Following on from the success of the third Material Science Conference, we are extremely proud to announce 4th International Conference on Materials Science and Engineering at Prague, Czech Republic slated to hold from May 04-05, 2020. We have chosen a venue that guarantees a successful technical conference amid the culture and fantastic scenery of Prague.
The theme of the conference “Delving into the Advancements of Materials and Engineering Research” records the collaborative spirit of the event which will be both an educational and scientific event.
Various thematic sessions of Materials Science 2020 will showcase important scientific advances, foster discussions and hopes to inspire participants from a wide array of themes to initiate collaborations within and across the advancement of Materials Science, Aerospace, Mechanical and Civil Engineering, Physics, Chemistry, Biomaterials, Nanomaterials and other areas.
This year’s conference is no exception and brings together materials science researchers, professors, students, delegates from around the globe to discuss the latest advances in this vibrant and constantly evolving field of Materials Science and Engineering.
We hope that the conference will challenge and inspire you, and result in deciphering knowledge, collaborations, and friendships, despite a stimulating program you will be able to enjoy the exotic and vibrant atmosphere of Prague.
With the unique feedback from the Material Science 2019, we would like to announce the commencement of our next series 4th International Conference on Materials Science and Engineering during May 04-05, 2020 at Prague, Czech Republic.
Material Science 2020 is a technical Conference which includes keynote presentations, general oral presentations, poster sessions, workshops, exhibitions, panel discussions from specialists of Engineering, Biomaterials, Nanomaterials, Electronics, Photonics, Physics, Chemistry, Polymers and other partnered arenas of Materials Science .
The focus of the conference is to provide a platform to Academicians, Researchers, Scientists, Industrial Professionals and students to unleash their research work and create a forum for effective sharing of ideas to face the future global challenges from the perspective of rising trends in engineering and technology. Material Science 2020 highlight the ever increasing and basic need to energize creative engineering solutions with potential for worldwide reach. This would be a wonderful opportunity for networking and will cultivate everlasting friendship among fellow partners.
Session on Materials Science and Engineering
The innovative advances that have changed our world over the
past 20 years, have been established on improvements in Materials Science and Engineering. Materials are
advancing faster today than any time in history; empowering engineers to
enhance the performance of existing products and to create innovative advances
that will enhance each part of our lives. Materials Science and Engineering has
turned into a key discipline in the competitive worldwide economy and is
perceived as one of the specialized disciplines with the most exciting career
openings. Materials Scientists or Engineers, through seeing how materials work,
can make new materials for new applications and additionally create existing
materials to enhance performance. They can control the structure of a material,
from a nuclear level up, so that its properties, for instance strength, can be
tailored to suit a specific application.
Session on Materials in Aerospace, Mechanical and Civil Engineering
Most of the accomplishments in the domains of electronics, telecommunications, and robotics are inspired by the developments in Aerospace Industry. Engineers in Aerospace industry develop new technologies for use in aviation, defence systems and space exploration. Speeding up of evolution of new materials, innovations in machining and cutting technology give manufacturers unique access to materials which was previously assumed as impractical or too hard to machine. The maintenance of new material is happening rapidly in aerospace, requiring DFM-minded interaction between material component design and characteristics.
Inorder to finalize the material for application or for an engineering product, it is significant to understand materials mechanical properties. Those properties affect the ability of a material and mechanical strength to be moulded in specific shape. Few typical mechanical properties of a material include Strength, Hardness, Hardenability, Toughness, Brittleness, Malleability, Creep and Slip, Ductility, Resilience and Fatigue.
Building materials manufacturing is a stabilized industry in most of the countries across the globe and the utilization of these materials is typically separated into particular specialty trades, like plumbing, carpentry, insulation work and roofing.
Session on Tribology
Previously, Tribology research was focused on the design and effective lubrication of machine components such as bearings. Over time, there has been a shift in tribology’s focus to include several aspects of modern technology. In recent decades, it has received continuous and increasing attention as it has become evident that the wastage of resources resulting from high friction and wear is greater than 6% of the Gross National Product.
Tribology has its application in the most common rolling or sliding components, which are bearings, cams, gears, seals and brakes. This early focus on enhancing operation and extending the life of industrial machinery has evolved into other applications where it has made a major impact on a variety of applications.
