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Aerospace NDT Market Report 2026-2032 [260 Pages & 160 Tables]
2026-04-01 · via Market Research Reports

Aerospace NDT Market by Technique (Ultrasonic Testing, Radiographic Testing, and Eddy Current Testing), Aircraft Type (Commercial Aircraft, Spacecraft & Launch Vehicles), Application (Airframe & Structures, Avionics & Electronics), and Region - Global Forecast to 2032

icon1

USD 5.69 BN

MARKET SIZE, 2032

icon2

CAGR 9.9%

(2026-2032)

icon3

260

REPORT PAGES

icon4

160

MARKET TABLES

OVERVIEW

aerospace-ndt-market Overview

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

The global aerospace NDT market is projected to grow from USD 3.23 billion in 2026 to USD 5.69 billion by 2032, at a CAGR of 9.9%. Market growth is driven by the increasing demand for aircraft safety, reliability, and regulatory compliance across commercial, military, and general aviation sectors. The rising global aircraft fleet, along with aging aircraft requiring frequent inspection and maintenance, is significantly boosting demand for NDT solutions. Additionally, advancements in inspection technologies such as ultrasonic testing, digital radiography, and automated inspection systems are enhancing detection accuracy and efficiency. Growing investments in MRO infrastructure, expansion of aerospace manufacturing, and increasing adoption of composite materials are further supporting the widespread deployment of NDT solutions globally.

KEY TAKEAWAYS

  • BY OFFERING

    Services hold the largest share of the aerospace NDT market due to the continuous and mandatory need for inspection, testing, certification, and maintenance activities across the aircraft lifecycle.

  • BY TECHNIQUE

    Ultrasonic testing dominates the market due to high accuracy, deep penetration, ability to inspect composites, detect internal flaws, and widespread adoption in aerospace inspections.

  • BY TYPE

    Commercial aircraft lead the market due to large global fleets, frequent maintenance cycles, strict safety regulations, and rising passenger traffic driving continuous inspection demand.

  • BY APPLICATION

    Airframe & structures dominate the market due to continuous exposure to stress, fatigue, corrosion, requiring frequent inspections and strict regulatory compliance across aircraft lifecycle.

  • BY REGION

    Asia Pacific is expected to witness the highest CAGR of 12.0% due to rising aircraft fleet expansion, increasing defense spending, growing MRO infrastructure, and indigenous aerospace manufacturing initiatives.

  • COMPETITIVE LANDSCAPE - KEY PLAYERS

    SGS SA, Wabtec Corporation, Baker Hughes Company, Intertek Group Plc, Bureau Veritas, among others, were identified as some of the star players in the aerospace NDT market, given their strong market share and product footprint.

  • COMPETITIVE LANDSCAPE - STARTUPS/SMES

    Dolphitech and Ether NDE, among others, have distinguished themselves among SMEs/startups by securing strong footholds in specialized niche areas, underscoring their potential as emerging market leaders.

Aerospace non-destructive testing (NDT) solutions are advanced inspection and evaluation methods used to assess the integrity, reliability, and safety of aircraft components and structures without causing damage. These solutions enable the detection of defects such as cracks, corrosion, voids, and material inconsistencies in critical parts including airframes, engines, avionics, and structural assemblies. Unlike destructive testing methods, aerospace NDT ensures continuous usability of components while maintaining strict compliance with aviation safety regulations. Aerospace NDT systems incorporate a wide range of technologies such as ultrasonic testing, radiographic testing, eddy current testing, magnetic particle testing, and thermography, often supported by automated inspection systems, robotics, and digital imaging tools. These solutions are extensively used across commercial aviation, military and defense, and business and general aviation sectors for manufacturing quality control and in-service maintenance, repair, and overhaul (MRO) activities.

TRENDS & DISRUPTIONS IMPACTING CUSTOMERS' CUSTOMERS

The impact on the aerospace NDT industry is shaped by the increasing emphasis on aircraft safety, regulatory compliance, and the need for efficient maintenance across expanding global fleets. Over the next 4 to 5 years, product and service portfolios are expected to evolve from conventional inspection methods toward integrated, automated, and data-driven NDT ecosystems with AI-enabled defect detection, real-time monitoring, and digital inspection reporting capabilities. Two key trends driving this transition include the growing adoption of advanced ultrasonic techniques such as phased array testing for high-precision inspection, and increasing use of robotics and drone-based NDT for accessing complex or hazardous structures. These innovations are enabling faster inspections, improved accuracy, reduced human error, and enhanced predictive maintenance strategies. The shift toward digital radiography, cloud-based data management, and inspection solutions tailored for composite materials is also improving operational efficiency, scalability, and lifecycle management across commercial aviation, defense, and MRO environments.

aerospace-ndt-market Disruptions

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

MARKET DYNAMICS

Drivers

Impact
Level

  • Increasing aircraft production and fleet expansion
  • Growing adoption of advanced materials and additive manufacturing

