Global Robotic Cutting, Deburring, and Finishing Market 2017-2021

  • ID: 4339920
  • Report
  • Region: Global
  • 87 pages
  • TechNavio
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FEATURED COMPANIES

  • ARCOS
  • ATI Industrial Automation
  • BB
  • FANUC
  • Fastems
  • Genesis Sytems
  • MORE

About Robotic Cutting, Deburring, and Finishing

An industrial robot is employed in manufacturing industries to perform complex operations such as arc welding, material handling, material removal, packaging, picking, and molding, among others. The robots employed in material handling, picking, and welding applications are the largest revenue contributors to the global industrial robotics market. These robots are widely used to perform tasks that are dangerous and unsuitable for human workers. Since 2000, industrial robots have been reshaping the manufacturing industry by providing a wide range of industrial solutions. The demand for high productivity and accuracy in the manufacturing sector is constantly augmenting the demand for industrial robots over the last 10-15 years. Industrial robots are categorized based on the number of axes, process performed, structure type, payload capability, size of work envelope, and speed.

Cutting, deburring, and finishing are the major applications that are carried out during the material removal process. Dedicated material removal robots are implemented in the industrial sector to perform these tasks under hazardous environments.

The analysts forecast the global robotic cutting, deburring, and finishing market to grow at a CAGR of 12.92% during the period 2017-2021.

Covered in this report
The report covers the present scenario and the growth prospects of the global robotic cutting, deburring, and finishing market for 2017-2021. To calculate the market size, the report considers the new installations, retrofits, and replacement market.

The market is divided into the following segments based on geography:

  • Americas
  • APAC
  • EMEA

The report, Global Robotic Cutting, Deburring, and Finishing Market 2017-2021, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.

Key vendors

  • ABB
  • FANUC
  • Kawasaki Heavy Industries
  • KUKA
  • Yaskawa Motoman

Other prominent vendors

  • ARCOS
  • ATI Industrial Automation
  • Fastems
  • Genesis Sytems
  • Romheld Automation

Market drivers

  • Increasing need for accuracy and productivity in manufacturing process
  • For a full, detailed list, view the full report

Market challenges

  • Growing operational difficulties due to technical challenges
  • For a full, detailed list, view the full report

Market trends

  • Growing demand for human-robot collaboration
  • For a full, detailed list, view the full report

Key questions answered in this report

  • What will the market size be in 2021 and what will the growth rate be?
  • What are the key market trends?
  • What is driving this market?
  • What are the challenges to market growth?
  • Who are the Key vendors in this market space?
  • What are the market opportunities and threats faced by the key vendors?
  • What are the strengths and weaknesses of the key vendors?

You can request one free hour of the analyst’s time when you purchase this market report. Details are provided within the report.

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Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • ARCOS
  • ATI Industrial Automation
  • BB
  • FANUC
  • Fastems
  • Genesis Sytems
  • MORE

PART 01: Executive summary

PART 02: Scope of the report

PART 03: Research Methodology

PART 04: Introduction

  • Market outline
  • Market opportunity
  • Overall impact of drivers and challenges on the global robotic cutting, deburring, and finishing market

PART 05: Market landscape

  • Market overview
  • Value chain analysis
  • Five forces analysis
  • Market size and forecast

PART 06: Market segmentation by product

  • Market overview
  • Global 6-axis and 7-axis robotic cutting, deburring, and finishing market
  • Global 3-axis to 5-axis robotic cutting, deburring, and finishing market

PART 07: Market segmentation by end-user

  • Market overview
  • Global robotic cutting, deburring, and finishing market in the automotive industry
  • Global robotic cutting, deburring, and finishing market in the metal industry
  • Global robotic cutting, deburring, and finishing market in the electronics industry
  • Global robotic cutting, deburring, and finishing market in other industries

PART 08: Geographical segmentation

  • Market overview
  • Robotic cutting, deburring, and finishing market in APAC
  • Robotic cutting, deburring, and finishing market in EMEA
  • Robotic cutting, deburring, and finishing market in the Americas

PART 09: Decision framework

PART 10: Drivers and challenges

  • Market drivers
  • Market challenges

PART 11: Market trends

  • Growing demand for human-robot collaboration
  • Emerging need for IoT-enabled robots to support Industry 4.0
  • Emergence of two-arm industrial robots for cutting, deburring, and finishing operations

PART 12: Vendor landscape

  • Competitive landscape

PART 13: Key vendor analysis

  • ABB
  • FANUC
  • Kawasaki Heavy Industries
  • KUKA
  • Yaskawa Motoman
  • Other prominent vendors
  • Key takeaways

