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시장보고서
상품코드
1866794

세계의 전자 신관 시장 : 시장 점유율과 순위, 전체 판매 및 수요 예측(2025-2031년)

Electronic Fuzes - Global Market Share and Ranking, Overall Sales and Demand Forecast 2025-2031
발행일: | 리서치사: QYResearch | 페이지 정보: 영문 | 배송안내 : 2-3일 (영업일 기준)

    
    
    




■ 보고서에 따라 최신 정보로 업데이트하여 보내드립니다. 배송일정은 문의해 주시기 바랍니다.

세계의 전자 신관 시장 규모는 2024년에 9억 4,300만 달러로 추정되며, 2025년부터 2031년까지 예측 기간 동안 CAGR 3.5%로 성장하여 2031년까지 12억 300만 달러로 확대될 것으로 예측됩니다.

본 보고서는 전자 신관의 국경 간 산업 발자국, 자본 배분 패턴, 지역경제의 상호의존성, 공급망 재구축, 최근 관세 조정 및 국제적인 전략적 대응 조치에 대한 종합적인 평가를 제공합니다.

2024년 전자 신관의 세계 판매량은 약 350만 개, 평균 판매 단가는 개당 270달러로 예측됩니다. 신관이란 탄약에 장착되는 전자식 또는 기계식 장치로, 정해진 시간과 장소에서 확실하고 안전한 기폭을 실현하는 장치입니다. 이 장치는 탄약을 운반 플랫폼에서 안전하게 분리하는 동시에 그 기폭을 유도하는 역할을 합니다. 미사일, 로켓, 폭탄, 포탄, 포탄 및 기타 탄약은 현대전에서 군대의 발사 능력의 중요한 요소를 구성합니다. 이러한 탄약은 폭발물을 탑재하고 있기 때문에 보관, 발사, 취급 시 항상 폭발의 위험이 존재합니다. 따라서 탄약에는 어떠한 안전장치가 내장되어 있어야 합니다. 안전장치는 탄약이 추진될 때까지 작동하고, 발사 후에는 발사 메커니즘이 제어를 인수해야 합니다. 이를 실현하기 위해 탄약에는 무장 메커니즘도 필요합니다. 위의 모든 요구사항은 신관이라는 장치에 의해 충족됩니다. 신관의 기본 기능은 무장, 안전 확보, 발화, 목표물 감지입니다. 기계식 신관은 주로 기계 부품, 연동 메커니즘, 기타 메커니즘으로 구성된 안전 장치, 무장 장치, 기폭 장치를 갖추고 있습니다. 기계식 신관은 그 단순성과 개념화의 용이성으로 인해 가장 먼저 개발된 신관이며, 현재도 다양한 종류의 탄약에 사용되고 있습니다. 기계식 장치로 작동하는 신관은 기어, 스프링, 로터, 슬라이더, 플런저, 플런저 또는 이들의 조합과 같은 기계적인 연동 메커니즘을 이용합니다. 안전 요구 사항이 엄격하기 때문에 기계식 신관은 많은 부품으로 구성되어 있으며, 시계와 같은 디자인으로 설계되어 있습니다. 기계식 및 전기식 신관 설계에서 안전성과 내성, 사용, 취급 및 보관 시 열화, 작동 신뢰성, 구조의 단순성, 충분한 강도 등이 주요 고려사항입니다. 안전 요구 사항이 엄격하기 때문에 기계식 신관은 일반적으로 많은 부품으로 구성되어 있으며, 시계와 같은 디자인으로 설계되어 있습니다. 전자 신관은 1960년대 중반에 개발되었으며, 이후에도 이 기술은 지속적으로 발전하고 있습니다. 현재 많은 현대 무기 시스템에 채택되어 많은 상황에서 기계식 신관을 대체하고 있습니다.