RESTRAINTS

Impact
Level

  • High cost of advanced NDT equipment and implementation
  • Complexity in inspection of advanced aerospace components

OPPORTUNITIES

Impact
Level

  • Integration of Al and automation in NDT
  • Expansion of space and defense programs

CHALLENGES

Impact
Level

  • Rapid technological advancements and need for continuous upgrades
  • Data management and integration issues

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

Rising global air passenger traffic and expanding defense budgets are driving aircraft production and fleet expansion. This increases the need for regular inspection, maintenance, and certification of aircraft components. Consequently, demand for aerospace NDT solutions grows significantly to ensure safety, structural integrity, and compliance throughout the aircraft lifecycle.

Advanced NDT technologies such as phased array ultrasonic testing, digital radiography, and automated inspection systems involve high initial investment and maintenance costs. Small and mid-sized MRO providers often face budget constraints, limiting adoption. Additionally, training skilled personnel and integrating advanced systems further increase overall operational costs and implementation complexity.

The integration of artificial intelligence and automation is transforming aerospace NDT by enabling faster, more accurate defect detection and predictive maintenance. AI-driven analytics reduce human error and improve inspection efficiency, while robotics and automated systems enhance scalability. These advancements create significant growth opportunities for next-generation, data-driven NDT solutions.

Rapid advancements in aerospace materials, manufacturing processes, and inspection technologies require continuous upgrades in NDT systems and skills. Keeping pace with evolving standards, especially for composite materials and digital inspection methods, is challenging. Companies must invest in ongoing training, certification, and technology upgrades to remain competitive and compliant.

AEROSPACE NDT MARKET: COMMERCIAL USE CASES ACROSS INDUSTRIES

COMPANY USE CASE DESCRIPTION BENEFITS

Provides comprehensive aerospace NDT inspection, testing, and certification services across manufacturing and MRO operations, including ultrasonic, radiographic, and eddy current testing to ensure structural integrity and regulatory compliance High inspection accuracy | Global certification expertise | Regulatory compliance assurance | Improved aircraft safety and reliability

Offers advanced NDT equipment and digital inspection solutions, including ultrasonic and remote visual inspection systems, widely used for aircraft component testing and maintenance applications High-precision defect detection | Advanced imaging capabilities | Improved inspection efficiency | Reduced maintenance downtime

Delivers industrial and aerospace NDT solutions, including digital radiography, ultrasonic testing, and automated inspection technologies for critical component evaluation in aerospace manufacturing and maintenance Enhanced defect detection accuracy | Faster inspection processes | Improved operational efficiency | Reliable performance in critical environments

Provides aerospace NDT and inspection services, including material testing, failure analysis, and certification for aircraft components and systems across global aerospace supply chains End-to-end quality assurance | Compliance with international standards | Reduced risk of component failure | Improved product lifecycle management

Offers inspection, testing, and certification services for aerospace structures, materials, and systems, supporting OEMs and MRO providers with advanced NDT techniques and compliance verification Strong regulatory support | Enhanced safety assurance | Global service network | Improved reliability of aerospace components

Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.

MARKET ECOSYSTEM

The aerospace NDT ecosystem comprises equipment manufacturers, service providers, software and technology developers, system integrators, regulatory bodies, and end users working together to ensure aircraft safety and structural integrity. Equipment manufacturers develop NDT systems such as ultrasonic, radiographic, eddy current, and thermographic inspection tools for defect detection. Service providers deliver inspection, testing, and certification services across manufacturing and MRO operations. Software providers enable digital inspection reporting, data analytics, and predictive maintenance through AI-driven platforms. System integrators deploy automated and robotic inspection systems integrated with digital aviation infrastructure. Regulatory authorities ensure compliance with stringent airworthiness standards. End users, including aircraft OEMs, airlines, MRO providers, and defense organizations, adopt NDT solutions to enhance safety, ensure compliance, reduce downtime, and optimize lifecycle management of aerospace assets.

aerospace-ndt-market Ecosystem

Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.

MARKET SEGMENTS

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

Services hold the largest share of the aerospace NDT market due to the continuous and mandatory need for inspection, testing, certification, and maintenance activities across the aircraft lifecycle.

Ultrasonic testing leads the market due to high accuracy, deep penetration, ability to inspect composites, detect internal flaws, and widespread adoption in aerospace inspections.

Commercial aircraft dominate the aerospace NDT market due to large global fleets, frequent maintenance cycles, strict safety regulations, and rising passenger traffic driving continuous inspection demand.

Airframe & structures dominate due to continuous exposure to stress, fatigue, corrosion, requiring frequent inspections and strict regulatory compliance across aircraft lifecycle.