Session on Structural Materials
The primary purpose of Structural materials is to transmit or support a force. These type of materials can be metallic, ceramic, polymeric or a composite between these materials. Uses can be in automobiles and aircraft, construction of building and roads, in components used for helmet or armour, in energy production like turbine blades or in microelectronics. Numerous branches of technology require the materials, which combine the structural strength with better resistance of electricity and heat optical and other various properties.
Session on Functional Materials
Functional Materials manages the materials improvement that have characteristic properties and functions like ferroelectricity, piezoelectricity and magnetism. These kind of materials exploit roles in progress of green technologies, energy efficient, transforming mechanical energy to electrical energy in piezoelectric materials, or providing electrical control of magnetic properties. The piezoelectric effect has become a part of many technologies applicable in day to day life. It is also crucial in many areas like healthcare and automotive industries and environmental monitoring.
Market Analysis Report for International Conference on Biosensors and Bioelectronics
Currently biosensors market is witnessing continuous innovations and giving high-end and simple products by proper monitoring and diagnosis. Further developments and advancements in biosensor technology, inflation in emerging markets along with the endless need for advanced monitoring devices provides advantageous growth potential to biosensors industry expected over the future.
The biosensors market is [projected to grow from USD 19.2 billion in 2019 to 31.5 billion by 2024 at a CAGR of 8.3% and is likely to reach USD 33.76 billion by 2026 with a CAGR of 8.1%. The various applications in the medical field, rapid technological advancements and high demand for miniature diagnostic devices are the key factors for biosensors market growth. In recent years, the demand for simple, user-friendly, cost-effective and easily disposable devices with fast response time has increased extensively leading to increase in the sales of these products, thereby driving the market.
Non-wearable biosensors market hold major market share of over 52. Increasing prevalence of chronic diseases such as cancer, diabetes, and other disorders will increase demand for conventional methods of diagnosis and detection. High efficiency and accuracy provided by non-wearable biosensors along with continuous product developments will highly impact the segmental growth over the coming years.
The market size of electrochemical biosensors technology held
USD 12.8 billion. Growing utilization of electrochemical biosensors in disease
diagnosis and food analysis will enhance the segment growth during the forecast
period. Expanding incidence of diabetes colliding the maintenance of
glucometers based on electrochemical biosensor technology will impel the growth
of business. Furthermore, rising popularity of chronic diseases will speed up
the demand for electrochemical biosensors to aid accurate diagnosis, thereby
sustaining segmented growth.
Optical biosensors segment is forecasted to progress at a
momentous pace of 7.5% CAGR during the projected period. Increasing requirement
of optical biosensor can be associated to growing developments in optical
biosensors. Advantages provided by optical biosensors are compact design, specificity,
high speed, real-time measurement and remote sensing enabling minimal invasive
detection. Moreover, continuous technological innovations in optical biosensing
technology will boost the optical biosensors industry growth in the upcoming
Cholesterol testing biosensors medical application segment is forecasted to grow at rapid 8.6% CAGR during the projected time period . Growth can be attributed to increasing obesity rates and related disorders that increase cholesterol level in the blood. According to the Division for Heart Disease and Stroke Prevention, National Center for Chronic Disease Prevention and Health Promotion about 29 million Americans suffered from cholesterol issues during 2015-16. Such expanding occurrence of high cholesterol levels will increase the business growth of cholesterol testing during the forthcoming years.
U S market dominated the North American biosensors industry
with USD 6 billion revenue size. Increasing preference of wearable biosensors
due to growing prevalence of chronic disorders will provide remarkable industry
growth of biosensors. Increasing investment in research and development
activities to cater to rising and varying consumer demand should escalate the
demand for biosensors in the country. In addition, over the upcoming years,
growing geriatric population base will serve as high impacting factor for industry growth of U.S. biosensors.
Germany accounted for over 20% of European biosensors revenue size due to high approval rate of advanced technology across the nation. Technological innovations in the development of biosensing devices like electrochemical biosensor allowing detection of antioxidant levels will positively influence business growth. Various research institutes in Germany are collaborating to enhance the biosensor research and development thereby stimulating industry growth over the forecast period.
Few of the key players who are operating in global market of
biosensors are DowDuPont, Johnson & Johnson, Roche Diagnostics, Abbott
Laboratories, Thermo-Fisher Scientific and Siemens Healthcare. Major industry partners
are expanding their market presence by launching of new biosensor devices integrated with recent