16 th International Conference on

Nanomaterials in Aeronautical Engineering

Aeronautics 2020

Theme: A Stroke of Light Towards the Future in Aeronautics & Aeronautical Engineering

16th International Conference on Nanomaterials in Aeronautical Engineering invites global leaders and interested participants to Aeronautics 2020 scheduled on April 27-28, 2020, Kyoto, Japan. This conference focuses on dominant topics and recent research in the field of Aeronautics. This conference is a global platform for discussion of business professionals, scientists, researchers, professors, directors of associations, delegates, industrialists, and students in the field of nanotechnology & aeronautics. The organizing committee generously welcome sponsors and exhibitor to feature their products at our conference to participants and make them popular and known all over the globe through them.

Meetings International (Meetings Int.) is a global leader in producing high-quality conferences, meetings, workshops and symposia in all major fields of science, technology, and medicine. Since its inception, Meetings Int. has been associated with national and international associations, corporations and high-level individuals, dedicated to hosting world-class conferences and events.

 

Popular Tourist Attraction in Kyoto:

  • Kinkaku-ji
  • Fushimi Inari Taisha
  • Tofuku-ji
  • National Museum of Modern Art, Kyoto
  • Daitoku-ji
  • Kyoto National Museum
  • Arashiyama Monkey Park Iwatayama
  • Kyoto Aquarium
  • Kyoto Railway Museum
  • Konosuyama Sports Park

 

 

Session 1: Nanotecnology in Mechanical Engineering

The use of nanotechnology in mechanical engineering for manufacturing the structures of aircrafts, body of automobiles and other engine parts is extremely useful to the field. For increasing the life of automobile parts and components nanotechnology can play a very important role . By the use of nanotechnology many different number of materials and products can be improved in their performance.

For enhancing engineered materials nanomaterials can be used which exhibits unique physical and chemical properties also their better magnetic properties improved optical properties.

Session2: Nanotechnology in Aeronautics

In aeronautics industry the applications of nanotechnology are clearly beneficial as materials and devices getting used in aircrafts need to be more smart, reliable, strong and smaller in size. The aeronautics industry is one of the most important industries at heavy industries category in the world .Wide range of companies who ship products around the world with the speed that can only be achieved by air are highly dependent on aeronautics industry.  Along with such a huge economic value & demand, comes lots of consumption because of which this industry acquires a large amount of market.

Session 3: Flight Physics

The topic covers all aspects of aerodynamics related to aircrafts, missiles, launchers and projectiles. Topics will discuss both internal & external flows since aerodynamics are the most important concern in aircrafts. Papers will explain one of the three approaches: theoretical analysis, physical understanding and development of control technologies applied to aeronautical flows. Code validation and essential Non-intrusive metrology ingredient are important aspects.

Session 4: Aerodynamics

The performance, such as drag and lift of a body also called aerodynamics is measured by the flow of air across its surface. By using applied aerodynamics we can utilize & understand all the fundamental aspects of this air flow in the design and analysis of aircraft. A broad range of applications gets covered in the field of applied aerodynamics which includes any object which is experiencing this fluid flow in air, common applications such as rotary-wing aircraft fixed-wing aircraft are also included, turbines and propellers and atmospheric flows.

Session 5: Nanofluids for Heat Transfer in Aircraft Systems

In this topic we will discuss about new technologies and materials which will improve heat transfer performance that results in a comparatively smaller and lighter heat exchange system in order to minimize or remove heat in modern designs used for military aircraft systems. Nanofluids have improved thermophysical properties and improved thermal conductivity relative to other fluids. It has ability of removing heat, includes viscosity, density of the fluid, specific heat and also depends on the applied flow.

Session 6: Nanosensors in Aircrafts

This topic will discuss about the nanosensors made from nanostructures which can be used in aircrafts such as single walled carbon nanotubes (SWNTs). Nanosensors can offer higher sensitivity, better robustness and lower power consumption due to low surface energy, large surface area and high thermal & mechanical stability which make them more effective to be used in defence aircrafts and spacecraft.