전자 신관은 현대 전자기술과 정밀 센서 원리를 기반으로 설계된 하이테크 기폭장치입니다. 군사, 항공우주, 산업 폭파 등의 분야에서 널리 사용됩니다. 기존의 기계식 신관에 비해 전자식 신관은 안전성, 정확성, 신뢰성, 제어성에서 현저한 우위를 가지고 있습니다. 마이크로프로세서, 센서, 디지털 회로 등의 부품을 통해 기폭 타이밍, 환경 조건, 목표 위치의 정밀한 제어를 실현하여 폭발을 정해진 시간과 위치에서 정확하게 발생시킬 수 있습니다. 이를 통해 폭발 효과를 극대화하고 오폭 위험을 줄일 수 있습니다. 전자 신관의 작동 원리는 일반적으로 가속도 감지, 거리 감지, 온도 감지 등 다양한 감지 기술에 의존하며, 특히 복잡한 환경에서의 임무 수행에서 다양한 응용 요구 사항에 적응할 수 있습니다. 또한 전자 신관은 높은 적응성과 유연성을 가지고 있으며, 여러 번 프로그래밍이 가능하고, 시간 지연, 거리 감지, 충격 기폭 등 다양한 기폭 모드를 지원하여 복잡한 전술 시나리오에 보다 정확하고 효율적으로 적용될 수 있습니다. 그러나 기술의 발전에 따라 전자 신관의 비용은 점차 낮아지고, 그 적용 범위도 확대되고 있습니다. 군사 분야에서 중요한 역할을 할 뿐만 아니라 일부 민간 분야의 폭파 작업에서도 보다 안전한 보증과 기술 지원을 제공하고 있습니다. 전자 신관의 세계 주요 제조업체로는 L3 테크놀러지스, 오비탈 ATK(노스롭 그라만), 카만 등이 있습니다. 상위 3개사의 점유율은 약 52%를 차지하고 있습니다. 시장 규모로는 아메리카 대륙이 가장 큰 시장으로 약 54%의 점유율을 차지하고 있습니다. 이어 유럽이 25%, 아시아태평양이 12%로 뒤를 이었습니다. 경쟁이 치열한 환경에서 전자 신관 제조업체는 먼저 기술 혁신과 연구개발에 대한 투자를 강화하고, 제품 성능의 지속적인 최적화와 정확도 향상을 통해 변화하는 시장 수요에 대응하여 우위를 유지해야 합니다. 둘째, 특히 군사 및 민수 분야에서 소비자들이 매우 높은 안전 기준을 요구하는 상황에서 제품의 신뢰성과 안전성 향상은 매우 중요합니다. 또한, 제조업체는 정밀한 관리와 효율적인 생산 공정 관리를 통해 비용 절감과 생산 효율을 향상시켜 가격 경쟁력을 확보해야 합니다. 동시에 고객 니즈의 다양화에 초점을 맞추고, 다양한 응용 시나리오에 맞는 맞춤형 솔루션을 제공하는 동시에 고객과의 장기적인 협력 관계를 구축하여 브랜드 가치와 시장 영향력을 높여야 합니다.

이 보고서는 전자 신관 세계 시장에 대해 총 판매량, 매출액, 가격, 주요 기업의 시장 점유율 및 순위를 중심으로 지역별, 국가별, 유형별, 용도별 분석을 종합적으로 제시하는 것을 목적으로 합니다.

전자 신관 시장의 규모, 추정 및 예측은 판매 수량(천 단위) 및 매출액(백만 달러)로 제시되며, 2024년을 기준 연도로 하여 2020년부터 2031년까지의 기간에 대한 과거 데이터와 예측 데이터를 포함합니다. 정량적 분석과 정성적 분석을 통해 독자들이 전자 신관 관련 비즈니스/성장 전략 수립, 시장 경쟁 평가, 현재 시장에서의 위치 분석, 정보에 입각한 비즈니스 의사결정을 내릴 수 있도록 돕습니다.

시장 세분화

기업별

  • L3 Harris Technologies
  • Orbital ATK(Northrop Grumman)
  • Rheinmetall
  • Kaman
  • JUNGHANS Defence
  • Reutech
  • DIXI Microtechniques
  • Sandeep Metalcraft
  • Reshef Technologies
  • Anhui Great Wall Military Industry
  • Jiangxi Guoke Defence Group

유형별 부문

  • 박격포 신관
  • 포탄 신관
  • 로켓·미사일용 신관
  • 항공기용 신관
  • 기타

용도별 부문

  • 소비자용
  • 군사
  • 기타

지역별

  • 북미
    • 미국
    • 캐나다
  • 아시아태평양
    • 중국
    • 일본
    • 한국
    • 동남아시아
    • 인도
    • 호주
    • 기타 아시아태평양
  • 유럽
    • 독일
    • 프랑스
    • 영국
    • 이탈리아
    • 네덜란드
    • 북유럽 국가
    • 기타 유럽
  • 라틴아메리카
    • 멕시코
    • 브라질
    • 기타 라틴아메리카
  • 중동 및 아프리카
    • 튀르키예
    • 사우디아라비아
    • 아랍에미리트
    • 기타 중동 및 아프리카
KSM 25.11.27

The global market for Electronic Fuzes was estimated to be worth US$ 943 million in 2024 and is forecast to a readjusted size of US$ 1203 million by 2031 with a CAGR of 3.5% during the forecast period 2025-2031.

