Tube Laser and Flatbed Laser Machine Market—by Process (Cutting, Printing, Engraving), End User (Architectural Models, Packaging Design, Sign & Displays, Food, Rubber Stamps) & Geography: Analysis & Forecast (2014-2020)
Laser technology is gaining traction in the market due to its very efficient and precise applications. Processes such as cutting, drilling, and engraving need higher accuracy as per the materials used. Tube laser and flatbed laser machines are garnering hype, as the demand from end user has greatly increased in last year.
To reduce overall production cost, manufacturers are moving toward technologies that are multifunctional and efficient. With the use of laser tube machines, this multi-functionality can be achieved along with cost effectiveness. the high efficiency of the process with flexibility adds extra dimension to its designing. This can be helpful for enhancing new product development at the same time reducing the time to market.
Laser use for cutting operations is still in its early growth stage. Flatbed laser machines are fueling this growth. CO2 and solid-state lasers are two widely accepted commercial types for flatbed laser machines. CO2 lasers are expected to dominate the market for flatbed in the coming 5 years.
Key application areas for the flatbed and tube laser machines are architectural models, awards & trophies, barcodes & serial numbers, data plates and industrial tags, fablabs & educational machine, medical technology, packaging design, promotional items, rubber stamps, signs & displays, signage, smartphones, and laptops.
This report will also discuss in detail the important applications and regional penetration of the technology. the main regional areas covered in this report are Americas, APAC, Europe, and Rest of the World (RoW).
Key players in the tube and flatbed laser machine market are by stronic, Inc., BLM Group USA Corp., FANUC Robotics America, Inc., Mazak Optonics Corp., Modern Machine Tool Co., Motoman, Inc., OTO Mills S.p.A, and TRUMPF, Inc.
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Table of Contents
1.Introduction
1.1.Key Objectives
1.2.Description
1.3.Scope
1.4.Market Segments
1.5.Stakeholders
1.6.Report Assumptions
1.6.1.General Assumptions & Glossary
1.6.2.Year-Wise & Forecast Assumptions
1.7.Research Methodology
1.7.1.Market Size
1.7.2.Market Crackdown & Data Triangulation
1.7.3.Key Data Points Taken From Secondary Sources
1.7.4.Key Data Points Taken From Primary Sources
1.7.5.Key Companies of Primary Research
2.Executive Summary
3.Market Overview
3.1.Introduction
3.2.Technology Trends
3.3.Value & Supply Chain Analysis
3.4.Importance of Sfotwares In Laser Operated Processes
4.Market Analysis
4.1.Introduction
4.2.Market Dynamics
4.2.1.Market Drivers
4.2.2.Market Restraints
4.2.3.Market Opportunities
4.3.Porter’s Five Forces Analysis
4.3.1.Threats of New Entrants
4.3.2.Threats of Substitutes
4.3.3.Bargaining Power of Suppliers
4.3.4.Bargaining Power of Buyers
4.3.5.Intensity of Rivalry
5.Market by Types
5.1.Introduction
5.2.Tube Laser Machine
5.3.Introduction
5.3.1.Market by Enduser Industry
5.3.1.1.Introduction
5.3.1.2.Architectural Models
5.3.1.3.Awards & Trophies
5.3.1.4.Barcodes & Serial Numbers
5.3.1.5.Packaging Design
5.3.1.6.Rubber Stamps
5.3.1.7.Sign & Displays
5.3.1.8.Food and Plantal
5.3.1.9.Others
5.4.Flatbed Laser Machine
5.4.1.Introduction
5.4.2.Market by Enduser Industry
5.4.2.1.Introduction
5.4.2.2.Architectural Models
5.4.2.3.Awards & Trophies
5.4.2.4.Barcodes & Serial Numbers
5.4.2.5.Packaging Design
5.4.2.6.Rubber Stamps
5.4.2.7.Sign & Displays
5.4.2.8.Food and Plantal
5.4.2.9.Others
5.4.3.Flatbed Laser Machine Market by Laser Power
5.4.3.1. <30 Watt
5.4.3.2. 30 To 50 Watt
5.4.3.3. 50 To 100 Watt
5.4.3.4. 100 To 200 Watt
5.4.3.5. >200 Watt
6.Market by Process
6.1.Introduction
6.2.Cutting
6.3.Printing
6.4.Engraving
6.5.Others
7.Market by End-User
7.1.Introduction
7.2.Architectural Models
7.3.Awards & Trophies
7.4.Barcodes & Serial Numbers
7.5.Packaging Design
7.6.Rubber Stamps
7.7.Sign & Displays
7.8.Food and Plantal
7.9.Corporate and Other Offices
7.10.Others
8.Market by Geography
8.1.Introduction
8.2.Americas
8.2.1.North America
8.2.1.1.Us
8.2.1.2.Canada
8.2.1.3.Mexico
8.2.2.South America
8.3.Europe
8.3.1.U.K.
8.3.2.Germany
8.3.3. France
8.3.4.Rest of Europe
8.4.Apac
8.4.1.China
8.4.2.Japan
8.4.3.India
8.4.4.Rest of Apac
8.5.Row
8.5.1.Middle East
8.5.2.Africa
9.Competitive Land Scape
9.1.Introduction
9.2.Market Share Analysis
9.3.Key Developments
9.3.1.New Product Developments
9.3.2.Mergers, Acquisitions and Joint Ventures
10.Company Profiles
10.1.Alabama Laser Technologies
10.2.Barrett Steel
10.3.Blm Group
10.4.Bystronic Inc
10.5.Colex Industries
10.6.Eurolaser Gmbh
10.7.Fanuc Robotics America Inc
10.8.Hydram Engineering
10.9.Kern Lasers Systems
10.10.Laser Mechanisms, Inc
10.11.Modern Machine Tool Co
10.12.Motoman Inc
10.13.Oto Mills S.P.A
10.14.Rofin
10.15.Spartanics
10.16.The Laser Cutting Co.
10.17.Trotec Laser, Inc
10.18.Trumpf
10.19.Ttm Laser Spa
10.20.Vytek Laser Systems
10.21.Wuhan Tianqi Laser Equipment Manufacturing Co. Ltd.
10.22.Zünd Systemtechnik Ag
Growth opportunities and latent adjacency in Tube Laser and Flatb