Call for Abstract

2nd International Conference on Design and Production Engineering, will be organized around the theme “Letting Design Function with Manufacturing”

Design and Production 2017 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Design and Production 2017

Submit your abstract to any of the mentioned tracks.

Register now for the conference by choosing an appropriate package suitable to you.

Design Engineering is the combination of design thinking, practice and engineering thinking within a culture of innovation and enterprise. Design engineers research and develop ideas for new products and the systems used to make them. They also work to improve the performance and efficiency of prevailing products. It is the process of devising a system, component to meet desired requirements. The process by which the above goals are achieved is called engineering design.

  • Track 1-1Research into design 
  • Track 1-2Finite element method
  • Track 1-3Simulation softwares
  • Track 1-4Analysis softwares
  • Track 1-5Product, service and systems design
  • Track 1-6Robotics engineering
  • Track 1-7Valve design engineering
  • Track 1-8Plant design engineering
  • Track 1-9Civil design software
  • Track 1-10Tool design engineering
  • Track 1-11Thermo design engineering
  • Track 1-12Design education and research
  • Track 1-13Mechanical design engineering
  • Track 1-14Sustainability and universal design
  • Track 1-15Internet of things
  • Track 1-16Science and Technologies of Aeronautic & Astronautic Heat and Mass Transfer

Manufacturing Innovation is the latest trend in manufacturing 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.

  • Track 2-1Computer-integrated manufacturing
  • Track 2-2Manufacturing process management
  • Track 2-3Discrete manufacturing
  • Track 2-4Responsive manufacturing
  • Track 2-5Reconfigurable manufacturing system
  • Track 2-6Emerging technologies and processes
  • Track 2-7Sustainable manufacturing
  • Track 2-8Flexible production
  • Track 2-9Design and realization of manufacturing equipment
  • Track 2-10Lean manufacturing
  • Track 2-11Advanced manufacturing
  • Track 2-12Defense manufacturing
  • Track 2-13Additive/Rapid manufacturing
  • Track 2-14Sustainability manufacturing
  • Track 2-15Non-traditional manufacturing Processes
  • Track 2-16Metal additive manufacturing
  • Track 2-17Micro manufacturing
  • Track 2-18Plastics manufacturing
  • Track 2-19Flexible Manufacturing process and system
  • Track 2-20Machine Tools and Metal Fabrication

Materials Selection is the most essential task because there are factors that should be carefully evaluated before making the final product. The main requirement may be the strength of a particular product, but depending on the requirement and behaviour it may vary and there might be several other factors to consider. Material selection is a process where the best materials are selected to complete the product. The product should have the capability to perform both industrially and commercially. The understanding of material use and manufacturing processes is essential and needed in the Industrial Design today. Today selection of materials is an important part of industrial designs because the competition in the market is heavy.

  • Track 3-1Materials Science & Engineering
  • Track 3-2Smart structures and materials
  • Track 3-3Steel-Concrete Composite
  • Track 3-4Polymers and soft materials
  • Track 3-5Biomaterials
  • Track 3-6Characterization techniques and equipments
  • Track 3-7Computational materials science
  • Track 3-8Mining, Metallurgy and Materials Science
  • Track 3-9Materials processing technology
  • Track 3-10Rapid manufacturing
  • Track 3-11Nano-manufacturing
  • Track 3-12Micro manufacturing
  • Track 3-13Powder metallurgy
  • Track 3-14Polymers, Ceramics and Composite Materials
  • Track 3-15Smart & advanced materials
  • Track 3-16Glass, Ceramics and Refractories

Production engineering is a combination of manufacturing technology with management science. It intricate design and careful planning that goes into creating a product. Such a process can be quite broad, incorporating everything from the initial use of raw materials to the final products made available to consumers as large-scale durable goods. Design and application of manufacturing techniques to produce a specific product.

  • Track 4-1Advances in Production Engineering
  • Track 4-2Product design between market and manufacturing requirements
  • Track 4-3Management for Production and Operations
  • Track 4-4Business models in relation to production system
  • Track 4-5Production system management
  • Track 4-6Production Systems Design, Planning, Scheduling, Control
  • Track 4-7Oil & Gas Production Facilities
  • Track 4-8Production Engineering Solutions
  • Track 4-9Precision Engineered Products
  • Track 4-10Production Engineers Insights
  • Track 4-11Increased efficiency of tools

Modern aerospace and space systems design is typically performed with the aid of specialized aerospace software analysis tools and software products. All aircraft designs involve compromises of these factors to achieve the design mission-Wing design, Fuselage, Propulsion, Weight, and Structure. Ranges of aerospace design software’s used an integrated design or integrated synthesis environment. CFD computational fluid dynamics software provides flexible fluid flow and thermal simulation tools that help to make decisions earlier in the product development process. Easily explore and compare design alternatives and better understand the implications of design choices before manufacturing. ADS is the new standard for the conceptual design of the modern generation of light aircraft. It is a powerful software tool available for aircraft designers. Advanced Aircraft Analysis (AAA) is the industry standard aircraft design, stability and control analysis software. Advanced Aircraft Analysis provides a powerful framework to support the iterative and non-unique process of aircraft preliminary design. The AAA program allows preliminary design engineers to take an aircraft configuration from early weight sizing through open loop and closed loop dynamic stability and sensitivity analysis.

