Thrust Vector Control Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2018-2025

Thrust Vector Control Market:

Executive Summary

Thrust Vector Control Market to reach USD 18.1 billion by 2025.

Thrust Vector Control Market valued approximately USD 7.21 billion in 2016 is anticipated to grow with a healthy growth rate of more than 10.80% over the forecast period 2018-2025. According to the latest Thrust Vector Control System Market Research Report, Trust Vector Control Market is expected to have a highly positive outlook for the next forecasted years 2018-2025. Increasing demand for highly maneuverable fighter aircraft, increase in budget allocated for missile programs, growth in space research program and growing use of satellite to give information are some major driving factors that boost-up the global thrust vector control market. The rising demand of fighter aircraft in developing regions have positive impact on the regions. Moreover, the major restraining factor is highly complexity in the thrust vector control market as well as rising trend of using launch boosters and vehicle. Thrust vector control which is also known as thrust vectoring is the ability of an aircraft, rocket, or other vehicle to manipulate the direction of the thrust from its engine or motors in order to control attitude or angular velocity of the vehicle. Based on technology, rotating nozzle is the fastest growing segment of the market over the coming years whereas the fighter aircraft segment is anticipated to witness the highest growth from 2017-2022. One of advantages of thrust vectoring is granting aircraft to enter and recover from controlled flat spin, yawing aircraft without worrying about rudder, which loses effectiveness at high angles of attack.

The regional analysis of Thrust Vector Control Market is included for the key regions such as Asia Pacific, North America, Europe, Latin America and Rest of the World. The US is consider as leading/dominant market in North America region as well as globally. The UK and Germany are the key markets for thrust vector control in the Europe. Europe is expect to follow North America in terms of thrust vector control market. Asia-Pacific is anticipated to highest CAGR during the projected year 2018-2025. China is consider to be as major market for thrust vector control market in Asia-Pacific region. In addition, India also expands high CAGR in Asia-Pacific region. Saudi Arabia and UAE are the major markets for thrust vector control in the Middle East and Africa region.

The objective of the study is to define market sizes of different segments & countries in recent years and to forecast the values to the coming eight years. The report is designed to incorporate both qualitative and quantitative aspects of the industry within each of the regions and countries involved in the study. Furthermore, the report also caters the detailed information about the crucial aspects such as driving factors & challenges which will define the future growth of the market. Additionally, the report shall also incorporate available opportunities in micro markets for stakeholders to invest along with the detailed analysis of competitive landscape and product offerings of key players. The detailed segments and sub-segment of the market are explained below:

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By Technology:

• Gimbal Nozzle
• Flex Nozzle
• Thrusters
• Rotating Nozzle
• Others

By Application:

• Launch Vehicles
• Satellites
• Fighter Aircrafts
• Missiles

By System:

• Thrust Vector Actuation System
• Thrust Vector Injection System
• Thrust Vector Thruster System

By End user:

• Defense
• Space Agencies

Furthermore, years considered for the study are as follows:

• Historical year – 2015, 2016
• Base year – 2017
• Forecast period – 2018 to 2025

The industry is seeming to be fairly competitive. Some of the leading market players include Moog Inc., Woodward, Inc., Honeywell International Inc., United Technologies Corporation, BAE System PLC, Orbital ATK, Parker-Hannifin Corporation, S.A.B.C.A., Dynetics Inc., Sierra Nevada Corporation, Almatech Sa, Wickman Spacecraft & Propulsion Company, Jansen’s Aircraft Systems Controls Inc. and so on. Acquisitions and effective mergers are some of the strategies adopted by the key manufacturers. New product launches and continuous technological innovations are the key strategies adopted by the major players.

