Top 5 Non-Destructive Testing Methods Safeguarding the Aerospace and Defence Industry

“According to BIS Research, the global non-destructive testing services in the aerospace and defence market are estimated to reach $1.81 billion in 2033 from $1.29 billion in 2022, at a CAGR of 3.34% during the forecast period 2023–2033.”

The aerospace and defence industry heavily relies on the utmost safety and reliability of its components. Non-destructive testing (NDT) plays a crucial role in ensuring these standards are met by detecting flaws and defects in materials and components without causing any damage. Here are the top 5 NDT methods safeguarding the aerospace and defence industry. To read more visit

Non Destructive Testing (NDT) Equipment Market - Forecast(2024 - 2030)

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The Non-Destructive Testing (NDT) Equipment Market is expected to grow at a CAGR of 7.20% from 2024 to 2029, reaching USD 4.28 billion by 2029. This growth is driven by the increasing demand for safety and quality assurance in various industries, such as oil & gas, aerospace, automotive, and power generation.

Breaking Boundaries: The Destructive Testing Market

The destructive testing market is witnessing steady growth as industries across sectors such as manufacturing, aerospace, automotive, and construction prioritize quality assurance and product reliability.

Destructive testing involves subjecting materials and components to extreme conditions to assess their strength, durability, and performance characteristics. With the increasing complexity of products and the need for stringent safety standards, the demand for destructive testing solutions with advanced capabilities and accuracy is driving innovation in the market.

Advancements in testing methodologies, equipment, and data analysis techniques are driving innovation in the destructive testing market, enabling manufacturers to perform comprehensive evaluations of materials and components. These advancements have led to the development of specialized testing instruments and techniques for assessing the mechanical properties, fatigue life, and failure modes of materials under various conditions. Moreover, the integration of digital imaging, non-destructive evaluation (NDE), and simulation technologies is enhancing testing efficiency and enabling predictive modeling of material behavior, empowering industries to optimize product designs and manufacturing processes.

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NDT Market Size Worth $21.20 Billion By 2025

The global non-destructive testing market size is projected to reach USD 21.20 billion by 2025, according to a new report by Grand View Research, Inc., progressing at a CAGR of 6.0% during the forecast period. Increasing manufacturing activities in developing as well as developed nations are poised to bolster market growth over the forecast period.

Use of non-destructive testing helps in detecting faults precisely, reducing product/component failure probability, and cutting down costs incurred in repairs of components. Use of NDT also speeds up the process of manufacturing as possible faults are eliminated beforehand.

Technological advancements in the field are leading to introduction of methods with improved efficiency, which is working in favor of the market. Improvements in techniques used to perform NDT tests are ensuring less complicated execution, thereby boosting the deployment of NDT techniques in numerous vertical segments.

The ultrasonic testing segment is likely to witness significant growth owing to ease of handling equipment, abundant availability of skilled technicians, and precise fault detection. Based on vertical, the manufacturing segment is expected to deploy NDT techniques extensively over the forecast period owing to increasing awareness regarding their use and benefits.

To request a sample copy or view summary of this report, click the link below: https://www.grandviewresearch.com/industry-analysis/non-destructive-testing-equipment-services-market

Further key findings from the report suggest:

The     radiographic testing segment is estimated to expand at a CAGR of over 6.0%     during the forecast period. The method offers benefits such as precise     fault detection and provision of detailed analytic reports highlighting     detected faults

Rapid     urbanization and industrialization in both developing and developed     nations are leading to increase in activities pertaining to construction,     manufacturing, and power generation. This is one of the key trends driving     the overall market

The     manufacturing segment led the market in 2017. It is anticipated to     register a CAGR greater than 7.0% over the forecast period, on account of     immense potential for manufacturing activities in Asia Pacific

Asia Pacific     commanded approximately 21.0% share in the global arena. The region is     slated to post the highest CAGR during the same period, owing to growing     manufacturing, power generation, and construction projects

Key players     such as General Electric, Nikon Metrology NV; Olympus Corporation; Mistras     Group, Inc.; Yxlon International GmbH; and Sonatest Ltd. dominated the     market in 2017. Mergers and acquisitions are among the key strategies     adopted by these players to consolidate their position in the market.