  • Track 5-1Additive Manufacturing in Aerospace
  • Track 5-2Aerospace Structures and Materials
  • Track 5-3Advanced Aircraft Technologies
  • Track 5-4Cost Analysis Tools
  • Track 5-5Integrated Design Frameworks
  • Track 5-6Aerodynamic Analysis
  • Track 5-7Thermodynamic/ Thermochemical Analysis
  • Track 5-8Structural Analysis Software
  • Track 5-9Trajectory Software
  • Track 5-10Propulsion Software
  • Track 5-11Aircraft Design Engineering
  • Track 5-12Numerical Methods for Aerospace Structures and Materials

Production management also called operations management is used for planning, organising, directing and controlling of production activities to ensure that they move smoothly at the required level.  It is used for overseeing, designing, controlling the process of production and redesigning business operations in the production of goods and/or services. It brings together the 6M's i.e. men, money, machines, materials, methods and markets to satisfy the wants of the people. Production management also deals with decision-making regarding the quality, quantity, cost, etc., of production. It applies management principles to production.

  • Track 6-1Production Management Insights
  • Track 6-2Mechanical Design Services and Market Analysis
  • Track 6-3Design Engineering Market Analysis
  • Track 6-4Industrial Engineering Market Analysis
  • Track 6-5Environmentally Sustainable Manufacturing Processes and Systems
  • Track 6-6Optimization Methods
  • Track 6-7Quality and Productivity Management
  • Track 6-8Supply chain management

Some of the multidisciplinary fields of engineering combines with design engineering that includes electrical engineering, telecommunications engineering, control engineering, bio-technology etc.

  • Track 7-1Mechatronics and Automation
  • Track 7-2Bio­­-inspired robotics
  • Track 7-3Bio-inspired design
  • Track 7-4Hierarchy of Design Models
  • Track 7-5Energy engineering
  • Track 7-6Mechanochemistry

Software engineering is apprehensive about the evolution and development of complex and large software concentrated systems. It ranges from theories, tools and methods for the specification, design, architecture, testing, and maintenance of software systems. Today’s software systems are considerably complex, large and critical, that only through the custom of automatic methods can such systems be developed and evolve in a timely and economic manner.

  • Track 8-1Manufacturing automation
  • Track 8-2Light weight design
  • Track 8-3Information automation
  • Track 8-4Networked and Control systems
  • Track 8-5Intelligent control
  • Track 8-6Programming language for automation

Industrial Design (ID) is an applied art whereby the aesthetics and usability of products may be improved. Design aspects specified by the industrial designer may include the overall shape of the object, the location of details with respect to one another, colors, texture, sounds, and aspects concerning the use of the product ergonomics. Industrial design is a process of design applied to products that are to be manufactured through techniques of mass production.  It is the service of creating products and systems that optimize function, value and appearance for the mutual benefit of both user and manufacturer. Industrial designers develop products and systems through collection analysis and synthesis of data guided by the special requirements of their client and manufacturer.

  • Track 9-1Advances in Industrial Design
  • Track 9-2Machinery and Interactive Design
  • Track 9-3Green Design and Manufacturing
  • Track 9-4Design for Manufacture & Assembly
  • Track 9-5Design of Thermal Systems
  • Track 9-6Design of Mechanical Systems
  • Track 9-7Industrial Designers Insights
  • Track 9-8Industrial Product Design
  • Track 9-9Industrial Design Engineering
  • Track 9-103D Printing Innovation

Every automobile starts with a simple idea, and its automobile designer job to come up with such idea. Designing of an automobile is becoming a major role in the designing sector, the complete interior and exterior part of an automobile is designed using various CAD softwares and its follow-on by Analysing it using Analysis softwares.

  • Track 10-1Vehicle simulation and design methods
  • Track 10-2Modelling softwares
  • Track 10-3Analysis softwares
  • Track 10-4Simulation softwares
  • Track 10-5Ergonomics design
  • Track 10-6Engine Simulation

Heat Transfer: This is a process of exchanging the thermal energy between ant physical systems. This depends on the temperature and the properties of intervening medium through which the heat is transferred. The heat transfers normally from a high temperature object to a lower temperature object this changes the internal energy of both systems involved according to the First Law of Thermodynamics.

Thermal Engineering: This is specialized sub-discipline of Mechanical engineering that deals exclusively with heat transfer between not only different mediums, but also into other usable forms of energy. Thermal Engineers must also know about the economics of the components and processes they design to make sure they not only provide an improvement over the existing solutions, but also don’t lose the company money. Thermal Engineers are not limited in areas of specialization and can work in numerous fields

  • Track 11-1Heat Transfer in Energy Systems
  • Track 11-2Heat Transfer in Energy Systems: Design and Performance Analysis
  • Track 11-3High Heat Flux and Enhanced Heat Transfer
  • Track 11-4Panel - Thermal Management Chanllenges in Energy Conversion & Conservation
  • Track 11-5Heat Transfer in Multi-phase Systems
  • Track 11-6Air Conditioning and Refrigeration
  • Track 11-7Human Heart Fluid-Structure Interaction Modeling and Simulations
  • Track 11-8Renewable Energy