Target Audience of the Thrust Vector Control Market in Market Study:

• Key Consulting Companies & Advisors
• Large, medium-sized, and small enterprises
• Venture capitalists
• Value-Added Resellers (VARs)
• Third-party knowledge providers
• Investment bankers
• Investors

Table of Contents

Chapter 1. Executive Summary 
    1.1. Market Snapshot 
    1.2. Key Trends 
    1.3. Global & Segmental Market Estimates & Forecasts, 2015-2025 (USD Billion) 
      1.3.1. Thrust Vector Control Market, by Technology, 2015-2025 (USD Billion 
      1.3.2. Thrust Vector Control Market, by Application, 2015-2025 (USD Billion) 
      1.3.3. Thrust Vector Control Market, by System, 2015-2025 (USD Billion) 
      1.3.4. Thrust Vector Control Market, by End user, 2015-2025 (USD Billion) 
      1.3.5. Thrust Vector Control Market, by Region, 2015-2025 (USD Billion) 
    1.4. Estimation Methodology 
    1.5. Research Assumption 

Chapter 2. Thrust Vector Control Market Definition and Scope 
    2.1. Objective of the Study 
    2.2. Market Definition & Scope 
      2.2.1. Industry Evolution 
      2.2.2. Scope of the Study 
    2.3. Years Considered for the Study 
    2.4. Currency Conversion Rates 

Chapter 3. Thrust Vector Control Market Dynamics 
    3.1. See Saw Analysis 
      3.1.1. Market Drivers 
      3.1.2. Market Challenges 
      3.1.3. Market Opportunities 

Chapter 4. Thrust Vector Control Market Industry Analysis 
    4.1. Porter’s 5 Force Model 
      4.1.1. Bargaining Power of Buyers 
      4.1.2. Bargaining Power of Suppliers 
      4.1.3. Threat of New Entrants 
      4.1.4. Threat of Substitutes 
      4.1.5. Competitive Rivalry 
      4.1.6. Futuristic Approach to Porter’s 5 Force Model 
    4.2. PEST Analysis 
      4.2.1. Political Scenario 
      4.2.2. Economic Scenario 
      4.2.3. Social Scenario 
      4.2.4. Technological Scenario 
    4.3. Value Chain Analysis 
      4.3.1. Supplier 
      4.3.2. Manufacturers/Service Provider 
      4.3.3. Distributors 
      4.3.4. End-Users 
    4.4. Key Buying Criteria 
    4.5. Regulatory Framework 
    4.6. Cost Structure Analysis 
      4.6.1. Raw Material Cost Analysis 
      4.6.2. Manufacturing Cost Analysis 
      4.6.3. Labour Cost Analysis 
    4.7. Investment Vs Adoption Scenario 
    4.8. Analyst Recommendation & Conclusion 

Chapter 5. Thrust Vector Control Market, by Technology

Chapter 6. Thrust Vector Control Market, by Applications Analysis

Chapter 7. Thrust Vector Control Market, by System Analysis

Chapter 8. Thrust Vector Control Market, by End-user Analysis

Chapter 9. Thrust Vector Control Market, by Regional Analysis

Chapter 10. Competitive Intelligence 
    10.1. Company Market Share (Subject to Data Availability) 
    10.2. Top Market Strategies 
    10.3. Company Profiles 
      10.3.1. Moog Inc. 
          10.3.1.1. Overview 
          10.3.1.2. Financial (Subject to Data Availability) 
          10.3.1.3. Product Summary 
          10.3.1.4. Recent Developments 
      10.3.2. Woodward, Inc. 
      10.3.3. Honeywell International Inc. 
      10.3.4. United Technologies Corporation 
      10.3.5. BAE System PLC 
      10.3.6. Orbital ATK 
      10.3.7. Parker-Hannifin corporation 
      10.3.8. S.A.B.C.A. 
      10.3.9. Dynetics Inc. 
      10.3.10. Sierra Nevada Corporation 
      10.3.11. Almatech Sa 
      10.3.12. Wickman Spacecraft & Propulsion Company 
      10.3.13. Jansen’s Aircraft systems Controls Inc. 
Chapter 11. Research Process 
    11.1. Research Process 
      11.1.1. Data Mining 
      11.1.2. Analysis 
      11.1.3. Market Estimation 
      11.1.4. Validation 
      11.1.5. Publishing 
      11.1.6. Research Assumption

Continuous…

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