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Aerospace & Defense Ducting Market Size By Aircraft (Commercial Aircrafts [Narrow Body, Wide Body], Regional Jets, Business Jets, Military Aircrafts, Helicopter), By Ducting Type (Rigid, Semi-Rigid, Flexible), By Application (Airframe, Engine), By Pressure (High-Pressure, Low-Pressure), By Material (Stainless Steel & Alloys, Titanium & Titanium Alloys, Composites) Industry Analysis Report, Regiona


Published on: 2024-07-07 | No of Pages : 240 | Industry : Aerospace

Publisher : MRA | Format : PDF&Excel

Aerospace & Defense Ducting Market Size By Aircraft (Commercial Aircrafts [Narrow Body, Wide Body], Regional Jets, Business Jets, Military Aircrafts, Helicopter), By Ducting Type (Rigid, Semi-Rigid, Flexible), By Application (Airframe, Engine), By Pressure (High-Pressure, Low-Pressure), By Material (Stainless Steel & Alloys, Titanium & Titanium Alloys, Composites) Industry Analysis Report, Regiona

Aerospace & Defense Ducting Market Size By Aircraft (Commercial Aircrafts [Narrow Body, Wide Body], Regional Jets, Business Jets, Military Aircrafts, Helicopter), By Ducting Type (Rigid, Semi-Rigid, Flexible), By Application (Airframe, Engine), By Pressure (High-Pressure, Low-Pressure), By Material (Stainless Steel & Alloys, Titanium & Titanium Alloys, Composites) Industry Analysis Report, Regiona

Aerospace & Defense Ducting Market Size

Aerospace & Defense Ducting Market size valued at around USD 5 billion in 2018 and is estimated to exhibit over 4% CAGR from 2019 to 2025.

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Growing requirement to provide optimum air supply, heating and ventilation to maintain comfortable aircraft cabin environment is escalating the aerospace & defense ducting market growth. Environment control system provides efficient air conditioning and pressurization through the aircraft utilizing multiple series of ducts for air conveyance. Increasing adoption of lightweight aircraft ducting to enhance fuel efficiency is further propelling the industry share.

Aerospace & Defense Ducting Market Report Attributes
Report Attribute Details
Base Year 2018
Aerospace & Defense Ducting Market Size in 2018 5 Billion (USD)
Forecast Period 2019 to 2025
Forecast Period 2019 to 2025 CAGR 4%
2025 Value Projection 7 Billion (USD)
Historical Data for 2014 to 2018
No. of Pages 250
Tables, Charts & Figures 459
Segments covered Aircraft, Ducting Type, Application, Pressure, Material and Region

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Replacement of ageing aircrafts coupled with rising aircraft production will positively influence the market size over the forecast timeframe. Government funding targeted towards design and development of advanced aircraft ducting systems will augment the product penetration. For instance, in June 2018, European Union funded USD 0.56 million for the IDA (Intermediate Compressor Case Duct Aerodynamics) project under the Clean Sky 2 initiative. Incorporation of advanced ducting systems for efficient supply of bleed air will provide strong growth prospects for the industry size.

Proliferating aircraft demand owing to rising air passenger traffic and expansion of air travel routes are providing a positive outlook for the aerospace & defense ducting market share. Increasing aircraft deliveries to meet previous backlog orders will prominently contribute towards industry expansion over the study timeframe. For instance, in 2018, Boeing aircraft deliveries rose to 806 units with an increase of over 5.6% as compared with 2017.

Stringent flammability and smoke resistance regulations pertaining to aircraft ducting developed by FAA and ICAO are supporting the product penetration. The safety standards guide the industry players to provide superior and thermal resistant aircraft ducts. Complex design and development involved in manufacturing aircraft ducting along with higher raw material costs may hinder the business share.

Industry players are continuously investing in R&D activities for enhancing their product portfolio and complying them with regulations. Recent advancements in manufacturing technologies including additive manufacturing and laser sintering will significantly expand the aerospace & defense ducting market size. Utilization of computerized orbital welding techniques offering consistent and high-quality welds for developing leak proof ducts are gaining higher visibility. Moreover, manufacturers are developing in-house testing facilities providing high pressure and temperature pneumatic testing for aircraft ducts.

Aerospace & Defense Ducting Market Analysis

Commercial aircrafts are anticipated to hold a significant share in the aerospace & defense ducting market owing to rising demand for air travel and cargo transportation. Rising disposable income in emerging economies is prominently augmenting the air passenger traffic, thereby escalating the segment size. Further, larger cabin areas and air volume requirements in wide body aircrafts is providing potential opportunities for the segment growth.

