Aircraft Electromagnetic Interference (EMI) Shielding Market

• In November 2023, Parker Hannifin unveiled its new range of EMI shielding materials designed to meet the needs of next-generation aircraft. These materials provide superior protection against electromagnetic disturbances, which is crucial for maintaining avionics integrity.

• In April 2024, Esterline announced a partnership with Boeing to provide advanced EMI shielding solutions for new aircraft designs. This collaboration aims to reduce electromagnetic interference, ensuring better performance and safety in flight systems​.

In this report, the Aircraft EMI Shielding Market has been segmented by Platform Type, Application, Aircraft Type, Product Type, Location Type, Sales Channel and Geography.

Aircraft EMI Shielding Market, Segmentation by Platform Type

The Aircraft EMI Shielding Market has been segmented by Platform Type into Fixed Wing Platform and Rotary Wing Platform.

Fixed Wing Platform

The fixed wing platform dominates the aircraft EMI shielding market with nearly 65–70% share. The rising production of commercial aircraft and increasing defense spending on advanced fixed wing fleets are driving strong adoption of EMI shielding solutions.

Rotary Wing Platform

Rotary wing platforms account for about 30–35% of the market, supported by growing use of helicopters in both civil aviation and military applications. The rising demand for reliable communication systems and enhanced electromagnetic protection boosts the need for advanced shielding technologies.

Aircraft EMI Shielding Market, Segmentation by Application

The Aircraft EMI Shielding Market has been segmented by Application into Commercial Aircrafts, Private Aircrafts, Military/Defense Aircrafts and Others.

Commercial Aircrafts

Commercial aircrafts lead the aircraft EMI shielding market with nearly 55–60% share. Increasing demand for passenger aircraft, rising air traffic, and the integration of advanced avionics systems drive significant adoption of EMI shielding solutions in this segment.

Private Aircrafts

Private aircrafts hold around 10–12% of the market, supported by growth in the business jet sector and demand for premium in-flight connectivity. The need to maintain signal integrity in compact, high-performance systems further enhances EMI shielding requirements.

Military/Defense Aircrafts

Military and defense aircrafts account for approximately 25–28% of the market. The emphasis on secure communication, radar systems, and advanced electronic warfare technologies makes EMI shielding a critical component for operational efficiency and safety.

Others

The others segment, comprising cargo aircraft, regional carriers, and specialized platforms, contributes nearly 5–7% of the market. Rising global trade and demand for freighter aircraft continue to create opportunities for EMI shielding solutions in this category.

Aircraft EMI Shielding Market, Segmentation by Aircraft Type

The Aircraft EMI Shielding Market has been segmented by Aircraft Type into Narrow Body, Wide Body, Regional Jet and Turboprop.

Narrow Body

Narrow body aircrafts dominate the aircraft EMI shielding market with a share of nearly 45–50%. The increasing demand for short to medium-haul flights, coupled with rising fleet expansion by low-cost carriers, fuels strong adoption of EMI shielding solutions in this category.

Wide Body

Wide body aircrafts contribute around 25–28% of the market. Their higher passenger capacity and extensive use in long-haul international routes require robust EMI shielding to support advanced avionics and communication systems.

Regional Jet

Regional jets account for approximately 12–15% of the market. Growing demand for regional connectivity and increasing orders from developing markets enhance the integration of effective EMI shielding technologies in this segment.

Turboprop

Turboprop aircrafts hold nearly 8–10% of the market share. Their importance in short-distance routes and operations in remote regions makes EMI shielding essential for maintaining reliable navigation and communication systems.

Aircraft EMI Shielding Market, Segmentation by Product Type

The Aircraft EMI Shielding Market has been segmented by Product Type into Gaskets, Cable Over Braids, Laminates & Tapes & Foils, Paints And Coatings and Others.

Gaskets

Gaskets hold the largest share of the aircraft EMI shielding market at around 30–35%. Their widespread use in avionics enclosures and electronic components ensures strong protection against electromagnetic interference while maintaining system reliability.

Cable Over Braids

Cable over braids account for nearly 20–22% of the market. With rising demand for lightweight shielding solutions and enhanced signal protection in aircraft wiring systems, their adoption continues to grow significantly.

Laminates, Tapes & Foils

This segment contributes about 18–20% to the market. Known for their flexibility and cost-effectiveness, laminates, tapes, and foils are widely used in structural shielding applications across both commercial and defense aircraft.

Paints and Coatings

Paints and coatings represent close to 15–17% of the market. Their popularity is driven by the need for lightweight EMI shielding that also provides corrosion resistance, making them highly suitable for aircraft surfaces.

Others

The others category, which includes emerging EMI shielding solutions, holds about 10–12% share. Increasing innovation in nanomaterials and advanced composites is expected to strengthen growth in this segment in the coming years.