Asia Pacific is expected to witness the highest CAGR of 12.0% due to rising aircraft fleet expansion, increasing defense spending, growing MRO infrastructure, and indigenous aerospace manufacturing initiatives.

REGION

Asia Pacific to be fastest-growing market for aerospace NDT during forecast period

Asia Pacific is expected to witness the highest CAGR in the aerospace NDT market due to expanding aircraft fleets, rising air passenger traffic, and increasing defense expenditures across the region. Growing investments in MRO infrastructure and aerospace manufacturing capabilities are accelerating demand for inspection services. Furthermore, the growing implementation of advanced NDT technologies, as well as the presence of emerging aerospace hubs, help drive market.

aerospace-ndt-market Region

AEROSPACE NDT MARKET: COMPANY EVALUATION MATRIX

In the aerospace NDT companies matrix, SGS SA (Star) leads with a strong global footprint and a comprehensive portfolio of inspection, testing, and certification services across the aerospace value chain. Its advanced capabilities in ultrasonic, radiographic, and eddy current testing, combined with deep regulatory expertise and global laboratory infrastructure, strengthen its dominance across OEMs, MRO providers, and defense organizations. Continuous investments in digital inspection technologies, automation, and data-driven quality assurance further reinforce its leadership position. Applus+ (Emerging Leader) is gaining momentum through its expanding aerospace NDT service portfolio and growing presence in key aviation hubs. The company is strengthening its position with advanced inspection solutions, including automated and remote NDT techniques, supported by strategic acquisitions and partnerships. Its focus on innovation, operational efficiency, and expanding global service capabilities is driving increased adoption across aerospace manufacturing and maintenance sectors.

aerospace-ndt-market Evaluation Metrics

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

KEY MARKET PLAYERS

MARKET SCOPE

REPORT METRIC DETAILS
Market Size in 2025 (Value) USD 2.91 Billion
Market Forecast in 2032 (Value) USD 5.69 Billion
CAGR 9.9%
Years Considered 2022–2032
Base Year 2025
Forecast Period 2026–2032
Units Considered USD Billion
Report Coverage Revenue forecast, company ranking, competitive landscape, growth factors, and trends
Segments Covered
  • By Offering:
    • Equipment
    • Services
  • By Technique:
    • Ultrasonic Testing
    • Radiographic Testing
    • Eddy Current Testing
    • Magnetic Particle Testing
    • Liquid Penetrant Testing
    • Visual Testing
    • Acoustic Emission Testing
    • Other Techniques
  • By Aircraft Type:
    • Commercial Aircraft
    • Military & Defense Aircraft
    • Spacecraft & Launch Vehicles
    • Helicopters
    • Unmanned Aerial Vehicles (UAVS)/Drones
    • Business & General Aviation
  • By Application:
    • Airframe & Structures
    • Engines & Propulsion Systems
    • Avionics & Electronics
    • Landing Gear & Mechanical Systems
    • Interiors & Cabin Systems
    • Other Applications.
Regions Covered North America, Asia Pacific, Europe, and RoW (the Middle East, Africa, Latin America)

WHAT IS IN IT FOR YOU: AEROSPACE NDT MARKET REPORT CONTENT GUIDE

aerospace-ndt-market Content Guide

DELIVERED CUSTOMIZATIONS

We have successfully delivered the following deep-dive customizations:

CLIENT REQUEST CUSTOMIZATION DELIVERED VALUE ADDS
NDT Equipment Manufacturer / OEM
  • Detailed benchmarking of NDT hardware by technique type (ultrasonic, radiographic, eddy current, phased array UT, total focusing method), frequency ranges, portability, and sensitivity levels for aerospace-grade materials.
  • Assessment of core components including transducers, probes, pulser-receivers, data acquisition modules, and software platforms with power and weight profiles for field deployment.
  • Competitive mapping of key OEMs and component suppliers with performance comparison across detection resolution, calibration standards (ASTM/EN/MIL-SPEC), and total cost of ownership
  • Identify technology gaps and innovation opportunities in next-generation inspection systems including AI-assisted defect recognition, miniaturized PAUT arrays, and robotic crawler integration
  • Track regulatory certifications (FAA, EASA, AS9100) influencing product development and procurement timelines
MRO Service Provider / Airline Maintenance Organization
  • Mapping of NDT service providers operating across airframe, engine, landing gear, and composite structure inspection segments across North America, Europe, and Asia Pacific
  • Evaluation of inspection technology adoption by MRO type: line, base, component, and engine — including fleet age-driven demand and automation feasibility for high-volume checks
  • Benchmarking of turnaround time, cost-per-inspection, workforce certification requirements (Level I/II/III per NAS 410 / EN 4179), and digital record-keeping integration with MRO IT systems
  • Gain insights into automation adoption curves, drone-based fuselage inspection ROI, and digital twin-linked inspection data management for predictive maintenance programs
  • Understand MRO capacity expansion plans by geography and fleet growth implications for NDT demand through 2030
Regulatory Body / Aviation Authority / Standards Organization
  • Assessment of global and regional regulations impacting aerospace NDT practices including airworthiness directives, inspection intervals, approved methods per aircraft structure type, and documentation requirements
  • Evaluation of compliance requirements related to personnel certification, equipment calibration traceability, approved repair station qualifications (FAA Part 145 / EASA Part-145), and NADCAP special process accreditation
  • Support regulatory alignment and compliance roadmap planning with evolving airworthiness standards, digital documentation mandates, and sustainability-linked inspection protocols
  • Benchmark international harmonization gaps between FAA and EASA requirements impacting cross-border MRO operations
Defense / Space / Industrial End Users
  • Evaluation of ROI and cost-benefit analysis of deploying advanced NDT methods across military aircraft overhaul, space launch vehicle inspection, and satellite component qualification use cases
  • Performance comparison of inspection technologies for composite, titanium, and nickel-alloy aerospace structures — covering detectability limits, false-call rates, inspection speed, and operator dependency
  • mprove first-time inspection yield, reduce rework costs, and optimize inspection cell throughput through automation and AI-assisted flaw classification integrated into production quality systems
  • Identify supply chain consolidation opportunities and dual-source strategies for critical NDT consumables (couplants, films, probes) to ensure production continuity