Regional aircrafts are expected to witness a substantial growth owing to growing regional air connectivity and expansion of travel routes. Airliners are expanding the fleet size for serving direct regional new routes. For instance, in June 2018, Delta Airlines ordered 20 new CRJ900 regional jets from Bombardier for connecting domestic air routes.

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Rigid duct holds a significant share in aerospace & defense ducting market owing to higher air volume supply capabilities. Less resistance, better reliability and endurance limits offered by rigid ducts are positively influencing the market over the forecast timeframe. Moreover, availability of numerous sizes and cross sections of rigid ducts for airframe applications will further support the industry size.

Semi rigid aerospace & defense ducting market size will witness around 5% CAGR till 2025 owing to their increasing deployment in aircraft heating and ventilation systems. Moreover, easy maintenance, quick installation and notable expansion and contraction capabilities are positively influencing the segment size over the projected timeframe.

Airframe segment will dominate the aerospace & defense ducting market size, accounting for over USD 4.2 billion till 2025. Incorporation of airframe ducts for cabin air conditioning, oxygen control and anti-icing over leading edges of wings will significantly propel the segment size over the study timeframe. Increased adoption of wide body aircrafts incorporating larger cabin areas will further augment the industry size.

Engine segment will witness a considerable growth in the market size owing to utilization of high temperature and pressure ducts in bleed air systems. High precision ducts utilized for decreasing the airflow velocity in aircraft engines are gaining higher visibility. Moreover, development of high-performance turbofan engine ducts offering pressure variation and minimal turbulence will support the industry growth.

High pressure aerospace & defense ducting market will showcase substantial growth owing to increasing utilization in cabin pressurization systems. Effective extraction of bleed air through large turbofans requires high pressure ducting across the air conditioning system. Moreover, incorporation of ultra-high-pressure engine technologies to reduce the carbon emissions will positively influence the segment size over the forecast timeframe.

Low pressure segment will showcase potential growth prospects owing to their multiple benefits including lower noise and enhanced airflow transmission capabilities. Increasing preference for utilizing low pressure ducts providing reduced frictional losses and lower space requirements will prominently augment the segment share.

Titanium and titanium alloys are anticipated to hold a significant share in the aerospace & defense ducting market owing to their higher strength coupled with excellent weldability and ductility. Titanium ducts offer higher corrosion and thermal resistance without compromising structural integrity and will provide strong growth prospects for the segment share. Development of alloying elements offering reduced maintenance and effective compatibility with metals will support the industry size.

Composite segment will witness steady growth in the market owing to their increasing applications in environmental control systems. Increasing preference for improving the thermal efficiency and reducing the CO2 emissions will prominently contribute towards the adoption of composite ducting for air management. Moreover, stringent laws and regulations pertaining with aircraft emissions will positively support the segment growth over the forecast timeframe.

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Asia Pacific is projected to hold a substantial share owing to the rising air passenger traffic and aircraft deliveries. Expansion of fleet size along with improving economic conditions are driving the industry size over the study timeframe. For instance, in 2017, AirAsia Group expanded its operating fleet by 30 aircrafts to cater the increasing passenger traffic. Incorporation of lightweight and energy efficient ducts for next generation aircrafts will support the industry proliferation.

North America aerospace & defense ducting market will witness significant growth owing to the strong presence of aircraft manufacturers across the region. Industry players are maintaining strategic contracts and agreements for strengthening their foothold in the industry. For instance, in September 2017, Triumph Group signed the extension of contract for ECS ducting with Boeing, further bolstering their partnership and increasing revenue generation opportunities. Expansion of manufacturing facilities and proliferating aircraft production are positively influencing the market share.

Aerospace & Defense Ducting Market Share

The aerospace & defense ducting market share is highly competitive owing to the presence of major players including

  • Senior Aerospace
  • Triumph Group
  • Saint-Gobain Performance Plastics
  • Eaton Aerospace
  • Arrowhead Products
  • AIM Aerospace
  • Zodiac Aerospace
  • PFW Aerospace GmbH
  • RMB Products, Inc.
  • Meggitt PLC
  • Sigma Precision Components UK Ltd.
  • Unison Industries
  • Stelia Aerospace

 Key industry participants are involved in different strategies such as product development, joint ventures, mergers & acquisitions, and contractual agreements to expand their business operations. For instance, in October 2018, Arrowhead Products announced new partnership with STS Component Solutions for expanding their distribution network across the globe.