Aircraft EMI Shielding Market, Segmentation by Location Type

The Aircraft EMI Shielding Market has been segmented by Location Type into Electronic Bay, Airframe, Flight Deck and Antenna.

Electronic Bay

The electronic bay accounts for nearly 35–38% of the aircraft EMI shielding market. With high-density avionics systems and sensitive communication equipment located here, effective shielding is critical to maintain operational reliability and safety.

Airframe

The airframe segment contributes about 25–27% to the market. Shielding in the airframe ensures structural integrity and reduces signal interference across integrated systems, particularly as aircraft adopt more composite materials.

Flight Deck

Flight deck EMI shielding holds around 20–22% of the share. With the growing use of digital cockpit displays and automated flight systems, maintaining EMI protection is vital for accurate and secure pilot operations.

Antenna

The antenna segment represents nearly 15–18% of the market. Effective EMI shielding for antennas enhances signal clarity, minimizes communication disruptions, and supports reliable navigation systems in both commercial and defense aircraft.

Aircraft EMI Shielding Market, Segmentation by Sales Channel

The Aircraft EMI Shielding Market has been segmented by Sales Channel into OEM and Aftermarket.

OEM

The OEM segment holds nearly 65–68% of the aircraft EMI shielding market. This dominance is driven by the integration of advanced shielding materials during the manufacturing stage, ensuring compliance with aviation safety standards and improving long-term system reliability.

Aftermarket

The aftermarket accounts for about 32–35% of the market. Demand in this segment is fueled by maintenance, repair, and upgrades of older aircraft, as airlines focus on extending service life and enhancing EMI protection across operational fleets.

Aircraft EMI Shielding Market, Segmentation by Geography

In this report, the Aircraft EMI Shielding Market has been segmented by Geography into five regions; North America, Europe, Asia Pacific, Middle East and Africa & Latin America.

Aircraft EMI Shielding Market Share (%), by Geographical Region

North America

North America represents nearly 38–40% of the aircraft EMI shielding market. The region benefits from a strong presence of leading aerospace manufacturers, rising adoption of advanced shielding technologies, and strict regulatory standards.

Europe

Europe accounts for about 25–27% of the market. Growth is driven by significant investments in defense aviation programs, advancements in lightweight shielding solutions, and an increasing focus on sustainability.

Asia Pacific

The Asia Pacific region contributes nearly 22–24%. Rapid expansion in commercial aviation fleets, strong government support for indigenous aircraft production, and growing defense budgets are boosting demand.

Middle East and Africa

Middle East and Africa hold close to 6–7% of the market. Rising investments in modern aircraft fleets, expansion of airport infrastructure, and increasing focus on military aviation are key drivers.

Latin America

Latin America captures around 5–6%. The region is witnessing steady growth through fleet modernization programs, increased aftermarket demand, and expanding regional connectivity.

This report provides an in depth analysis of various factors that impact the dynamics of Global Aircraft EMI Shielding Market. These factors include; Market Drivers, Restraints and Opportunities Analysis.

Drivers, Restraints and Opportunity Analysis

Drivers

• Growing emphasis on safety and reliability
• The continuous advancement of aerospace technology
• Stringent regulatory requirements

• Increasing use of Electronic Systems in Aircraft - From traditional mechanical controls to sophisticated fly-by-wire systems, the aviation industry has continuously sought ways to enhance safety, efficiency, and passenger experience through electronic advancements. Flight controls, once reliant on manual inputs, are now predominantly managed by electronic actuators and sensors, offering precise control and responsiveness. Similarly, navigation systems have transitioned from relying solely on ground-based beacons to incorporating GPS and inertial navigation technologies, enabling more accurate positioning and route optimization. The integration of entertainment systems, in-flight connectivity, and communication tools has become standard, catering to the expectations of modern passengers for a connected and immersive travel experience.
  With the proliferation of electronic components onboard aircraft comes the challenge of electromagnetic interference (EMI). EMI can disrupt the functionality of critical systems, posing potential safety risks. The intricate network of wiring, circuitry, and antennas within the aircraft creates an environment where electromagnetic signals can interfere with each other, leading to malfunctions or erroneous readings. External sources such as lightning strikes or radio frequency emissions from nearby equipment can further exacerbate EMI issues. Implementing effective shielding measures is imperative to mitigate these risks and ensure the reliability and performance of electronic systems under all operating conditions.
  As the aviation industry continues to embrace technological innovations, the demand for robust EMI shielding solutions is expected to grow. Aircraft manufacturers and suppliers are investing in research and development to design shielding materials and configurations that offer optimal protection without compromising weight or space constraints. Advanced composite materials, conductive coatings, and electromagnetic barriers are being deployed to shield sensitive electronic components from external interference while maintaining compliance with regulatory standards. Ongoing advancements in electromagnetic modeling and simulation techniques enable engineers to anticipate and address EMI concerns during the design phase, reducing the likelihood of costly retrofits or in-service disruptions.

