nature, shape, frame and a few different attributes of a material is found with the goal that the materials can be utilized to their most extreme advantage in individual territories. The order is vital both from an examination point of view, and in addition from a modern one.
- Surface Engineering
- Metamaterial Technologies
- Femto technology
- Ceramics and Polymers
- Supramolecular chemistry
- Artificial Self-Cleaning surfaces
- Design and Processing of Materials
- Electronic and Photonic Materials
Track 15: Polymer Science and Engineering
Polymer science or macromolecular science is a subfield of materials science concerned with polymers, primarily synthetic polymers such as plastics and elastomers. The field of polymer science includes researchers in multiple disciplines including chemistry, physics, and engineering.
- Nanotechnology in Polymers
- Conjugated-Controlled Compound
- Polymer photochemistry
- Reaction Kinetics
Track 16: Green Materials
Green materials are characterized as materials that are non-poisonous, enhance wellbeing, bring down expense, and ration vitality and water utilize and squander items. Green materials are worked from the field of green Chemistry where the use of standards to diminish or dispose of dangerous substances during the time spent plan, fabricate and use of concoction items. Research in green materials hopes to create options in contrast to customary materials or procedures that offer an ecological favorable position. The consideration of Green Materials identifies with polymers and materials, with an accentuation on diminishing the utilization of perilous substances during the time spent plan, make and use of items. Green materials are the materials that have low inserted vitality in their gathering or accumulation, creation, transportation and utilize.
- Green Buildings, Green Architecture and Green Engineering
- Green Nanotechnology
- Green Economy
- Environmental Chemistry and Pollution Control
- Global Warming and Bioremediation
- Biomass and its Conversion
- Life Cycle Assessment & Environmental Sustainability
- Green Analytical Techniques
- Green Catalysis & Biocatalysts
- Trends in Green Chemistry
Track 17: Smart Materials and Sustainable Technologies
Smart materials are those materials which have properties to react to changes in their environment. This means that one of their properties can be changed by an external condition such as light, pressure, temperature. So Smart Materials are defined as "Materials that can significantly change their mechanical, thermal, optical, or electromagnetic properties, in a predictable or controllable manner in response to their environment" as there are many possibilities for such materials and structures in the manmade world many innovations are happening in the field of material science that are enough smart to help human beings in an any of the ways like structural health monitoring, self-repair, defence and Space, Nuclear Industries, Reducing wastes. Smart materials also have many applications in different fields of medicine and engineering and the rise in demand for the smart materials is enough to believe that there is a great scope for the smart materials in the future.Modelling, Simulation and Control of Smart Materials
- Shape-Memory Alloys and Phase Change Materials
- Electroluminescent and Electrochromic Materials
- Polymer-based Smart Materials
- Smart Design and Construction
- Sustainable Engineering and Energy Technology
Track 18: Tissue engineering
Tissue engineering is the use of a combination of cells, engineering and materials methods, and suitable biochemical and physicochemical factors to improve or replace biological tissues. Tissue engineering involves the use of a tissue scaffold for the formation of new viable tissue for a medical purpose. While it was once categorized as a sub-field of biomaterials.
- Functional ceramics and Inorganics
- Ceramic coating
- Thermal Barrier coatings
Track 19: Carbon and Graphene Nanostructures
Carbon nanotubes (CNTs) are allotropes of carbon with a round and empty nanostructure. These round and empty carbon particles have peculiar properties, which are critical for nanotechnology, devices, optics and diverse fields of materials science and advancement. Owing to the material's exceptional quality and robustness, nanotubes have been created with the length-to-expansiveness extent of up to 132,000,000:1, basically greater than for whatever other material.
Likewise, owing to their remarkable warm conductivity, mechanical, and electrical properties, carbon nanotubes find applications as added substances to various helper materials. For instance, nanotubes outline an unobtrusive piece of the material(s) in a couple (basically carbon fiber) slugging sticks, golf clubs, automobile parts or Damascus steel.