RECENT DEVELOPMENTS

  • January 2026 : SGS SA introduced a digital inspection platform integrating NDT inspection data, analytics, and reporting for aerospace components. The platform improves traceability of inspection results, supports predictive maintenance, and enables aerospace manufacturers and MRO providers to manage inspection data across aircraft structures and propulsion systems.
  • January 2026 : Wabtec Corporation launched the OmniScan X4 phased array ultrasonic testing platform that enhances aerospace inspection through improved signal processing, automated scanning capabilities, and advanced defect characterization.
  • April 2025 : Nikon Metrology, LLC launched the VOXLS 20 C 225, a compact industrial X-ray CT system designed for high-precision internal inspection in manufacturing environments. The system provides high-resolution imaging for defect detection and dimensional measurement of complex components, supporting quality assurance processes in aerospace component manufacturing and research laboratories.
  • March 2024 : Baker Hughes launched the Everest Mentor Flex advanced video borescope for remote visual inspection. The system provides high-definition imaging, improved articulation, and AI-assisted defect detection for inspecting aircraft engines, turbines, and complex internal aerospace components during maintenance and overhaul inspections.

Table of Contents

Exclusive indicates content/data unique to MarketsandMarkets and not available with any competitors.

TITLE

PAGE NO

1

INTRODUCTION

15

2

EXECUTIVE SUMMARY

3

PREMIUM INSIGHTS

4

MARKET OVERVIEW

Captures industry movement, adoption patterns, and strategic signals across key end-use segments and regions.

4.1

INTRODUCTION

4.2

MARKET DYNAMICS

4.2.1

DRIVERS

4.2.2

RESTRAINTS

4.2.3

OPPORTUNITIES

4.2.4

CHALLENGES

4.3

INTERCONNECTED MARKETS AND CROSS-SECTOR OPPORTUNITIES

4.4

STRATEGIC MOVES BY TIER 1/2/3 PLAYERS

5

INDUSTRY TRENDS

Explains the evolving landscape through demand-side drivers, supply-side constraints, and opportunity hotspots.

5.1

INTRODUCTION

5.2

PORTER’S FIVE FORCES ANALYSIS

5.2.1

THREAT OF NEW ENTRANTS

5.2.2

THREAT OF SUBSTITUTES

5.2.3

BARGAINING POWER OF SUPPLIERS

5.2.4

BARGAINING POWER OF BUYERS

5.2.5

INTENSITY OF COMPETITIVE RIVALRY

5.3

MACROECONOMIC OUTLOOK

5.3.1

INTRODUCTION

5.3.2

GDP TRENDS AND FORECAST

5.3.3

TRENDS IN GLOBAL COMMERCIAL AIRCRAFT INDUSTRY

5.4

VALUE CHAIN ANALYSIS

5.5

ECOSYSTEM ANALYSIS

5.6

PRICING ANALYSIS

5.6.1

AVERAGE SELLING PRICE OF ULTRASONIC TESTING TECHNIQUES, BY KEY PLAYER,

5.6.2

AVERAGE SELLING PRICE OF DIFFERENT TYPES OF ULTRASONIC TESTING TECHNIQUES,

5.6.3

AVERAGE SELLING PRICE TREND OF ULTRASONIC TESTING TECHNIQUES, BY REGION, 2022–2025

5.7

TRADE ANALYSIS

5.7.1

IMPORT SCENARIO (HS CODE 9031)

5.7.2

EXPORT SCENARIO (HS CODE 9031)