Restraints

• Weight and Space Constraints
• Regulatory Compliance Burden
• Cost Considerations

• Weight and Space Constraints - The weight of an aircraft directly impacts its fuel efficiency, operational costs, and environmental footprint. Therefore, any additional weight, including that from EMI shielding materials, must be carefully considered during the design phase. Traditional EMI shielding materials, such as metals like aluminum or copper, can be heavy and may contribute significantly to the overall weight of the aircraft. As a result, engineers face the challenge of balancing the need for effective EMI protection with the imperative to minimize weight. This often involves exploring alternative lightweight materials or innovative composite structures that offer comparable shielding performance while mitigating the impact on the aircraft's weight.
  In addition to weight considerations, space constraints within the aircraft pose another significant challenge for EMI shielding implementation. Aircraft interiors are meticulously designed to optimize passenger comfort, accommodate essential equipment, and ensure compliance with safety regulations. This leaves limited space for integrating EMI shielding components, which may include conductive enclosures, shielding panels, or protective coatings. Engineers must strategically allocate space for these components, taking into account factors such as accessibility for maintenance, thermal management, and compatibility with surrounding systems. The integration of EMI shielding solutions must not compromise the overall functionality or ergonomics of the aircraft cabin, ensuring a seamless and unobtrusive passenger experience.
  Addressing the dual challenges of weight and space constraints in EMI shielding requires a multidisciplinary approach that encompasses materials science, aerospace engineering, and systems integration. Innovations in lightweight materials, such as carbon fiber composites and conductive polymers, offer promising alternatives for reducing the weight burden of EMI shielding while maintaining adequate protection levels. Advanced design optimization techniques, including computer-aided simulation and modeling, enable engineers to iteratively refine the layout and configuration of shielding components to maximize space efficiency without compromising performance. By striking a balance between EMI protection, weight management, and space utilization, aircraft manufacturers can deliver aircraft that meet the stringent demands of safety, efficiency, and passenger comfort in an increasingly electronic-driven aviation landscape.

Opportunities

• Emerging Aviation Technologies
• Rising Demand for Lightweight Materials
• Integration of Additive Manufacturing
• Enhanced Connectivity and In-Flight Entertainment

• Growth of Urban Air Mobility (UAM) - The rapid growth of urban air mobility (UAM) represents a transformative shift in transportation, promising efficient and sustainable aerial mobility solutions for urban environments. Electric vertical takeoff and landing (eVTOL) aircraft and autonomous aerial vehicles are at the forefront of this revolution, offering the potential to alleviate congestion on roads and provide faster and more direct transportation options. However, the densely populated and technologically saturated urban landscapes present unique challenges for ensuring the integrity of electronic systems onboard these aircraft. The proliferation of electronic devices, infrastructure, and wireless communication networks in urban areas contributes to a complex electromagnetic environment, where electromagnetic interference (EMI) can significantly impact the performance and safety of UAM platforms.
  In the context of UAM, EMI shielding solutions play a critical role in safeguarding the functionality of onboard electronic systems. These systems, ranging from flight controls and navigation equipment to communication and sensor arrays, must operate reliably amidst the myriad of electromagnetic signals present in urban airspace. Without effective shielding measures, the risk of EMI-induced malfunctions or disruptions increases, compromising the safety and operational viability of UAM operations. As such, the development and implementation of advanced EMI shielding technologies tailored to the unique requirements of UAM platforms are essential to ensure their successful integration into urban airspace and widespread adoption.
  The commercial viability of UAM hinges on the ability to address regulatory concerns and safety requirements effectively. Regulatory agencies such as the Federal Aviation Administration (FAA) and the European Union Aviation Safety Agency (EASA) mandate stringent standards for electromagnetic compatibility (EMC) and EMI mitigation in aircraft design and operation. Compliance with these standards is paramount for obtaining certification and ensuring the airworthiness of UAM platforms. Therefore, industry stakeholders, including aircraft manufacturers, technology providers, and regulatory bodies, must collaborate to develop robust EMI shielding solutions that not only meet regulatory requirements but also facilitate the seamless integration of UAM into urban airspace, enabling the realization of its full potential as a safe, efficient, and environmentally sustainable mode of transportation.

Key players in Global Aircraft EMI Shielding Market include:

• Glenair Inc.
• Parker Hannifin Corporation (Chomerics Division)
• W. L. Gore & Associates Inc.
• The 3M Company
• Laird Plc
• PPG Industries Inc.
• Simotec (Thailand) Co. Ltd.
• HEICO Corporation
• Henkel AG & Co. KGaA
• RTP Company

In this report, the profile of each market player provides following information:

• Company Overview and Product Portfolio
• Key Developments
• Financial Overview
• Strategies
• Company SWOT Analysis