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"The ongoing Coronavirus (COVID-19) pandemic is re-shaping everything from global economies to product categories, pricing, and stock availability to the consumer behavior. The final report is updated to address the impact of COVID-19 on the Industrial Automotive Robots market. Trusted Business Insights is tracking mining/oil and gas, transportation, employment services, travel arrangements, and the leisure and hospitality sector closely as they are likely to be the hardest-hit sectors. Utilities, local pharma, diagnostics, consumer goods and durables, agro chem and fertilizers, and telecommunications are the sectors that will be weathering the COVID-19 storm and most likely come out relatively unscathed. Interdependencies of sectors are factored in our research report on the Industrial Automotive Robots market." An industrial robot is a robot system used for manufacturing. Industrial robots are automated, programmable and capable of movement on two or more axes. The following 6 robotic applications are the most common in the automotive industry.Collaborative Robots: these collaborative robots are built to work together with other robots, on enormous assembly lines. Robots must collaborate between handling and welding robots to make such assembly lines function properly. Robotic Painting: Professional painters are difficult to find and the job is a highly toxic one. This makes it perfect for robots because the paint job needs to be highly consistent over a large area of paint, and reducing the amount of wasted material can add up to quite a bit of savings over time. Robotic Welding: Robotic welding has been the top robotic application in the automotive sector for a long time, as every car needs a high number of welds before its complete. Given the high value of the finished product, productivity from automation is enormous. Robotic Assembly: In many automotive plants, robots are assembling smaller components like pumps and motors at high speeds. Often, robots are performing tasks like windshield installation and wheel mounting to increase throughput. Material Removal: High consistency and repeatability make robots perfect for material removal processes like trimming and cutting. This could be in the form of cutting fabrics, trimming plastic moldings and die castings or even polishing molds. Part Transfer and Machine Tending: Pouring molten metal, transferring metal stamps, and loading and unloading CNC machines are all best completed by a robot as they are dangerous. When completed consistently with little downtime they can also be a source of major productivity. The global Industrial Automotive Robots market is valued at 31500 million US$ in 2018 is expected to reach 54900 million US$ by the end of 2025, growing at a CAGR of 7.2% during 2019-2025. This report focuses on Industrial Automotive Robots volume and value at global level, regional level and company level. From a global perspective, this report represents overall Industrial Automotive Robots market size by analyzing historical data and future prospect. Regionally, this report focuses on several key regions: North America, Europe, China and Japan. At company level, this report focuses on the production capacity, ex-factory price, revenue and market share for each manufacturer covered in this report. The following manufacturers are covered: ABB Fanuc KUKA Yaskawa Electric Adept Technology Apex Automation and Robotics Aurotek Daihen Finsar Kawasaki Robotics Segment by Regions North America Europe China Japan Segment by Type Articulated robot Cartesian robot SCARA robot Cylindrical robot Parallel Robots Collaborative Robots Segment by Application Material handling Welding and soldering Dispensing Assembling and disassembling Painting
Table of Contents Executive Summary 1 Industrial Automotive Robots Market Overview 1.1 Product Overview and Scope of Industrial Automotive Robots 1.2 Industrial Automotive Robots Segment by Type 1.2.1 Global Industrial Automotive Robots Production Growth Rate Comparison by Type (2014-2025) 1.2.2 Articulated robot 1.2.3 Cartesian robot 1.2.4 SCARA robot 1.2.5 Cylindrical robot 1.2.6 Parallel Robots 1.2.7 Collaborative Robots 1.3 Industrial Automotive Robots Segment by Application 1.3.1 Industrial Automotive Robots Consumption Comparison by Application (2014-2025) 1.3.2 Material handling 1.3.3 Welding and soldering 1.3.4 Dispensing 1.3.5 Assembling and disassembling 1.3.6 Painting 1.4 Global Industrial Automotive Robots Market by Region 1.4.1 Global Industrial Automotive Robots Market Size Region 1.4.2 North America Status and Prospect (2014-2025) 1.4.3 Europe Status and Prospect (2014-2025) 1.4.4 China Status and Prospect (2014-2025) 1.4.5 Japan Status and Prospect (2014-2025) 1.5 Global Industrial Automotive Robots Market Size 1.5.1 Global Industrial Automotive Robots Revenue (2014-2025) 1.5.2 Global Industrial Automotive Robots Production (2014-2025) 2 Global Industrial Automotive Robots Market Competition by Manufacturers 2.1 Global Industrial Automotive Robots Production Market Share by Manufacturers (2014-2019) 2.2 Global Industrial Automotive Robots Revenue Share by Manufacturers (2014-2019) 2.3 Global Industrial Automotive Robots Average Price by Manufacturers (2014-2019) 2.4 Manufacturers Industrial Automotive Robots Production Sites, Area Served, Product Types 2.5 Industrial Automotive Robots Market Competitive Situation and Trends 2.5.1 Industrial Automotive Robots Market Concentration Rate 2.5.2 Industrial Automotive Robots Market Share of Top 3 and Top 5 Manufacturers 2.5.3 Mergers & Acquisitions, Expansion 3 Global Industrial Automotive Robots Production Market Share by Regions 3.1 Global Industrial Automotive Robots Production Market Share by Regions 3.2 Global ... | read more...