PART 14: Appendix

  • List of abbreviations

List of Exhibits
Exhibit 01: Major operations performed by material removal robots
Exhibit 02: Market opportunity for cutting, deburring, and finishing robots
Exhibit 03: Impact level of drivers and challenges on the growth of the global robotic cutting, deburring, and finishing market
Exhibit 04: Segmentation of the global robotic cutting, deburring, and finishing market
Exhibit 05: Supply chain of the global robotic cutting, deburring, and finishing market
Exhibit 06: Volume of raw materials used in cutting, deburring, and finishing robots (% share)
Exhibit 07: Key market dynamics
Exhibit 08: Five forces analysis
Exhibit 09: Global robotic cutting, deburring, and finishing market 2016-2021 (units)
Exhibit 10: Performance of the global robotic cutting, deburring, and finishing market
Exhibit 11: Product lifecycle stage of the global robotic cutting, deburring, and finishing market
Exhibit 12: Segmentation of the robotic cutting, deburring, and finishing market by product
Exhibit 13: Segmentation of the global robotic cutting, deburring, and finishing market by product 2016 and 2021 (% share)
Exhibit 14: Global 6-axis and 7-axis robotic cutting, deburring, and finishing market 2016-2021 (units)
Exhibit 15: Performance of the global 6-axis and 7-axis robotic cutting, deburring, and finishing market
Exhibit 16: Function of 6-axis and 7-axis cutting, deburring, and finishing robots.
Exhibit 17: Pros and cons of 6-axis and 7-axis cutting, deburring, and finishing robots
Exhibit 18: Global 3-axis to 5-axis robotic cutting, deburring, and finishing market 2016-2021 (units)
Exhibit 19: Performance of the global 3-axis to 5-axis robotic cutting, deburring, and finishing market
Exhibit 20: Functions of 3-axis to 5-axis cutting, deburring, and finishing robots
Exhibit 21: Pros and cons of 3-axis to 5-axis cutting, deburring, and finishing robots
Exhibit 22: Segmentation of the global robotic cutting, deburring, and finishing market by end-user 2016 and 2021 (% share)
Exhibit 23: Global robotic cutting, deburring, and finishing market in the automotive industry 2016-2021 (units)
Exhibit 24: Performance of the global robotic cutting, deburring, and finishing market in the automotive industry
Exhibit 25: List of recent automotive investments
Exhibit 26: Drivers and challenges for the global robotic cutting, deburring, and finishing market in the automotive industry
Exhibit 27: Global robotic cutting, deburring, and finishing market in the metal industry 2016-2021 (units)
Exhibit 28: Performance of the global robotic cutting, deburring, and finishing market in the metal industry
Exhibit 29: Few of the recent projects in the steel manufacturing sector
Exhibit 30: Drivers and challenges for the global robotic cutting, deburring, and finishing market in the metal industry
Exhibit 31: Global robotic cutting, deburring, and finishing market in the electronics industry 2016-2021 (units)
Exhibit 32: Performance of the global robotic cutting, deburring, and finishing market in the electronics industry
Exhibit 33: Drivers and challenges of the global robotic cutting, deburring, and finishing market in the electronics industry
Exhibit 34: Global robotic cutting, deburring, and finishing market in other industries 2016-2021 (units)
Exhibit 35: Performance of the global robotic cutting, deburring, and finishing market in other industries
Exhibit 36: Drivers and challenges of the global robotic cutting, deburring, and finishing market in other industries
Exhibit 37: Global robotic cutting, deburring, and finishing market by geography 2016 and 2021 (% share)
Exhibit 38: Robotic cutting, deburring, and finishing market in APAC 2016-2021 (units)
Exhibit 39: Performance of the robotic cutting, deburring, and finishing market in APAC
Exhibit 40: Recent automotive investment in APAC
Exhibit 41: List of upcoming projects in the metal industry in India
Exhibit 42: Robotic cutting, deburring, and finishing market in EMEA 2016-2021 (units)
Exhibit 43: Performance of the robotic cutting, deburring, and finishing market in EMEA
Exhibit 44: Key investments in the automotive industry in Europe
Exhibit 45: Robotic cutting, deburring, and finishing market in the Americas 2016-2021 (units)
Exhibit 46: Performance of the robotic cutting, deburring, and finishing market in the Americas
Exhibit 47: List of upcoming projects in the steel industry in the Americas
Exhibit 48: Impact of driver on end-users and geography
Exhibit 49: Impact of driver on end-users and geography
Exhibit 50: Advantages of cutting, deburring, and finishing robots over CNC machines in the automotive sector
Exhibit 51: Impact of driver on end-users and geography
Exhibit 52: Impact of driver on end-users and geography
Exhibit 53: Impact of challenge on end-users and geography
Exhibit 54: Impact of challenge on end-users and geography
Exhibit 55: Impact of challenge on end-users and geography
Exhibit 56: Impact of competitors on the global robotic cutting, deburring, and finishing market
Exhibit 57: ABB: Product analysis
Exhibit 58: Recent development in the global robotic cutting, deburring, and finishing market in ABB
Exhibit 59: FANUC: Product analysis
Exhibit 60: Recent development in the global robotic cutting, deburring, and finishing market in FANUC
Exhibit 61: Kawasaki Heavy Industries: Product analysis
Exhibit 62: Recent development in the global robotic cutting, deburring, and finishing market in Kawasaki Heavy Industries
Exhibit 63: KUKA: Product analysis
Exhibit 64: Recent developments in the global robotic cutting, deburring, and finishing market in KUKA
Exhibit 65: Yaskawa Motoman: Product analysis
Exhibit 66: Recent development in the global robotic cutting, deburring, and finishing market in Yaskawa Motoman
Exhibit 67: List of prominent vendors

Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • ARCOS
  • ATI Industrial Automation
  • BB
  • FANUC
  • Fastems
  • Genesis Sytems
  • MORE

New Report Released: – Global Robotic Cutting, Deburring, and Finishing Market 2017-2021

The author of the report recognizes the following companies as the key players in the global robotic cutting, deburring, and finishing market: BB, FANUC, Kawasaki Heavy Industries, KUKA, and Yaskawa Motoman.

Other Prominent Vendors in the market are: ARCOS, ATI Industrial Automation, Fastems, Genesis Sytems, and Romheld Automation.

Commenting on the report, an analyst from the research team said: “The latest trend gaining momentum in the market is Growing demand for human-robot collaboration. Application-specific requirements from manufacturing industries are expected to augment the development of cage-free robots. This technology will facilitate robots to perform industrial manufacturing operations in close proximity to humans. The concept of human-robot collaboration explains the assistance of robots to the human operator. Precisely, this concept signifies that robots are not the replacement of human, but complements the capabilities and relieves human operators in doing hazardous tasks. Human-robot collaboration can be used in heavy-duty works such as the lifting of heavy loads, cutting, deburring, and polishing of materials.”

According to the report, one of the major drivers for this market is Increasing need for accuracy and productivity in manufacturing process. The changing dynamics of the competitive industry has led to demand for increased productivity and reduced processing time. The intense competitive pressure has forced manufacturers to run their production process 24 hours a day, seven days a week, and stop only during maintenance. With traditional machines, all the cutting, deburring, and finishing operations in the manufacturing process are carried out on each workpiece with operator intervention. It results in low productivity, low accuracy, and often requires break during the manufacturing process. Thus, the concept of industrial robots came into existence to carry out various industrial operations such as material handling and material removal operation in a more convenient and affordable manner. These robots are built to perform cutting, deburring, and finishing task repeatedly without ever taking a break. In the opinion of many reputed machinists, the productivity of the factory can be tripled by replacing traditional machines with cutting, deburring, and finishing robots.

Further, the report states that one of the major factors hindering the growth of this market is Growing operational difficulties due to technical challenges. In a machining operation, the reactionary forces on workpiece depend on the hardness and machinability of materials. As cutting, deburring, and finishing robots lack the required rigidity, the system sometimes vibrates and affects the finishing quality and accuracy of the workpiece. The robots deliver desired output while machining softer materials such as aluminum. However, they face an intense challenge while performing a machining operation on cold-rolled steel and hard materials. This problem is encountered due to the lack of rigidity of robots during machining those hard materials.

The study was conducted using an objective combination of primary and secondary information including inputs from key participants in the industry. The report contains a comprehensive market and vendor landscape in addition to a SWOT analysis of the key vendors.

Note: Product cover images may vary from those shown
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  • BB
  • FANUC
  • Kawasaki Heavy Industries
  • KUKA
  • Yaskawa Motoman
  • ARCOS
  • ATI Industrial Automation
  • Fastems
  • Genesis Sytems
  • Romheld Automation
Note: Product cover images may vary from those shown
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Note: Product cover images may vary from those shown
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