5.8

KEY CONFERENCES AND EVENTS, 2026–2027

5.9

TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS

5.10

INVESTMENT AND FUNDING SCENARIO

5.11

CASE STUDY ANALYSIS

5.12

IMPACT OF US TARIFF – AEROSPACE NDT MARKET

5.12.1

INTRODUCTION

5.12.1.1

KEY TARIFF RATES

5.12.1.2

PRICE IMPACT ANALYSIS

5.12.2

IMPACT ON COUNTRIES/REGIONS

5.12.2.1

US

5.12.2.2

EUROPE

5.12.2.3

ASIA PACIFIC

5.12.3

IMPACT ON APPLICATIONS

6

TECHNOLOGICAL ADVANCEMENTS, AI-DRIVEN IMPACT, PATENTS, AND INNOVATIONS

6.1

KEY TECHNOLOGIES

6.1.1

REAL-TIME NDT WITH IOT INTEGRATION

6.2

COMPLEMENTARY TECHNOLOGIES

6.2.1

ARTIFICIAL INTELLIGENCE FOR DEFECT DETECTION

6.2.2

DATA ANALYTICS & CLOUD PLATFORMS

6.3

ADJACENT TECHNOLOGIES

6.3.1

DRONES/UAV-BASED INSPECTION

6.3.2

DIGITAL TWINS

6.4

TECHNOLOGY/PRODUCT ROADMAP

6.5

PATENT ANALYSIS

6.6

IMPACT OF AI/GEN AI ON AEROSPACE NDT MARKET

6.6.1

TOP USE CASES AND MARKET POTENTIAL

6.6.2

BEST PRACTICES FOLLOWED BY MANUFACTURERS/OEMS IN AEROSPACE NDT MARKET

6.6.3

CASE STUDIES RELATED TO AI IMPLEMENTATION IN AEROSPACE NDT MARKET

6.6.4

INTERCONNECTED ECOSYSTEM AND IMPACT ON MARKET PLAYERS

6.6.5

CLIENTS' READINESS TO ADOPT AI-INTEGRATED AEROSPACE NDT EQUIPMENT

7

REGULATORY LANDSCAPE

7.1

REGIONAL REGULATIONS AND COMPLIANCE

7.1.1

REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS

7.1.2

INDUSTRY STANDARDS

8

CUSTOMER LANDSCAPE AND BUYER BEHAVIOR

8.1

INTRODUCTION

8.2

DECISION-MAKING PROCESS

8.3

KEY STAKEHOLDERS INVOLVED IN BUYING PROCESS AND THEIR EVALUATION CRITERIA

8.3.1

KEY STAKEHOLDERS IN BUYING PROCESS

8.3.2

BUYING CRITERIA

8.4

ADOPTION BARRIERS & INTERNAL CHALLENGES

8.5

UNMET NEEDS OF VARIOUS APPLICATIONS

9

DIFFERENT MATERIAL & MANUFACTURING SPECIFICITIES OF AEROSPACE NDT

9.1

INTRODUCTION

9.2

COMPOSITE MATERIALS

9.3

ADDITIVE MANUFACTURING

9.4

HYBRID/MULTI-MATERIAL STRUCTURES

10

DIFFERENT END USERS OF AEROSPACE NDT EQUIPMENT

10.1

INTRODUCTION

10.2

OEMS

10.3

TIER 1 & TIER 2 SUPPLIERS

10.4

MRO PROVIDERS

10.5

DEFENSE CONTRACTORS

10.6

SPACE AGENCIES

11

AEROSPACE NDT MARKET, BY OFFERING

Market Size, Volume & Forecast – USD Million

11.1

INTRODUCTION

11.2

EQUIPMENT

11.3

SERVICES

11.3.1

INSPECTION SERVICES

11.3.1.1

SOFTWARE-AS-A-SERVICE (SAAS)