See More Reports of This Category: https://www.grandviewresearch.com/industry/hvac-and-construction-technologies

About Grand View Research:

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

The name of this method is destructive testing, which means a method of breaking, in which any material, component is broken down to find out its properties, defects, etc.

What is Destructive Testing?

It is the method in which the exact failure point, hardness, strength, capacity is ascertained in any material, components, etc., the material cannot be reused after doing this method,

This method is done by internal and external testing services, usually, DT methods are done by,

specialized researchers,

technicians,

quality control analyst,

chemistry and electrochemical process expert,

failure analysis expert,

material scientist,

metallurgical and polymer engineer,

regulatory compliance expert etc. Keep Reading

Know more..

Investigation on Mechanical Properties of TIG Welded Joint and its Efficiency

by Mr. I. S. N. V. R. Prashanth | K. Lavanya | Meherkeziah | P. Navya "Investigation on Mechanical Properties of TIG Welded Joint and its Efficiency" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, 

URL: https://www.ijtsrd.com/papers/ijtsrd23244.pdf

Paper URL: https://www.ijtsrd.com/engineering/manufacturing-engineering/23244/investigation-on-mechanical-properties-of-tig-welded-joint-and-its-efficiency/mr-i-s-n-v-r-prashanth

call for paper engineering, paper publication for engineering, engineering journal

This work mainly pertains to improvement in the mechanical properties of IS 2062 steel plates welds through gas tungsten arc welding GTAW process. TIG Tungsten inert gas welding are well known welding techniques, that are being used in industries in the current age. Mild steel was the only commonly used material in TIG welding. Mild steel is the first material consumption. The comparison is done on the basis of the mechanical properties of the welded joint of TIG welding. This study is done on mechanical testing and non destructive tests DPT and radiography tests of TIG welding on IS 2062 Mild steel plates. 

The global Non-Destructive Testing (NDT) Market Size was valued at $14.94 Billion in 2017 and is forecast to grow at a modestxx.3 % CAGR between 2018-2025.

Why Quality Assurance is Essential for Success in Structural Engineering Business?

Quality assurance (QA) is the absolute cornerstone of success in a structural engineering business. Here's why:

Safety First: Structural engineering deals with the foundation of our built environment. Buildings, bridges, and other structures have a huge impact on public safety. A single error in design or construction can have catastrophic consequences. Robust QA procedures ensure all calculations, designs, and construction plans meet rigorous safety standards.

Client Confidence and Repeat Business: When clients hire a structural engineering firm, they're entrusting them with a significant responsibility. A strong QA program demonstrates a commitment to excellence, building trust and confidence. This leads to satisfied clients who are more likely to return for future projects and recommend your services to others.

Reduced Costs and Rework: Errors caught early in the process are far less expensive to fix than those discovered during construction. QA procedures like code reviews, peer checks, and detailed documentation minimise errors, preventing costly delays and rework. This translates to better project management, keeping projects on budget and schedule.

Competitive Advantage: In a competitive market, a reputation for quality sets you apart. Clients actively seek out firms with a proven track record of delivering safe and reliable structures. Robust QA demonstrates your commitment to excellence, giving you a competitive edge when bidding on projects.

Risk Mitigation: Structural engineering projects carry inherent risks. A strong QA program helps identify and mitigate potential problems before they occur. This minimises legal liabilities and protects your company's reputation in the case of unforeseen issues.

Continuous Improvement: Effective QA fosters a culture of continuous learning and improvement. By analysing past projects and identifying areas for improvement in your QA processes, you can constantly refine your methods and deliver even better results.

Attract and Retain Top Talent: The best structural engineers want to work for companies that prioritise quality. A strong QA program demonstrates your commitment to professional excellence, making your firm more attractive to high-calibre talent.

In conclusion, quality assurance is not just an extra step; it's the foundation for a successful and sustainable structural engineering business. By prioritising safety, client confidence, and continuous improvement, QA ensures your firm delivers high-quality work that stands the test of time.

To learn more about the important role in the Quality Assurance & Structural Engineering Business industry, contact the experts at RiskCON today.

7 Factors to Consider for Picking the Best Welding Process.

Welding is a critical skill in countless industries, from construction and manufacturing to shipbuilding and aerospace. But with a variety of welding processes available, choosing the right one for your project is crucial for both quality and efficiency. To read more visit