
Aerospace Robotics Market Share, Size, Trends, Industry Analysis Report, By Solution (Traditional Robots, Collaborative Robots); By Component (Controller, Sensor, Drive, End Effector); By Payload; By Application; By Region; Segment Forecast, 2022 - 2030
Description
The global aerospace robotics market size is expected to reach USD 11.78 billion by 2034 according to a new study by Polaris Market Research. The report “Aerospace Robotics Market Share, Size, Trends, Industry Analysis Report, By Solution (Traditional Robots, Collaborative Robots); By Component; By Payload; By Application; By Region; Segment Forecast, 2025 - 2034” gives a detailed insight into current market dynamics and provides analysis on future market growth.
The global market is expanding rapidly worldwide, and this trend is projected to continue throughout the forecast period. The aerospace robotics market is developing due to rising worldwide aircraft demand and manufacture, increasing usage of robots for efficient aircraft manufacturing processes, increasing use of robotics to manage aircraft orders backlog, and increasing manual labor costs.
Fabrication activities such as trimming, carbon fiber layup, routing, and drilling can benefit from robotics. Aviation robots commonly perform assembly tasks such as attaching, sealing, and painting. The heavy parts are moved around on Automated Guided Vehicles due to the adoption of automation technology (AGVs). The robots are then placed in their proper positions and put to work. End effectors, the parts of robots that interact with their surroundings, increase their capacity to handle heavier weights to move heavy aircraft components.
Owing to an increase in demand for composites-based components in the aerospace industry, such as efficient engine rotor blades and aircraft frame structure, the composites application segment is predicted to develop at a faster CAGR over the forecast period. Carbon fiber reinforced plastic (CFRP) applications are also in high demand. Press unloading, forging, foundry, handling, and other processes are part of the material handling segment.
Painting, cleaning, laser treatment, high-pressure water jet washing, and other surface treatments are also included in the surface treatment sector. Drilling, eddy-current inspection, welding, and other processes are included in the assembly section. Due to the widespread use of robots for welding, drilling, and painting applications in aircraft manufacturing, this sector is witnessed to have the highest market share in 2021.
The escalating demand from emerging markets such as India and China will create a lucrative growth opportunity in the Asia Pacific region. The aviation industry has made significant contributions to regional market growth. The supportive initiatives taken by the government which ensure the automation of the aerospace sector is another factor augmenting the market growth.
Kuka AG, ABB Group, Fanuc Corporation, Yaskawa Electric, Kawasaki Heavy Industries, Mtorres, Oliver Crispin Robotics, Gudel Ag, Electroimpact Inc., Universal Robots A/S, Swisslog Ag, Reis Robotics, Boston Dynamics, Bosch Rexroth are some of the players operating in the market. In November 2021, the new LR-10iA/10 robot from FANUC America was designed for machine handling and selected applications in the warehouse and logistics industry.
Polaris Market Research has segmented the aerospace robotics market report based on component, solution, payload, application, and region:
Aerospace Robotics, Component Outlook (Revenue - USD Billion, 2020 - 2034)
Controller
Sensor
Drive
End Effector
Aerospace Robotics, Solution Outlook (Revenue - USD Billion, 2020 - 2034)
Traditional Robots
Collaborative Robots
Aerospace Robotics, Payload Outlook (Revenue - USD Billion, 2020 - 2034)
Up to 16.00 Kgs
16.01 - 60.00 Kgs
60.01 - 225.00 Kgs
More than 225.00 Kgs
Aerospace Robotics, Application Outlook (Revenue - USD Billion, 2020 - 2034)
Drilling & Fastening
Non-destructive Testing & Inspection
Welding & Soldering
Sealing & Dispensing
Processing
Handling
Assembling & Disassembling
Aerospace Robotics, Regional Outlook (Revenue - USD Billion, 2020 - 2034)
North America
U.S.
Canada
Europe
France
Germany
UK
Italy
Spain
Russia
Netherlands
Asia Pacific
China
India
Japan
Malaysia
South Korea
Indonesia
Latin America
Mexico
Brazil
Argentina
Middle East & Africa
UAE
Saudi Arabia
Israel
South Africa
The global market is expanding rapidly worldwide, and this trend is projected to continue throughout the forecast period. The aerospace robotics market is developing due to rising worldwide aircraft demand and manufacture, increasing usage of robots for efficient aircraft manufacturing processes, increasing use of robotics to manage aircraft orders backlog, and increasing manual labor costs.
