Advancements in Welding, Robotics, 3D Printing, and Laser Technology

Advancements in Welding, Robotics, 3D Printing, and Laser Technology

RELEASE DATE
30-Aug-2019
REGION
Global
Research Code: D718-00-7B-00-00
SKU: CI00641-GL-TA_23541
$950.00
In stock
SKU
CI00641-GL-TA_23541
$950.00
DownloadLink

Pay by invoice

ENQUIRE NOW

Description

This Advanced Manufacturing Technology TechVision Opportunity Engine (TOE) profiles advancements in robots, 3D printing, welding technology and laser technology. Innovations profiled in this TOE include 3D printing of lightweight materials for construction and automotive applications for the printing of complex, lightweight structures with high load bearing capability. In addition, innovations in warehouse robots that can identify 3D structures and perform material handing tasks, welding technique for high temperature resistant materials, fiber laser technology that offers efficient throughput and self-configuring soft robots for challenging applications are other focus areas of the TOE.

The Advanced Manufacturing Technology TOE covers global innovations and developments related to manufacturing and industrial automation on a weekly basis. Innovations are focused toward improving product traceability, energy efficiency and reducing environmental footprints, integrating product design and manufacturing aspects for reducing time-to-market. Research focus areas include rapid prototyping (additive manufacturing), lightweighting (multimaterial joining, plastics and metals manufacturing, carbon fiber-based composite manufacturing), smart robotics (agile robots, consumer robots, swarm robotics, cobots), monitoring and control (wireless control networks, human machine interface), and simulation and modeling (design and simulation software).

The Advanced Manufacturing and Automation (AMA) Cluster covers technologies that enable clean, lean and flexible manufacturing and industrial automation. Technologies such as three-dimensional (3D) and four-dimensional (4D) printing, wireless sensors and networks, information and communication technology, multimaterial joining, composites manufacturing, digital manufacturing, micro- and nano-manufacturing, lasers, advanced software, and printing techniques, are covered as part of this cluster. The technologies covered here impact a wide range of industries, such as the impact semiconductor, automotive and transportation, aerospace and defense, industrial, healthcare, logistics, and electronics industries.

Keywords: 3D printing, piezoelectric materials, digital light processing, robots, welding technique, ceramics, warehouse robots, stereolithography, metal 3D printing, fiber laser, laser marking machine, self-configuring robot, 4D printing

Table of Contents

Recent Developments in Welding, Robotics, 3D Printing, and Laser Technology

  • 3D Printing in Construction
  • Impact on Sectors
  • Stereolithography 3D printing for Lightweighting Applications in the Automotive Industries
  • Impact on Sectors
  • Mobile Robots for Retail Shops and Warehouses
  • Impact on Sectors
  • Metal 3D Printing Has Been expanded Across the Regions
  • Impact on Sectors
  • Welding Technique for High Temperature Resistant Materials
  • Impact on Sectors
  • Environment Friendly and Economical Laser Marking Machines
  • Impact on Sectors
  • Self-configuring Soft Robots for Challenging Applications
  • Impact on Sectors
  • 3D printing of Piezoelectric Materials Using Ultraviolet Light
  • Impact on Sectors
  • Key Contacts
  • Key Contacts (continued)
  • Your F&S Thought Leader
This Advanced Manufacturing Technology TechVision Opportunity Engine (TOE) profiles advancements in robots, 3D printing, welding technology and laser technology. Innovations profiled in this TOE include 3D printing of lightweight materials for construction and automotive applications for the printing of complex, lightweight structures with high load bearing capability. In addition, innovations in warehouse robots that can identify 3D structures and perform material handing tasks, welding technique for high temperature resistant materials, fiber laser technology that offers efficient throughput and self-configuring soft robots for challenging applications are other focus areas of the TOE. The Advanced Manufacturing Technology TOE covers global innovations and developments related to manufacturing and industrial automation on a weekly basis. Innovations are focused toward improving product traceability, energy efficiency and reducing environmental footprints, integrating product design and manufacturing aspects for reducing time-to-market. Research focus areas include rapid prototyping (additive manufacturing), lightweighting (multimaterial joining, plastics and metals manufacturing, carbon fiber-based composite manufacturing), smart robotics (agile robots, consumer robots, swarm robotics, cobots), monitoring and control (wireless control networks, human machine interface), and simulation and modeling (design and simulation software). The Advanced Manufacturing and Automation (AMA) Cluster covers technologies that enable clean, lean and flexible manufacturing and industrial automation. Technologies such as three-dimensional (3D) and four-dimensional (4D) printing, wireless sensors and networks, information and communication technology, multimaterial joining, composites manufacturing, digital manufacturing, micro- and nano-manufacturing, lasers, advanced software, and printing techniques, are covered as part of this cluster. The technologies covered here impact a wide range of industries, such as the impact semiconductor, automotive and transportation, aerospace and defense, industrial, healthcare, logistics, and electronics industries. Keywords: 3D printing, piezoelectric materials, digital light processing, robots, welding technique, ceramics, warehouse robots, stereolithography, metal 3D printing, fiber laser, laser marking machine, self-configuring robot, 4D printing
More Information
No Index No
Podcast No
Industries Cross Industries
WIP Number D718-00-7B-00-00
Is Prebook No