Session 7: Aeroelasticity & Structural Dynamics

Aeroelasticity & structural dynamics is the study of the low frequency dynamic behavior of a structure (turbomachine, aircraft, helicopter rotor) in an aerodynamic flow. It mainly focuses on interaction between vibrational or static deformations of the structure and fluctuations or modifications of the aerodynamic flow field.

Aeroelasticity is major factor responsible for stability and integrity of aeronautical structures, as well as for their durability and performance. Aeroelasticity has become an major component because of the increasing levels of lower weight and energy efficiency in any of the aeronautic engineering design.

Session 8: Alternative Fuels and Power Source

This topic discusses about alternative fuels for aircrafts having comparatively lower carbon emission than conventional fuels. In this we will discuss the challenges in development and commercialization of alternative fuels which will result in lower carbon emission from aviation.

Some alternatives like drop-in fuels which are having properties equivalent to conventional petroleum fuels also compatibility with existing fuel infrastructure and biofuels which are also called as renewable source of energy can also be a viable option for fulfilling long term needs of fuel in aeronautics and aerospace industry. Other types of biofuels such as ethanol, Cellulosic ethanol, biodiesel can also be considered as fuel source.

Session 9: Robotics in Aeronautics

Robots are very important element in aeronautics industry. They are important in performing tasks such as painting airframes, drilling and also in constructing aircraft engines. Because of capability, precision and reliability of robots, they have huge demand in the aeronautics industry. Even though robots are always been associated with automobile and electronics industry but they have similar accuracy in aeronautics industry with relatively larger components.

Session 10: Aero Acoustics

Aero acoustics is the study of noise generated from aerodynamic forces contacting with surfaces or turbulent fluid motion. Periodically varying flow of air can also generate noise, an example of this is Screeching Noise of Circular Jet.

There is no complete scientific theory has been established about the generation of noise by aerodynamic flows but most practical aeroacoustic analysis depends upon the aeroacoustic analogy which was introduced by Sir James Lighthill. Aero acoustics is associated with the interaction between a acoustics field and background flow,  effects which alter an acoustic field in the presence of flow can be included in Aeroacoustics models , such as local variations in material properties convection, turbulence, viscous damping.

Session 11: Avionics

This topic is the study of the electronic systems used on aircraft, spacecraft and artificial satellites called as avionics. Navigation, communications, the management and display of multiple systems, and many systems that are fitted into aircraft to perform individual functions are included in avionics.

Major system like ESM/DAS Electronic support measures & defensive aids are used to collect information about possible threats in military aircrafts. Avionics databus is used for interconnecting avionics system in military, commercial and advanced model of civilian aircrafts.

Session 12: Application of Nanotechnology in Aeronautics

A wide range of applications of nanotechnology in aeronautics has been reported till date. It majorly includes light weight composites, high strength materials, advanced displays & electronics with low power consumption, different types of physical sensors, embedded sensors with multifunctional materials, novel filters and membranes for air purification, nanomaterials in brakes, tires and many others.

Targeted Audience:

  • Researchers
  • Scientists
  • Young Researcher Forum
  • Deans and CEOs
  • Academic Professionals
  • Technical Staffs

 

 

 

 

Market Analysis:

Nanotechnology is a wide and an important area which has gained market attraction in the last two decades. Nanotechnology is the study and use of smaller than 100 nanometres structures. Nanotechnology is capable of transforming the ways of producing materials, and their functionalities can be augmented or retained. Primarily, only few nanomaterials were used in Aeronatics industry, suchaspolymer nano-composites, nanostructuredmetals, anti-corrosion coatings and nanoelectronics which were combined with MEMS (microelectro mechanical system). Operational superiority can be retained by the use of nanotechnology or nanomaterial at an airborne platform,  it enhances the physical properties of structural and non-structural polymers used in manufacturing of an aircraft, and provides efficient and accurate nanosensors used in spacecraft. The resultant components also prevent corrosions and thus increase the life of aircraft structure.

