The global industrial robotics category is anticipated to grow at a CAGR of 10.5% from 2023 to 2030.
Industrial Robotics Category Overview
The global industrial robotics category is anticipated to grow at a CAGR of 10.5% from 2023 to 2030. Growth of the category can be attributed to increased focus on ensuring workplace safety, rising attention for increasing the productivity of assembly lines supporting high volumes, increasing need for collaborative robots across multiple industries, higher adoption of Industry 4.0, and stringent federal guidelines for handling dangerous goods and materials. However, challenges pertaining to integration and complexities associated with the product offered in the category may hinder the global demand. Interoperability is essential in any manufacturing facility and small & medium enterprises (SMEs) are particularly challenged by interoperability concernsbecause of their exceptional needs and staffing shortages when it comes to setting up sophisticated automation systems.
Access the Industrial Robotics Procurement Intelligence Report, 2023 – 2030, published by Grand View Research, to get more details regarding day one, quick wins, portfolio analysis, key negotiation strategies of key suppliers, and low-cost/best-cost sourcing analysis
Technologies that drive the global category include collaborative robots, IIoT (industrial internet of things), industrial cyber security, big data & analytics, and open automation architecture. Collaborative robots are significantly less expensive and can operate along with the humans, safely. Manufacturers with stringent return on investment requirements will be more likely to utilize them as these robots gain more capability in demanding industrial environments over time. In addition, industrial robots are increasingly utilizing smart sensors and actuators to gather data that manufacturers were previously unable to obtain. IIoT makes use of these smart devices and real-time analytics to maximize the data generated over the years by dumb machines in industrial settings. Furthermore, the greater robot connectivity to internal data gathering systems, the higher the risk of cyber security. Manufacturers will need to make significant investments in cyber security and address process weaknesses in order to guarantee dependable and secure output.
Industrial Robotics Procurement Intelligence Report Scope
The Industrial Robotics category is expected to have pricing growth outlook of 10% – 15% (annual) from 2023 to 2030, with below pricing models.
Supplier Selection Scope
Supplier Selection Criteria
Industrial Robotics Procurement Intelligence Report Coverage
Grand View Research will cover the following aspects in the report:
Order your copy of the Industrial Robotics Procurement Intelligence Report, 2023 – 2030 (Revenue Forecast, Supplier Ranking & Matrix, Emerging Technologies, Pricing Models, Cost Structure, Engagement & Operating Model, Competitive Landscape)
Industrial Robotics Procurement Cost and Supplier Intelligence
The category for industrial robotics is fragmented and witnesses large number of global market players, turning the category to be highly competitive. Key players in the industry are continuously upgrading their existing product offerings and investing in research & development to support the introduction of new products, in order to enhance their product portfolio and stay competitive. In addition, they are adopting the strategies such as expansion of operational presence, joint ventures, mergers & acquisitions, etc. to strengthen their position in the industry. For instance, ABB Robotics recently introduced new variants of its “GoFa” series robots, such as GoFa 10 and 12, which possess improved efficiency, increased payload capacity, and additional features. The category possesses low threat of new entrants as manufacturing these robots require high initial investments, supplemented by knowledge of skilled specialists.
Purchase cost (cost of robot, cost of training, and extended warranty costs), power consumption, maintenance cost and downtime cost are the key components that constitutes the total cost of ownership for the products offered in this category. The purchase cost constitutes 50% – 80% of total cost, therefore, it is recommended to the product’s reliability into account because low reliability would result in significant downtime and spare component costs (which are included in maintenance costs) that increase overall operational costs. Without a robot downtime history record, it can be challenging to assess the cost of robot downtime. Purchasing a new industrial robot will cost over USD 24,900 for entry-level options and go up-to over USD 99,900 for higher tech versions. The price depends on number of factors, such as the end-of-arm tool (EOAT), software, teach pendant, controller, etc. The ultimate cost of a robot can be greatly influenced by any of these add-ons.
Key Companies Profiled:
ABB Ltd (ABB Robotics), Comau S.p.A., DENSO Products & Services Americas, Inc., FANUC Corporation, IRS Robotics, Kawasaki Heavy Industries, Ltd., KUKA AG, Mitsubishi Electric Corporation, Nachi-Fujikoshi Corp., OMRON Corporation, Techman Robot Inc., and Yaskawa Electric Corporation
© 2024 Crivva - Business Promotion. All rights reserved.