Industry Background

Aviation regulatory bodies and government agencies have formulated various regulations and standards regarding the design dimensions of ducts, airworthiness, materials to be used etc considering the safety of passengers along with aircrafts. The development of new lightweight materials will enhance the mechanical and thermal characteristics of ducting systems further escalating the market size.
 

 

Table of Content

Report Content

Chapter 1. Methodology and Scope

1.1. Methodology

1.1.1. Initial data exploration

1.1.2. Statistical model and forecast

1.1.3. Industry insights and validation

1.1.4. Scope, definition & forecast parameters

1.2. Data Sources

1.2.1. Secondary

1.2.2. Primary

Chapter 2. Executive Summary

2.1. Aerospace & defense ducting industry 3600 synopsis, 2013 – 2025

2.1.1. Business trends

2.1.2. Aircraft trends

2.1.3. Duct type trends

2.1.4. Application trends

2.1.5. Pressure trends

2.1.6. Material trends

2.1.7. Regional trends

Chapter 3. Aerospace & Defense Ducting Industry Insights

3.1. Industry segmentation

3.2. Industry landscape, 2013 - 2025

3.3. Industry ecosystem analysis

3.3.1. Raw material suppliers

3.3.2. Manufacturers

3.3.3. Profit margin trends

3.3.4. Distribution analysis

3.3.5. Vendor matrix

3.4. Technology landscape

3.5. Regulatory landscape

3.5.1. North America

3.5.2. Europe

3.5.3. Asia Pacific

3.5.4. Latin America

3.5.5. Middle East & Africa

3.6. Industry impact forces

3.6.1. Growth drivers

3.6.1.1. North America

3.6.1.2. Europe

3.6.1.3. Asia Pacific

3.6.1.4. Latin America

3.6.1.5. Middle East & Africa

3.6.2. Industry pitfalls & challenges

3.7. Innovation and sustainability

3.8. Growth potential analysis, 2018

3.9. Porter’s analysis

3.10. Competitive landscape, 2018

3.10.1. Top players analysis, 2018

3.10.2. Key stakeholders

3.10.3. Strategy dashboard

3.11. PESTLE analysis

Chapter 4. Aerospace & Defense Ducting Market, By Aircraft

4.1. Global aerospace & defense ducting market share by aircraft, 2018 & 2025

4.2. Commercial aircraft

4.2.1. Global market estimates and forecasts, 2013 – 2025

4.2.2. Market estimates and forecast, by region, 2013 – 2025

4.2.3. Narrow Body

4.2.3.1. Global market estimates and forecasts, 2013 – 2025

4.2.3.2. Market estimates and forecast, by region, 2013 – 2025

4.2.4. Wide Body

4.2.4.1. Global market estimates and forecasts, 2013 – 2025

4.2.4.2. Market estimates and forecast, by region, 2013 – 2025

4.3. Regional jet

4.3.1. Global market estimates and forecasts, 2013 – 2025

4.3.2. Market estimates and forecast, by region, 2013 – 2025

4.4. Business jet

4.4.1. Global market estimates and forecasts, 2013 – 2025

4.4.2. Market estimates and forecast, by region, 2013 – 2025

4.5. Helicopter

4.5.1. Global market estimates and forecasts, 2013 – 2025

4.5.2. Market estimates and forecast, by region, 2013 – 2025

4.6. Military Aircraft

4.6.1. Global market estimates and forecasts, 2013 – 2025

4.6.2. Market estimates and forecast, by region, 2013 – 2025

Chapter 5. Aerospace & Defense Ducting Market, By Duct Type

5.1. Global aerospace & defense ducting market share by duct type, 2018 & 2025

5.2. Rigid

5.2.1. Global market estimates and forecasts, 2013 – 2025

5.2.2. Market estimates and forecast, by region, 2013 – 2025

5.3. Semi-rigid

5.3.1. Global market estimates and forecasts, 2013 – 2025

5.3.2. Market estimates and forecast, by region, 2013 – 2025

5.4. Flexible

5.4.1. Global market estimates and forecasts, 2013 – 2025

5.4.2. Market estimates and forecast, by region, 2013 – 2025

Chapter 6. Aerospace & Defense Ducting Market, By Application

6.1. Global aerospace & defense ducting market share by application, 2018 & 2025

6.2. Airframe

6.2.1. Global market estimates and forecasts, 2013 – 2025

6.2.2. Market estimates and forecast, by region, 2013 – 2025

6.3. Engine

6.3.1. Global market estimates and forecasts, 2013 – 2025

6.3.2. Market estimates and forecast, by region, 2013 – 2025

6.4. Others

6.4.1. Global market estimates and forecasts, 2013 – 2025

6.4.2. Market estimates and forecast, by region, 2013 – 2025

Chapter 7. Aerospace & Defense Ducting Market, By Pressure

7.1. Global aerospace & defense ducting market share by pressure, 2018 & 2025

7.2. High pressure