11.3.2

EQUIPMENT RENTAL SERVICES

11.3.3

CALIBRATION SERVICES

11.3.4

OTHER SERVICES

12

AEROSPACE NDT MARKET, BY TECHNIQUE

Market Size, Volume & Forecast – USD Million

12.1

INTRODUCTION

12.2

ULTRASONIC TESTING

12.3

RADIOGRAPHIC TESTING

12.4

EDDY CURRENT TESTING

12.5

MAGNETIC PARTICLE TESTING

12.6

LIQUID PENETRANT TESTING

12.7

VISUAL TESTING

12.8

ACOUSTIC EMISSION TESTING

12.9

OTHER TECHNIQUES

13

AEROSPACE NDT MARKET, BY AIRCRAFT TYPE

Market Size, Volume & Forecast – USD Million

13.1

INTRODUCTION

13.2

COMMERCIAL AIRCRAFT

13.3

MILITARY & DEFENSE AIRCRAFT

13.4

SPACECRAFT & LAUNCH VEHICLES

13.5

HELICOPTERS

13.6

UNMANNED AERIAL VEHICLES (UAVS)/DRONES

13.7

BUSINESS & GENERAL AVIATION

14

AEROSPACE NDT MARKET, BY APPLICATION

Market Size, Volume & Forecast – USD Million

14.1

INTRODUCTION

14.2

AIRFRAME & STRUCTURES

14.3

ENGINES & PROPULSION SYSTEMS

14.4

AVIONICS & ELECTRONICS

14.5

LANDING GEAR & MECHANICAL SYSTEMS

14.6

INTERIORS & CABIN SYSTEMS

14.7

OTHER APPLICATIONS

15

AEROSPACE NDT MARKET, BY REGION

Market Size, Volume & Forecast – USD Million

15.1

INTRODUCTION

15.2

NORTH AMERICA

15.2.1

US

15.2.2

CANADA

15.2.3

MEXICO

15.3

EUROPE

15.3.1

GERMANY

15.3.2

UK

15.3.3

FRANCE

15.3.4

SPAIN

15.3.5

ITALY

15.3.6

NETHERLANDS

15.3.7

BELGIUM

15.3.8

NORDICS

15.3.9

REST OF EUROPE

15.4

ASIA PACIFIC

15.4.1

CHINA

15.4.2

AUSTRALIA

15.4.3

JAPAN

15.4.4

INDIA

15.4.5

SOUTH KOREA

15.4.6

SOUTHEAST ASIA

15.4.7

REST OF ASIA PACIFIC

15.5

REST OF THE WORLD (ROW)

1.1.1

MIDDLE EAST

15.5.1

BAHRAIN

15.5.2

KUWAIT

15.5.3

OMAN

15.5.4

QATAR

15.5.5

SAUDI ARABIA

15.5.6

UAE

15.5.7

REST OF MIDDLE EAST

15.5.8

AFRICA

15.5.8.1

SOUTH AFRICA

15.5.8.2

REST OF AFRICA

15.5.9

SOUTH AMERICA

15.5.9.1

BRAZIL

15.5.9.2

ARGENTINA

15.5.9.3

REST OF SOUTH AMERICA

16

AEROSPACE NDT MARKET, COMPETITIVE LANDSCAPE

16.1

OVERVIEW

16.2

KEY PLAYER COMPETITIVE STRATEGIES/RIGHT TO WIN

16.3

REVENUE ANALYSIS, 2021-2025

16.4

MARKET SHARE ANALYSIS,

16.5

BRAND/PRODUCT/TECHNOLOGY COMPARISON

16.6

COMPANY EVALUATION MATRIX: KEY PLAYERS,

16.6.1

STARS

16.6.2

EMERGING LEADERS

16.6.3

PERVASIVE PLAYERS

16.6.4

PARTICIPANTS

16.6.5

COMPANY FOOTPRINT: KEY PLAYERS,

16.6.5.1

COMPANY FOOTPRINT

16.6.5.2

REGION FOOTPRINT

16.6.5.3

TECHNIQUE FOOTPRINT

16.6.5.4

OFFERING FOOTPRINT

16.6.5.5

AIRCRAFT TYPE FOOTPRINT

16.6.5.6

APPLICATION FOOTPRINT

16.7

COMPANY EVALUATION MATRIX: STARTUPS/SMES,

16.7.1

PROGRESSIVE COMPANIES

16.7.2

RESPONSIVE COMPANIES

16.7.3

DYNAMIC COMPANIES

16.7.4

STARTING BLOCKS

16.7.5

COMPETITIVE BENCHMARKING: STARTUPS/SMES,

16.7.5.1

DETAILED LIST OF KEY STARTUPS/SMES

16.7.5.2

COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES

16.8

COMPANY VALUATION AND FINANCIAL METRICS

16.9

COMPETITIVE SCENARIO

16.9.1

PRODUCT LAUNCHES

16.9.2

DEALS

16.9.3

EXPANSIONS

17

AEROSPACE NDT MARKET, COMPANY PROFILES

17.1

KEY PLAYERS

17.1.1

BAKER HUGHES COMPANY

17.1.2

WABTEC CORPORATION (EVIDENT CORPORATION)

17.1.3

SGS SA

17.1.4

BUREAU VERITAS

17.1.5

ELEMENT MATERIALS TECHNOLOGY

17.1.6

MISTRAS GROUP

17.1.7

DEKRA

17.1.8

NIKON METROLOGY, LLC

17.1.9

INTERTEK GROUP PLC

17.1.10

APPLUS+

17.2

OTHER PLAYERS

17.2.1

EDDYFI TECHNOLOGIES

17.2.2

ZETEC, INC.