This report provides a comprehensive assessment of recent tariff adjustments and international strategic countermeasures on Electronic Fuzes cross-border industrial footprints, capital allocation patterns, regional economic interdependencies, and supply chain reconfigurations.

In 2024, global sales of electronic fuses will be approximately 3.5 million, with an average selling price of US$270 per unit.Fuze are electronic or mechanical devices attached to ammunition to provide reliable and safe detonations at the desired time and place. These devices control safe separation of ammunition from the delivery platform and trigger its detonation. Missiles, rockets, bombs, shells and other ammunitions form a vital part of the firing capacity of a military in modern warfare. Since these ammunitions are loaded with explosives, there is always a risk of explosion during storage, launching and handling. This requires the incorporation of some security gadgets into these ammunitions. The security system should work until the ammunition is propelled and after the launch, the firing mechanism should take control. In order to accomplish this, an arming mechanism is also required in the ammunition. All the above mentioned necessities are fulfilled by gadgets called fuzes. Basic functions of fuze are arming, safing, firing and target sensing. Mechanical fuzes have their safing, arming and firing mechanisms which mostly involves mechanical components, linkages and other mechanisms. Due to their simplicity and ease of conceptualization, mechanical fuzes were the earliest fuzes developed and are still used for many different types of ammunitions. Fuzes operated by mechanical devices make use of mechanical linkages like gears, springs, rotors, sliders and plungers or a combination of some of these. As a result of extensive safety requirements, mechanical fuzes have many components and are of a clockwork design. There are certain factors that are of primary concern while designing mechanical and electrical fuzes. These include safety and resistance, deterioration in use, handling and storage, reliability of action, simple construction and adequate strength. As a result of extensive safety requirements, mechanical fuzes generally have many components and are of a clockwork design. The Electronic Fuzes were developed in mid1960's and thereafter, there has been continuous development in this technology. Today, Electronic Fuzes are being used in many modern weapon systems and have replaced mechanical fuzes in many places.

Electronic fuze is a high-tech detonation device designed based on modern electronic technology and precision sensor principles. It is widely used in military, aerospace, industrial blasting and other fields. Compared with traditional mechanical fuzes, electronic fuzes have significant advantages in safety, accuracy, reliability and controllability. Through components such as microprocessors, sensors, digital circuits, etc., it realizes precise control of detonation timing, environmental conditions and target positions, so that the explosion can occur accurately at the predetermined time and position, thereby maximizing the explosion effect and reducing the risk of accidental explosion. The working principle of electronic fuze usually relies on a variety of sensing technologies, such as acceleration sensing, distance sensing, temperature sensing, etc., which can adapt to different application requirements, especially in the execution of tasks in complex environments. In addition, electronic fuzes have strong adaptability and flexibility, can be programmed multiple times, and support different trigger modes, such as time delay, distance sensing, impact triggering, etc., making the application in complex tactical scenarios more accurate and efficient. However, with the advancement of technology, the cost of electronic fuzes has gradually decreased, and its application scope has gradually expanded. It not only plays an important role in the military field, but also provides more safety guarantees and technical support for blasting operations in some civilian fields.Global key players of electronic fuzes include L3 Technologies, Orbital ATK (Northrop Grumman), Kaman, etc. The top three players hold a share about 52%. Americas is the largest market, has a share about 54%, followed by Europe and Asia-Pacific, with share 25% and 12%, separately.In the fiercely competitive environment, electronic fuze manufacturers need to maintain their advantages by first increasing investment in technological innovation and R&D, continuously optimizing product performance and improving precision to adapt to changing market demands. Secondly, it is crucial to improve product reliability and safety, especially in the military and civilian fields, where consumers have very high demands for high safety standards. In addition, manufacturers should also reduce costs and improve production efficiency through refined management and efficient production process control, so as to be competitive in price. At the same time, they should focus on the diversification of customer needs, provide customized solutions for different application scenarios, establish long-term cooperative relationships with customers, and enhance brand value and market influence.

This report aims to provide a comprehensive presentation of the global market for Electronic Fuzes, focusing on the total sales volume, sales revenue, price, key companies market share and ranking, together with an analysis of Electronic Fuzes by region & country, by Type, and by Application.