Fabrication activities such as trimming, carbon fiber layup, routing, and drilling can benefit from robotics. Aviation robots commonly perform assembly tasks such as attaching, sealing, and painting. The heavy parts are moved around on Automated Guided Vehicles due to the adoption of automation technology (AGVs). The robots are then placed in their proper positions and put to work. End effectors, the parts of robots that interact with their surroundings, increase their capacity to handle heavier weights to move heavy aircraft components.
Owing to an increase in demand for composites-based components in the aerospace industry, such as efficient engine rotor blades and aircraft frame structure, the composites application segment is predicted to develop at a faster CAGR over the forecast period. Carbon fiber reinforced plastic (CFRP) applications are also in high demand. Press unloading, forging, foundry, handling, and other processes are part of the material handling segment.
Painting, cleaning, laser treatment, high-pressure water jet washing, and other surface treatments are also included in the surface treatment sector. Drilling, eddy-current inspection, welding, and other processes are included in the assembly section. Due to the widespread use of robots for welding, drilling, and painting applications in aircraft manufacturing, this sector is witnessed to have the highest market share in 2021.
The escalating demand from emerging markets such as India and China will create a lucrative growth opportunity in the Asia Pacific region. The aviation industry has made significant contributions to regional market growth. The supportive initiatives taken by the government which ensure the automation of the aerospace sector is another factor augmenting the market growth.
Kuka AG, ABB Group, Fanuc Corporation, Yaskawa Electric, Kawasaki Heavy Industries, Mtorres, Oliver Crispin Robotics, Gudel Ag, Electroimpact Inc., Universal Robots A/S, Swisslog Ag, Reis Robotics, Boston Dynamics, Bosch Rexroth are some of the players operating in the market. In November 2021, the new LR-10iA/10 robot from FANUC America was designed for machine handling and selected applications in the warehouse and logistics industry.
Polaris Market Research has segmented the aerospace robotics market report based on component, solution, payload, application, and region:
Aerospace Robotics, Component Outlook (Revenue - USD Billion, 2020 - 2034)
Controller
Sensor
Drive
End Effector
Aerospace Robotics, Solution Outlook (Revenue - USD Billion, 2020 - 2034)
Traditional Robots
Collaborative Robots
Aerospace Robotics, Payload Outlook (Revenue - USD Billion, 2020 - 2034)
Up to 16.00 Kgs
16.01 - 60.00 Kgs
60.01 - 225.00 Kgs
More than 225.00 Kgs
Aerospace Robotics, Application Outlook (Revenue - USD Billion, 2020 - 2034)
Drilling & Fastening
Non-destructive Testing & Inspection
Welding & Soldering
Sealing & Dispensing
Processing
Handling
Assembling & Disassembling
Aerospace Robotics, Regional Outlook (Revenue - USD Billion, 2020 - 2034)
North America
U.S.
Canada
Europe
France
Germany
UK
Italy
Spain
Russia
Netherlands
Asia Pacific
China
India
Japan
Malaysia
South Korea
Indonesia
Latin America
Mexico
Brazil
Argentina
Middle East & Africa
UAE
Saudi Arabia
Israel
South Africa
Table of Contents
126 Pages
- Chapter 1.Research Methodology Overview
- 1.1Research Methodology
- 1.2Research Scope and Assumptions
- 1.3Information Procurement
- 1.3.1Purchased Database
- 1.3.2Internal Database
- 1.3.3Secondary Sources
- 1.3.4Third Party Perspective
- 1.3.5Primary Research
- 1.4Information Analysis
- 1.4.1Data Analysis Models
- 1.5Market Formulation and Data Visualization