17.2.3

ACUREN

17.2.4

TESTIA

17.2.5

ATS

17.2.6

AVIATION NDT SERVICES

17.2.7

SONATEST

17.2.8

COMET GROUP

17.2.9

TÜV RHEINLAND

17.2.10

MAGNAFLUX

17.2.11

QUALITY NDE

17.2.12

SCANMASTER SYSTEMS

17.2.13

PHOENIX INSPECTION SYSTEMS

17.2.14

OKONDT GROUP

17.2.15

AMERAPEX CORPORATION

18

RESEARCH METHODOLOGY

18.1

RESEARCH DATA

18.1.1

SECONDARY DATA

18.1.1.1

KEY DATA FROM SECONDARY SOURCES

18.1.1.2

LIST OF SECONDARY SOURCES

18.1.2

PRIMARY DATA

18.1.2.1

KEY DATA FROM PRIMARY SOURCES

18.1.2.2

KEY PRIMARY PARTICIPANTS

18.1.2.3

BREAKDOWN OF PRIMARY INTERVIEWS

18.1.2.4

KEY INDUSTRY INSIGHTS

18.2

MARKET SIZE ESTIMATION

18.2.1

BOTTOM-UP APPROACH

18.2.2

TOP-DOWN APPROACH

18.2.3

MARKET SIZE CALCULATION FOR BASE YEAR

18.3

MARKET FORECAST APPROACH

18.3.1

SUPPLY SIDE

18.3.2

DEMAND SIDE

18.4

DATA TRIANGULATION

18.5

FACTOR ANALYSIS

18.6

RESEARCH ASSUMPTIONS

18.7

RESEARCH LIMITATIONS

18.8

RISK ASSESSMENT

19

APPENDIX

19.1

DISCUSSION GUIDE

19.2

KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL

19.3

CUSTOMIZATION OPTIONS

19.4

RELATED REPORTS

19.5

AUTHOR DETAILS

Methodology

The research study involved four major activities in estimating the aerospace NDT market size. Exhaustive secondary research has been done to collect important information about the market and peer markets. The next step has been to validate these findings and assumptions and size them with the help of primary research with industry experts across the value chain. Both top-down and bottom-up approaches have been used to estimate the market size. The market breakdown and data triangulation have been adopted to estimate the market sizes of segments and sub-segments.

Secondary Research

In the secondary research process, various secondary sources were referred to identify and collect information required for this study. The secondary sources include annual reports, press releases, investor presentations of companies, white papers, and articles from recognized authors. Secondary research has been mainly done to obtain key information about the market’s value chain, the pool of key market players, market segmentation according to industry trends, regional outlook, and developments from both market and technology perspectives.

Primary Research

In primary research, various sources from both the supply and demand sides have been interviewed to obtain the qualitative and quantitative insights required for this report. Primary sources from the supply side include experts such as CEOs, vice presidents, marketing directors, technology and innovation directors, and related executives from multiple key companies and organizations operating in the aerospace NDT ecosystem. After interacting with industry experts, brief sessions have been conducted with highly experienced independent consultants to reinforce the findings from our primary research. This, along with the in-house subject-matter experts’ opinions, has led us to the findings as described in the report. The breakdown of primary respondents is as follows:

Aerospace NDT Market
 Size, and Share

Note: Other designations include sales, marketing, and product managers.

To know about the assumptions considered for the study, download the pdf brochure

Market Size Estimation

In the market engineering process, both top-down and bottom-up approaches and data triangulation methods have been used to estimate and validate the size of the aerospace NDT market and other dependent submarkets. The research methodology used to estimate the market sizes includes the following:

The bottom-up procedure has been employed to arrive at the overall size of the aerospace NDT market.

  • Major companies that provide NDT equipment and services for the aerospace industry have been identified. This included analyzing company product and service offerings and presence across various regions.
  • The segment-specific revenues of the companies, particularly those related to aerospace NDT equipment and services, have been determined.
  • The product-specific and service-specific revenues of the companies, particularly those related to aerospace NDT, have been determined.
  • These individual revenue figures have been compiled to determine the total revenue generated across the identified companies within the sector.
  • The global size for the aerospace NDT market has been obtained using this consolidated data.

The top-down approach has been used to estimate and validate the total size of the aerospace NDT market.

  • Identified top-line investments and spending in the ecosystem and major market developments to consider segment-level splits
  • Estimated the overall aerospace NDT market size, then segmented the global market by allocating shares based on the segments considered
  • Distributed segment-level markets into regions and countries by aligning regional aerospace NDT activity with economic indicators, presence of market players, and national development initiatives

Aerospace NDT Market : Top-Down and Bottom-Up Approach

Aerospace NDT Market Top Down and Bottom Up Approach

Data Triangulation

After determining the overall market size through the previously explained estimation processes, we have divided the market into several segments and subsegments. Data triangulation and market breakdown procedures have been employed to complete the entire market engineering process and arrive at the exact statistics of each market segment and subsegment. The data has been triangulated by studying various factors and trends from the demand and supply sides of the aerospace NDT market.