The Electronic Fuzes market size, estimations, and forecasts are provided in terms of sales volume (K Units) and sales revenue ($ millions), considering 2024 as the base year, with history and forecast data for the period from 2020 to 2031. With both quantitative and qualitative analysis, to help readers develop business/growth strategies, assess the market competitive situation, analyze their position in the current marketplace, and make informed business decisions regarding Electronic Fuzes.

Market Segmentation

By Company

  • L3 Harris Technologies
  • Orbital ATK (Northrop Grumman)
  • Rheinmetall
  • Kaman
  • JUNGHANS Defence
  • Reutech
  • DIXI Microtechniques
  • Sandeep Metalcraft
  • Reshef Technologies
  • Anhui Great Wall Military Industry
  • Jiangxi Guoke Defence Group

Segment by Type

  • Mortar Fuzes
  • Artillery Fuzes
  • Rocket and Missile Fuzes
  • Aircraft Fuzes
  • Others

Segment by Application

  • Civil
  • Military
  • Others

By Region

  • North America
    • United States
    • Canada
  • Asia-Pacific
    • China
    • Japan
    • South Korea
    • Southeast Asia
    • India
    • Australia
    • Rest of Asia-Pacific
  • Europe
    • Germany
    • France
    • U.K.
    • Italy
    • Netherlands
    • Nordic Countries
    • Rest of Europe
  • Latin America
    • Mexico
    • Brazil
    • Rest of Latin America
  • Middle East & Africa
    • Turkey
    • Saudi Arabia
    • UAE
    • Rest of MEA

Chapter Outline

Chapter 1: Introduces the report scope of the report, global total market size (value, volume and price). This chapter also provides the market dynamics, latest developments of the market, the driving factors and restrictive factors of the market, the challenges and risks faced by manufacturers in the industry, and the analysis of relevant policies in the industry.

Chapter 2: Detailed analysis of Electronic Fuzes manufacturers competitive landscape, price, sales and revenue market share, latest development plan, merger, and acquisition information, etc.

Chapter 3: Provides the analysis of various market segments by Type, covering the market size and development potential of each market segment, to help readers find the blue ocean market in different market segments.

Chapter 4: Provides the analysis of various market segments by Application, covering the market size and development potential of each market segment, to help readers find the blue ocean market in different downstream markets.

Chapter 5: Sales, revenue of Electronic Fuzes in regional level. It provides a quantitative analysis of the market size and development potential of each region and introduces the market development, future development prospects, market space, and market size of each country in the world.

Chapter 6: Sales, revenue of Electronic Fuzes in country level. It provides sigmate data by Type, and by Application for each country/region.

Chapter 7: Provides profiles of key players, introducing the basic situation of the main companies in the market in detail, including product sales, revenue, price, gross margin, product introduction, recent development, etc.

Chapter 8: Analysis of industrial chain, including the upstream and downstream of the industry.

Chapter 9: Conclusion.

Table of Contents

1 Market Overview

  • 1.1 Electronic Fuzes Product Introduction
  • 1.2 Global Electronic Fuzes Market Size Forecast
    • 1.2.1 Global Electronic Fuzes Sales Value (2020-2031)
    • 1.2.2 Global Electronic Fuzes Sales Volume (2020-2031)
    • 1.2.3 Global Electronic Fuzes Sales Price (2020-2031)
  • 1.3 Electronic Fuzes Market Trends & Drivers
    • 1.3.1 Electronic Fuzes Industry Trends
    • 1.3.2 Electronic Fuzes Market Drivers & Opportunity
    • 1.3.3 Electronic Fuzes Market Challenges
    • 1.3.4 Electronic Fuzes Market Restraints
  • 1.4 Assumptions and Limitations
  • 1.5 Study Objectives
  • 1.6 Years Considered

2 Competitive Analysis by Company

  • 2.1 Global Electronic Fuzes Players Revenue Ranking (2024)
  • 2.2 Global Electronic Fuzes Revenue by Company (2020-2025)
  • 2.3 Global Electronic Fuzes Players Sales Volume Ranking (2024)
  • 2.4 Global Electronic Fuzes Sales Volume by Company Players (2020-2025)
  • 2.5 Global Electronic Fuzes Average Price by Company (2020-2025)
  • 2.6 Key Manufacturers Electronic Fuzes Manufacturing Base and Headquarters
  • 2.7 Key Manufacturers Electronic Fuzes Product Offered
  • 2.8 Key Manufacturers Time to Begin Mass Production of Electronic Fuzes
  • 2.9 Electronic Fuzes Market Competitive Analysis
    • 2.9.1 Electronic Fuzes Market Concentration Rate (2020-2025)
    • 2.9.2 Global 5 and 10 Largest Manufacturers by Electronic Fuzes Revenue in 2024
    • 2.9.3 Global Top Manufacturers by Company Type (Tier 1, Tier 2, and Tier 3) & (based on the Revenue in Electronic Fuzes as of 2024)
  • 2.10 Mergers & Acquisitions, Expansion