The Aeronautics Nanotechnology market report 2019 analyses the significant features in major developing markets. The analysis includes latest trends, opportunities, market size, drivers, threats as well as key market segments. The study explains market dynamics in some geographic segments along with Aeronautics Nanotechnology market analysis for the current market status and future scenario over 2 years of period. Industry experts project Aeronautics Nanotechnology market to grow at a CAGR of 5.75% during the period 2019-2021 in major countries like North America (U.S., Canada, Mexico), Europe (Germany, U.K., France, Italy, Russia, Spain, etc.), Asia-Pacific (China, India, Japan, Southeast Asia, etc.), South America (Brazil, Argentina, etc.), Middle East & Africa (Saudi Arabia, South Africa, etc.).

Top Aeronautics / Aerospace companies

  • Airbus
  • Rolls-Royce
  • Lockheed Martin
  • United Technologies
  • Northrop Grumman
  • Raytheon
  • General Electric
  • Finmeccanica

Major socities/Associations around the Globe

  • The Japan Society of Fluid Mechanics, Japan
  • Japanese Union of Scientists and Engineers
  • American Institute of Aeronautics and Astronautics
  • National Society of Fluid Mechanics and Fluid Power IIT Bombay, India
  • Aerodynamic Testing Association, Canada
  • Royal Aeronautical Society (RAES)
  • Aircraft Research Association, UK
  • European car aerodynamic research association, Sweden
  • The Airship Association, USA

Top Institutes in Asia

  • Kyoto University
  • Pohang University of Science And Technology (POSTECH)
  • National Cheng Kung University
  • University of Melbourne
  • University of Queensland
  • University of Auckland
  • Victoria University of Wellington
  • Yale University
  • National Cheng Kung University

Top Institutes in America

  • Stanford University, California
  • Massachusetts Institute of Technology
  • Harvard University, Cambridge, Massachusetts
  • University of Sao Paulo (USP)
  • Michigan State University
  • University of California
  • Federal University of Rio de Janeiro (UFRJ)
  • Nuevo Leon Autonomous University
  • Carleton University 
  • Royal Military College of Canada

Top Institutes in Europe

  • University of Bristol Aeronautical Engineering
  • Carleton University
  • Royal Military College of Canada
  • School of Mines of Albi-Carmaux
  • Technical University of Berlin
  • Helsinki University of Technology
  • Technical University of Hamburg
  • Technion - Israel Institute of Technology
  • University of Zagreb
  • University of Bologna
  • Poznan University of Technology

Conclusion:

Aeronautics 2020 sought to gather aeronautics and nanotechnology experts from different parts of the world together for introducing new advancements by collaborating technologies from both the industries and will also promote the dissemination of knowledge of aeronautical & nanotechnology science. Kyoto aerospace industrial network (KAIN) with many of joined companies in japan has lots of opportunities for new engineers in the field of aerospace & aeronautical engineering, manufacturing & industrial engineering, surface engineering and many more. Through this conference participants will get to know about new researches, new technologies getting adopted on real time basis in industry and new scientists will get a platform to exhibit there research and gain some knowledge from senior speakers in their fields.

This conference will help industrialists from different companies to interact with each other and discuss about the possible ways of growth in their respective fields.

 

 


 

 

 

  • Nanotecnology in Mechanical Engineering
  • Nanotechnology in Aeronautics
  • Flight Physics
  • Aerodynamics
  • Nanofluids for Heat Transfer in Aircraft Systems
  • Nanosensors in Aircrafts
  • Aeroelasticity & Structural Dynamics
  • Alternative Fuels and Power Source
  • Robotics in Aeronautics
  • Aero Acoustics
  • Avionics
  • Application of Nanotechnology in Aeronautics