- 1.6Data Validation and Publishing (Secondary Sources)
- Chapter 2.Executive Summary
- 2.1Market Overview
- 2.2Market Segmentation
- 2.2.1Market By Product
- 2.2.2Market By Waste Type
- 2.2.3Market By End-Use
- 2.2.4Geographic Overview
- Chapter 3.Medical Waste Container Market Insights
- 3.1Medical Waste Container – Market Size And Growth Prospects
- 3.2Medical Waste Container Market Dynamics
- 3.2.1Medical Waste Container Market Driver and Opportunity Analysis
- 3.2.1.1Increasing Demand for Efficient Waste Disposal
- 3.2.1.2Increasing Cases of Hospital Acquired Infections
- 3.2.2Medical Waste Container Market Restraint/Challenges Analysis
- 3.2.2.1Lack of Awareness Regarding the Collection of Medical Wastes in Specific Containers
- 3.2.2.2Growing Environmental Impact of Medical Waste
- 3.3Medical Waste Container Market- Porter’s Five Forces Analysis
- 3.4Medical Waste Container Market- PESTLE Analysis
- 3.5Medical Waste Container Market- Value Chain Analysis
- 3.6Medical Waste Container Market- Key Industrial Trends
- Chapter 4.Medical Waste Container Market Assessment By Product
- 4.1Introduction
- 4.2Chemotherapy Containers
- 4.3Biohazardous Waste Containers
- 4.4Sharps Waste Containers
- 4.5Resource Conservation and Recovery Act (RCRA) Containers
- 4.6Others
- Chapter 5.Medical Waste Container Market Assessment By Waste Type
- 5.1Introduction
- 5.2General Waste
- 5.3Infectious Waste
- 5.4Hazardous Waste
- 5.5Radioactive Waste
- 5.6Sharps Waste
- Chapter 6.Medical Waste Container Market Assessment By End-Use
- 6.1Introduction
- 6.2Hospitals & Private Clinics
- 6.3Diagnostic Laboratories
- 6.4Pharmaceutical and Biotechnology Companies & CROs
- 6.5Academic Research Institutes
- 6.6Others
- Chapter 7.Medical Waste Container Market Assessment by Geography
- 7.1Introduction
- 7.2Medical Waste Container Market - North America
- 7.2.1U.S.
- 7.2.2Canada
- 7.3Medical Waste Container Market - Europe
- 7.3.1Germany
- 7.3.2France
- 7.3.3Italy
- 7.3.4U.K
- 7.3.5Spain
- 7.3.6Netherlands
- 7.3.7Austria
- 7.3.8Rest of Europe
- 7.4Medical Waste Container Market - Asia-Pacific
- 7.4.1China
- 7.4.2India
- 7.4.3Japan
- 7.4.4Indonesia
- 7.4.5South Korea
- 7.4.6Malaysia
- 7.4.7Rest of APAC
- 7.5Medical Waste Container Market - Latin America
- 7.5.1Brazil
- 7.5.2Argentina
- 7.5.3Mexico
- 7.5.4RoLATAM
- 7.6Medical Waste Container Market - Middle East And Africa
- 7.6.1Saudi Arabia
- 7.6.2South Africa
- 7.6.3UAE
- 7.6.4Israel
- 7.6.5Rest of Middle East & Africa
- Chapter 8.Competitive Landscape
- 8.1Product Development and Launches are the Best Adopted Strategy by the Companies
- 8.2Key Developments
- Chapter 9.Company Profiles
- 9.1Becton Dickinson and Co.
- 9.1.1Business Overview
- 9.1.2Financial Snapshot
- 9.1.3Product Benchmarking
- 9.1.4Recent Developments
- 9.2Daniels Sharpsmart Inc.
- 9.2.1Business Overview
- 9.2.2Product Benchmarking
- 9.3Bemis Manufacturing Company
- 9.3.1Business Overview
- 9.3.2Product Benchmarking
- 9.4Medgen Medical Products
- 9.4.1Business Overview
- 9.4.2Product Benchmarking
- 9.5Bondtech Corporation
- 9.5.1Business Overview
- 9.5.2Product Benchmarking
- 9.6Henry Schein Inc.
- 9.6.1Business Overview
- 9.6.2Financial Snapshot
- 9.6.3Product Benchmarking
- 9.7EnviroTain, LLC
- 9.7.1Business Overview
- 9.7.2Product Benchmarking
- 9.8Cardinal Health Inc.
- 9.8.1Business Overview
- 9.8.2Financial Snapshot
- 9.8.3Product Benchmarking
- 9.8.4Recent Developments
- 9.9Stericycle Inc.
- 9.9.1Business Overview
- 9.9.2Financial Snapshot
- 9.9.3Product Benchmarking
- 9.9.4Recent Developments
- 9.10GPC Medical Ltd.
- 9.10.1Business Overview
- 9.10.2Product Benchmarking
Pricing
Currency Rates
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