7.2.1. Global market estimates and forecasts, 2013 – 2025

7.2.2. Market estimates and forecast, by region, 2013 – 2025

7.3. Low pressure

7.3.1. Global market estimates and forecasts, 2013 – 2025

7.3.2. Market estimates and forecast, by region, 2013 – 2025

Chapter 8. Aerospace & Defense Ducting Market, By Material

8.1. Global aerospace & defense ducting market share by material, 2018 & 2025

8.2. Stainless steel & alloys

8.2.1. Global market estimates and forecasts, 2013 – 2025

8.2.2. Market estimates and forecast, by region, 2013 – 2025

8.3. Titanium & titanium alloys

8.3.1. Global market estimates and forecasts, 2013 – 2025

8.3.2. Market estimates and forecast, by region, 2013 – 2025

8.4. Composites

8.4.1. Global market estimates and forecasts, 2013 – 2025

8.4.2. Market estimates and forecast, by region, 2013 – 2025

8.5. Others

8.5.1. Global market estimates and forecasts, 2013 – 2025

8.5.2. Market estimates and forecast, by region, 2013 – 2025

Chapter 9. Aerospace & Defense Ducting Market, By Region

9.1. Global aerospace & defense ducting market share by region, 2018 & 2025

9.2. North America

9.2.1. Market estimates and forecast, 2013 – 2025

9.2.2. Market estimates and forecast by aircraft, 2013 – 2025

9.2.3. Market estimates and forecast by duct type, 2013 – 2025

9.2.4. Market estimates and forecast by application, 2013 – 2025

9.2.5. Market estimates and forecast by pressure, 2013 – 2025

9.2.6. Market estimates and forecast by material, 2013 – 2025

9.2.7. U.S.

9.2.7.1. Market estimates and forecast, 2013 – 2025

9.2.7.2. Market estimates and forecast by aircraft, 2013 – 2025

9.2.7.3. Market estimates and forecast by duct type, 2013 – 2025

9.2.7.4. Market estimates and forecast by application, 2013 – 2025

9.2.7.5. Market estimates and forecast by pressure, 2013 – 2025

9.2.7.6. Market estimates and forecast by material, 2013 – 2025

9.2.8. Canada

9.2.8.1. Market estimates and forecast, 2013 – 2025

9.2.8.2. Market estimates and forecast by aircraft, 2013 – 2025

9.2.8.3. Market estimates and forecast by duct type, 2013 – 2025

9.2.8.4. Market estimates and forecast by application, 2013 – 2025

9.2.8.5. Market estimates and forecast by pressure, 2013 – 2025

9.2.8.6. Market estimates and forecast by material, 2013 – 2025

9.3. Europe

9.3.1. Market estimates and forecast, 2013 – 2025

9.3.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.4. Market estimates and forecast by application, 2013 – 2025

9.3.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.6. Market estimates and forecast by material, 2013 – 2025

9.3.7. Germany

9.3.7.1. Market estimates and forecast, 2013 – 2025

9.3.7.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.7.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.7.4. Market estimates and forecast by application, 2013 – 2025

9.3.7.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.7.6. Market estimates and forecast by material, 2013 – 2025

9.3.8. UK

9.3.8.1. Market estimates and forecast, 2013 – 2025

9.3.8.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.8.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.8.4. Market estimates and forecast by application, 2013 – 2025

9.3.8.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.8.6. Market estimates and forecast by material, 2013 – 2025

9.3.9. France

9.3.9.1. Market estimates and forecast, 2013 – 2025

9.3.9.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.9.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.9.4. Market estimates and forecast by application, 2013 – 2025

9.3.9.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.9.6. Market estimates and forecast by material, 2013 – 2025

9.3.10. Italy

9.3.10.1. Market estimates and forecast, 2013 – 2025

9.3.10.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.10.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.10.4. Market estimates and forecast by application, 2013 – 2025

9.3.10.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.10.6. Market estimates and forecast by material, 2013 – 2025

9.3.11. Spain

9.3.11.1. Market estimates and forecast, 2013 – 2025

9.3.11.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.11.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.11.4. Market estimates and forecast by application, 2013 – 2025