- Types of carbon nanotubes
Track 20: Future and market growth of ceramics
The augmented demand and uses are some of the key driving forces escalating the Advanced Ceramics Market on the global platform. Market Research Future (MRFR) in its recently published study report asserts that the revenue contribution of the Advanced Ceramics Market is expected to increase by a substantial monetarily growth by 2023, registering a phenomenal CAGR during the period 2017 to 2023.
The global ceramic inks market is estimated to be USD 1.44 billion 2016 and is projected to reach USD 2.03 billion by 2021, at a CAGR of 7.1% between 2016 and 2021.
The global ceramic fibers market is projected to grow from USD 3.46 billion in 2016 to USD 5.43 billion by 2021, at a CAGR of 9.4% between 2016 and 2021.
- Global Ceramic Matrix Composites Market
- Mapping the Materials Market: Outlining Availability, Cost and Quality of Raw Material Supply
- Global Supply chain
Ceramics Market: Industry Insights
The global advanced ceramics market size was valued at USD 56.70 billion in 2015. Advanced ceramics market is expected to witness substantial growth in the next eight years owing to their various capabilities of performing under extreme conditions, with high degree of industrial efficiency.
The U.S. market was estimated at USD 13.96 billion in 2015 and is anticipated to grow at a CAGR of 10.1% from 2016 to 2024. Various properties have led to a rise in demand from the membranes manufacturers, which has contributed to the overall growth of the market. This is expected to be the fastest growing segment as far as their applications in chemicals are concerned. In addition, the highly industrially efficient nature of these materials is responsible for them being utilized for purification of natural gas.
Global Markets of Ceramics and Composite materials:
The worldwide market is anticipated to reach $6,000 million by 2020 and enlist a CAGR of 10.2% in the vicinity of 2015 and 2020 as far as esteem. The development in showcase is evaluated to be driven by the expanding interest for aerogel materials from oil and gas and development applications. The North American area remains the biggest market, trailed by Asia-Pacific. The Europe showcase is evaluated to be development at an enduring rate because of financial recuperation in the area alongside the expanding worry for the building protection and vitality reserve funds. The U.S. Bureau of Labor Statistics (BLS) produces yearly wage gauges for more than 800 individual occupations. Recently discharged figures for 2012 put BLS Code 19-2032 (a word related gathering enveloping materials researchers) in 82nd place in yearly wages. The gathering, which incorporates 7,970 representatives the nation over, posted a normal yearly pay of $89,740.
Worldwide utilization of nanocomposites is relied upon to develop in unit terms from almost 225,060 metric tons in 2014 to about 584,984 metric tons in 2019, a compound yearly development rate (CAGR) of 21.1% for the time of 2014 to 2019. The worldwide market for nanofiber item came to $203.2 million and $276.8 million out of 2013 and 2014, separately. This market is anticipated to develop from $383.7 million of every 2015 to almost $2.0 billion of every 2020, speaking to a compound yearly development rate (CAGR) of 38.6% in the vicinity of 2015 and 2020. The worldwide nanotechnology showcase in ecological applications came to $23.4 billion out of 2014. This market is required to reach about $25.7 billion by 2015 and $41.8 billion by 2020, enrolling a compound yearly development rate (CAGR) of 10.2% from 2015 to 2020.
Significance and Scope:
Ceramic engineering is the science and technology of creating objects from inorganic, non-metallic materials. This creating field includes researchers from a wide range of controls, including physicists, Material Science experts, Ceramic engineers, scientific experts, engineers, data technologists and material Researchers, and scholars.Ceramics engineering is being connected to relatively every field possible, including hardware, magnetics, data innovation, materials improvement and biomedicine. EuroSciCon International Conference and Expo on Ceramics and Composite Materials (CERAMICS 2019) will be a typical stage for Researchers, Scientist, pioneers, perusers, teachers, Industry Leaders, understudies and general students to preset and trade thoughts identified with Ceramics and Composite materials advances. We are satisfied to welcome all of you to the EuroSciCon Conference on CERAMICS 2019 which is going to hung on Jan 28-29, 2019 in Dubai,UAE.
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