Market Definition

The aerospace non-destructive testing (NDT) comprises equipment and integrated solutions used to inspect, evaluate, and ensure the structural integrity of aircraft, spacecraft, and their components without causing damage, as well as related services such as inspection services and calibration services. These solutions help find problems such as cracks, rust, gaps, and uneven materials early, making sure everything is safe, reliable, and meets strict aviation rules. Aerospace NDT techniques include ultrasonic testing (UT), radiographic testing (RT), eddy current testing (ECT), magnetic particle testing (MPT), liquid penetrant testing (LPT), visual testing (VT), and advanced methods such as phased array ultrasonic testing (PAUT), computed tomography (CT), and acoustic emission testing (AET). The ecosystem consists of NDT equipment (e.g., ultrasonic flaw detectors, X-ray/CT systems, eddy current instruments, and videoscopes), inspection services, and supporting infrastructure required for both in-factory and in-service inspections.

Key Stakeholders

  • NDT Equipment Manufacturers
  • NDT Component and Sensor Suppliers
  • Inspection Service Providers
  • Aerospace OEMs
  • Aerospace Component Manufacturers
  • Maintenance, Repair, and Overhaul (MRO) Service Providers
  • NDT Technology and Solution Providers
  • Defense and Military Organizations
  • Space Agencies and Commercial Space Companies
  • Regulatory and Certification Authorities
  • Distributors and Resellers

Report Objectives

  • To define, describe, segment, and forecast the aerospace NDT market size by offering, technique, aircraft type, application, and region, in terms of value
  • To evaluate the aerospace NDT market size in four key regions: North America, Europe, Asia Pacific, and Middle East, Africa, South America, in terms of value
  • To forecast the market for aerospace NDT, by technique, in terms of volume
  • To provide detailed information regarding the key factors such as drivers, restraints, opportunities, and challenges influencing the growth of the market
  • To analyze the aerospace NDT value chain and ecosystem, along with the average selling price for the technique and region segments
  • To strategically study the regulatory landscape, tariffs, standards, patents, Porter’s five forces, import and export scenarios, trade values, and case studies pertaining to the market under study
  • To understand micromarkets with regard to individual growth trends, prospects, and contributions to the overall market
  • To offer the impact of AI/Gen AI on the aerospace NDT market
  • To outline the macroeconomic outlook for the regions under study
  • To analyze strategies such as product launches, collaborations, acquisitions, and partnerships adopted by players in the aerospace NDT market
  • To profile key market players and comprehensively analyze their ranking based on their revenue, market share, and core competencies

Available customizations:

With the given market data, MarketsandMarkets offers customizations according to the specific requirements of companies. The following customization options are available for the report:

Country-wise Information:

  • Country-wise breakdown for North America, Europe, Asia Pacific, the Middle East, Africa, and South America

Company Information:

  • Detailed analysis and profiling of additional market players (up to five)

Key Questions Addressed by the Report

The global aerospace NDT market is projected to grow from approximately USD 3.23 billion in 2026 to USD 5.69 billion by 2032, exhibiting a compound annual growth rate (CAGR) of 9.9 % over the forecast period.

The Asia Pacific region is expected to witness the highest CAGR due to expanding aircraft fleets, increased defense spending, a growing maintenance, repair, and overhaul (MRO) infrastructure, and rising aerospace manufacturing initiatives.

The aerospace NDT market is segmented by techniques such as ultrasonic testing, radiographic testing, eddy current testing, magnetic particle testing, liquid penetrant testing, and visual inspection, with ultrasonic testing dominating the market due to its high accuracy and deep penetration capabilities.

The airframe and structures application segment holds the largest share of the aerospace NDT market, driven by frequent inspection requirements for aircraft fuselages, wings, and structural components to ensure safety and regulatory compliance.

Major companies operating in the aerospace NDT market include SGS SA (Switzerland), Wabtec Corporation (US), Baker Hughes Company (US), Intertek Group plc (UK), Bureau Veritas (France), Element Materials Technology (UK), MISTRAS Group (US), DEKRA (Germany), Nikon Metrology (Japan), and Applus+ (Spain), among others.

Growth Signals

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Tetsuya Ohhira

Business Development Manager-Technology Business


Nikon Corporation,

Leading Japanese MNC specializing in optics and imaging products


www.nikon.com

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Leading Provider of Process Control Solutions

We engaged with MarketsandMarkets on a study to perform an analysis and recommend a Go-To-Market strategy for metrology and process control in the semiconductor market. The study was tailored to our targets and needs with well-defined milestones. Our overall experience with the MarketsandMarkets team was very good throughout the project in all aspects including the analysis methodologies used, the quality and depth of primary and secondary data sets, the professionalism and flexibility of the team and the ability to meet the target schedule and milestones. We want to thank MarketsandMarkets team for a job well done.

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