9.3.11.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.11.6. Market estimates and forecast by material, 2013 – 2025

9.3.12. Poland

9.3.12.1. Market estimates and forecast, 2013 – 2025

9.3.12.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.12.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.12.4. Market estimates and forecast by application, 2013 – 2025

9.3.12.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.12.6. Market estimates and forecast by material, 2013 – 2025

9.3.13. Russia

9.3.13.1. Market estimates and forecast, 2013 – 2025

9.3.13.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.13.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.13.4. Market estimates and forecast by application, 2013 – 2025

9.3.13.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.13.6. Market estimates and forecast by material, 2013 – 2025

9.3.14. Netherlands

9.3.14.1. Market estimates and forecast, 2013 – 2025

9.3.14.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.14.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.14.4. Market estimates and forecast by application, 2013 – 2025

9.3.14.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.14.6. Market estimates and forecast by material, 2013 – 2025

9.3.15. Sweden

9.3.15.1. Market estimates and forecast, 2013 – 2025

9.3.15.2. Market estimates and forecast by aircraft, 2013 – 2025

9.3.15.3. Market estimates and forecast by duct type, 2013 – 2025

9.3.15.4. Market estimates and forecast by application, 2013 – 2025

9.3.15.5. Market estimates and forecast by pressure, 2013 – 2025

9.3.15.6. Market estimates and forecast by material, 2013 – 2025

9.4. Asia Pacific

9.4.1. Market estimates and forecast, 2013 – 2025

9.4.2. Market estimates and forecast by aircraft, 2013 – 2025

9.4.3. Market estimates and forecast by duct type, 2013 – 2025

9.4.4. Market estimates and forecast by application, 2013 – 2025

9.4.5. Market estimates and forecast by pressure, 2013 – 2025

9.4.6. Market estimates and forecast by material, 2013 – 2025

9.4.7. China

9.4.7.1. Market estimates and forecast, 2013 – 2025

9.4.7.2. Market estimates and forecast by aircraft, 2013 – 2025

9.4.7.3. Market estimates and forecast by duct type, 2013 – 2025

9.4.7.4. Market estimates and forecast by application, 2013 – 2025

9.4.7.5. Market estimates and forecast by pressure, 2013 – 2025

9.4.7.6. Market estimates and forecast by material, 2013 – 2025

9.4.8. India

9.4.8.1. Market estimates and forecast, 2013 – 2025

9.4.8.2. Market estimates and forecast by aircraft, 2013 – 2025

9.4.8.3. Market estimates and forecast by duct type, 2013 – 2025

9.4.8.4. Market estimates and forecast by application, 2013 – 2025

9.4.8.5. Market estimates and forecast by pressure, 2013 – 2025

9.4.8.6. Market estimates and forecast by material, 2013 – 2025

9.4.9. Japan

9.4.9.1. Market estimates and forecast, 2013 – 2025

9.4.9.2. Market estimates and forecast by aircraft, 2013 – 2025

9.4.9.3. Market estimates and forecast by duct type, 2013 – 2025

9.4.9.4. Market estimates and forecast by application, 2013 – 2025

9.4.9.5. Market estimates and forecast by pressure, 2013 – 2025

9.4.9.6. Market estimates and forecast by material, 2013 – 2025

9.4.10. South Korea

9.4.10.1. Market estimates and forecast, 2013 – 2025

9.4.10.2. Market estimates and forecast by aircraft, 2013 – 2025

9.4.10.3. Market estimates and forecast by duct type, 2013 – 2025

9.4.10.4. Market estimates and forecast by application, 2013 – 2025

9.4.10.5. Market estimates and forecast by pressure, 2013 – 2025

9.4.10.6. Market estimates and forecast by material, 2013 – 2025

9.4.11. Singapore

9.4.11.1. Market estimates and forecast, 2013 – 2025

9.4.11.2. Market estimates and forecast by aircraft, 2013 – 2025

9.4.11.3. Market estimates and forecast by duct type, 2013 – 2025

9.4.11.4. Market estimates and forecast by application, 2013 – 2025

9.4.11.5. Market estimates and forecast by pressure, 2013 – 2025

9.4.11.6. Market estimates and forecast by material, 2013 – 2025

