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Full Description
Smart manufacturing technologies are highly efficient and reliable and produce high-quality products. They involve autonomous and robotic systems, the Internet of Things, simulation, system integration, and additive manufacturing. These technologies enable industries to make better decisions and respond quickly to changing market conditions. They are used in various fields, including science, medicine, healthcare, and biotechnology. This handbook covers the transformation of conventional to smart manufacturing technologies and the impact of smart manufacturing on industrial engineering.
Handbook of Smart Manufacturing Technologies: Industrial Engineering in the Digital Age covers various smart technologies related to the Internet of Things (IoT), Robotics, 3D/4D printing, Sustainability, and Machine Learning. It also includes case studies of conventional, advanced, and smart manufacturing, based on real-world aspects. One of the novel aspects of this book is that it provides surface integrity parameters related to machined parts manufacturing and features new product design and development by adapting control algorithms and mechatronics-assisted manufacturing technologies. Furthermore, it offers information on smart manufacturing technologies and their industrial applications.
This handbook is intended to be a useful resource for industrialists, researchers, academicians, or anyone who deals with manufacturing and industrial engineering.
Contents
Section I: Transformation of Conventional to Smart Manufacturing Technologies in the Digital Age. 1. Advances in Hybrid Metal Additive Manufacturing Technology and the Challenges for Manufacturers, Software and Professionals. 2. Influence of Various Process Parameters on Bead Geometry, Mechanical Properties and Microstructural Characteristics of produced WAAMed parts in Wire Arc Additive Manufacturing (WAAM) of Metallic Alloys: A Comprehensive Review. 3. Teaching learning based Optimization for Optimizing Process Parameter In Wire Electrical Discharge Machining (WEDM). 4. Peering into the Smart Manufacturing-Material Forming and Joining: Casting, Welding to Unbind the Potential of Traditional Manufacturing. 5. Computational and experimental analysis of erosion wear in a pipeline with butterfly valves. 6. Enhancing Concrete Performance with Sugarcane Bagasse Ash: Impact on Workability, Strength and Durability. Section II: Transformation of Advanced Materials processing towards industrial Engineering. 7. Technological prospecting for the sugarcane juice extraction stage: a patentometric study on the diffuser and crushing mill process. 8. Comparative Analysis of Recycled HDPE Tiles with Graphene Against Solar Panels: A Study from The Perspective of Frugal Innovation and Technoscience as an Instrument for Technological and Social Development. 9. Feasibility Study and Design of Heat Sink of Passive Cooling System. 10. Effects of Addition of Plastic Waste on the Strength Properties of Concrete and Bituminous Asphalt. 11. Using Value Stream Mapping (VSM) as a Lean Production Tool: Streamlining the Production process in a Lubricants and Degreasers Company. 12.Study of Design Requirements for the Design of Bakelite Materials for Smart Manufacturing Applications.