9.4.12. Australia

9.4.12.1. Market estimates and forecast, 2013 – 2025

9.4.12.2. Market estimates and forecast by aircraft, 2013 – 2025

9.4.12.3. Market estimates and forecast by duct type, 2013 – 2025

9.4.12.4. Market estimates and forecast by application, 2013 – 2025

9.4.12.5. Market estimates and forecast by pressure, 2013 – 2025

9.4.12.6. Market estimates and forecast by material, 2013 – 2025

9.5. Latin America

9.5.1. Market estimates and forecast, 2013 – 2025

9.5.2. Market estimates and forecast by aircraft, 2013 – 2025

9.5.3. Market estimates and forecast by duct type, 2013 – 2025

9.5.4. Market estimates and forecast by application, 2013 – 2025

9.5.5. Market estimates and forecast by pressure, 2013 – 2025

9.5.6. Market estimates and forecast by material, 2013 – 2025

9.5.7. Brazil

9.5.7.1. Market estimates and forecast, 2013 – 2025

9.5.7.2. Market estimates and forecast by aircraft, 2013 – 2025

9.5.7.3. Market estimates and forecast by duct type, 2013 – 2025

9.5.7.4. Market estimates and forecast by application, 2013 – 2025

9.5.7.5. Market estimates and forecast by pressure, 2013 – 2025

9.5.7.6. Market estimates and forecast by material, 2013 – 2025

9.5.8. Mexico

9.5.8.1. Market estimates and forecast, 2013 – 2025

9.5.8.2. Market estimates and forecast by aircraft, 2013 – 2025

9.5.8.3. Market estimates and forecast by duct type, 2013 – 2025

9.5.8.4. Market estimates and forecast by application, 2013 – 2025

9.5.8.5. Market estimates and forecast by pressure, 2013 – 2025

9.5.8.6. Market estimates and forecast by material, 2013 – 2025

9.5.9. Argentina

9.5.9.1. Market estimates and forecast, 2013 – 2025

9.5.9.2. Market estimates and forecast by aircraft, 2013 – 2025

9.5.9.3. Market estimates and forecast by duct type, 2013 – 2025

9.5.9.4. Market estimates and forecast by application, 2013 – 2025

9.5.9.5. Market estimates and forecast by pressure, 2013 – 2025

9.5.9.6. Market estimates and forecast by material, 2013 – 2025

9.6. Middle East & Africa

9.6.1. Market estimates and forecast, 2013 – 2025

9.6.2. Market estimates and forecast by aircraft, 2013 – 2025

9.6.3. Market estimates and forecast by duct type, 2013 – 2025

9.6.4. Market estimates and forecast by application, 2013 – 2025

9.6.5. Market estimates and forecast by pressure, 2013 – 2025

9.6.6. Market estimates and forecast by material, 2013 – 2025

9.6.7. Saudi Arabia

9.6.7.1. Market estimates and forecast, 2013 – 2025

9.6.7.2. Market estimates and forecast by aircraft, 2013 – 2025

9.6.7.3. Market estimates and forecast by duct type, 2013 – 2025

9.6.7.4. Market estimates and forecast by application, 2013 – 2025

9.6.7.5. Market estimates and forecast by pressure, 2013 – 2025

9.6.7.6. Market estimates and forecast by material, 2013 – 2025

9.6.8. Qatar

9.6.8.1. Market estimates and forecast, 2013 – 2025

9.6.8.2. Market estimates and forecast by aircraft, 2013 – 2025

9.6.8.3. Market estimates and forecast by duct type, 2013 – 2025

9.6.8.4. Market estimates and forecast by application, 2013 – 2025

9.6.8.5. Market estimates and forecast by pressure, 2013 – 2025

9.6.8.6. Market estimates and forecast by material, 2013 – 2025

9.6.9. UAE

9.6.9.1. Market estimates and forecast, 2013 – 2025

9.6.9.2. Market estimates and forecast by aircraft, 2013 – 2025

9.6.9.3. Market estimates and forecast by duct type, 2013 – 2025

9.6.9.4. Market estimates and forecast by application, 2013 – 2025

9.6.9.5. Market estimates and forecast by pressure, 2013 – 2025

9.6.9.6. Market estimates and forecast by material, 2013 – 2025

9.6.10. South Africa

9.6.10.1. Market estimates and forecast, 2013 – 2025

9.6.10.2. Market estimates and forecast by aircraft, 2013 – 2025

9.6.10.3. Market estimates and forecast by duct type, 2013 – 2025

9.6.10.4. Market estimates and forecast by application, 2013 – 2025

9.6.10.5. Market estimates and forecast by pressure, 2013 – 2025

9.6.10.6. Market estimates and forecast by material, 2013 – 2025

Table of Content

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