3 Segmentation by Type

  • 3.1 Introduction by Type
    • 3.1.1 Mortar Fuzes
    • 3.1.2 Artillery Fuzes
    • 3.1.3 Rocket and Missile Fuzes
    • 3.1.4 Aircraft Fuzes
    • 3.1.5 Others
  • 3.2 Global Electronic Fuzes Sales Value by Type
    • 3.2.1 Global Electronic Fuzes Sales Value by Type (2020 VS 2024 VS 2031)
    • 3.2.2 Global Electronic Fuzes Sales Value, by Type (2020-2031)
    • 3.2.3 Global Electronic Fuzes Sales Value, by Type (%) (2020-2031)
  • 3.3 Global Electronic Fuzes Sales Volume by Type
    • 3.3.1 Global Electronic Fuzes Sales Volume by Type (2020 VS 2024 VS 2031)
    • 3.3.2 Global Electronic Fuzes Sales Volume, by Type (2020-2031)
    • 3.3.3 Global Electronic Fuzes Sales Volume, by Type (%) (2020-2031)
  • 3.4 Global Electronic Fuzes Average Price by Type (2020-2031)

4 Segmentation by Application

  • 4.1 Introduction by Application
    • 4.1.1 Civil
    • 4.1.2 Military
    • 4.1.3 Others
  • 4.2 Global Electronic Fuzes Sales Value by Application
    • 4.2.1 Global Electronic Fuzes Sales Value by Application (2020 VS 2024 VS 2031)
    • 4.2.2 Global Electronic Fuzes Sales Value, by Application (2020-2031)
    • 4.2.3 Global Electronic Fuzes Sales Value, by Application (%) (2020-2031)
  • 4.3 Global Electronic Fuzes Sales Volume by Application
    • 4.3.1 Global Electronic Fuzes Sales Volume by Application (2020 VS 2024 VS 2031)
    • 4.3.2 Global Electronic Fuzes Sales Volume, by Application (2020-2031)
    • 4.3.3 Global Electronic Fuzes Sales Volume, by Application (%) (2020-2031)
  • 4.4 Global Electronic Fuzes Average Price by Application (2020-2031)

5 Segmentation by Region

  • 5.1 Global Electronic Fuzes Sales Value by Region
    • 5.1.1 Global Electronic Fuzes Sales Value by Region: 2020 VS 2024 VS 2031
    • 5.1.2 Global Electronic Fuzes Sales Value by Region (2020-2025)
    • 5.1.3 Global Electronic Fuzes Sales Value by Region (2026-2031)
    • 5.1.4 Global Electronic Fuzes Sales Value by Region (%), (2020-2031)
  • 5.2 Global Electronic Fuzes Sales Volume by Region
    • 5.2.1 Global Electronic Fuzes Sales Volume by Region: 2020 VS 2024 VS 2031
    • 5.2.2 Global Electronic Fuzes Sales Volume by Region (2020-2025)
    • 5.2.3 Global Electronic Fuzes Sales Volume by Region (2026-2031)
    • 5.2.4 Global Electronic Fuzes Sales Volume by Region (%), (2020-2031)
  • 5.3 Global Electronic Fuzes Average Price by Region (2020-2031)
  • 5.4 North America
    • 5.4.1 North America Electronic Fuzes Sales Value, 2020-2031
    • 5.4.2 North America Electronic Fuzes Sales Value by Country (%), 2024 VS 2031
  • 5.5 Europe
    • 5.5.1 Europe Electronic Fuzes Sales Value, 2020-2031
    • 5.5.2 Europe Electronic Fuzes Sales Value by Country (%), 2024 VS 2031
  • 5.6 Asia Pacific
    • 5.6.1 Asia Pacific Electronic Fuzes Sales Value, 2020-2031
    • 5.6.2 Asia Pacific Electronic Fuzes Sales Value by Region (%), 2024 VS 2031
  • 5.7 South America
    • 5.7.1 South America Electronic Fuzes Sales Value, 2020-2031
    • 5.7.2 South America Electronic Fuzes Sales Value by Country (%), 2024 VS 2031
  • 5.8 Middle East & Africa
    • 5.8.1 Middle East & Africa Electronic Fuzes Sales Value, 2020-2031
    • 5.8.2 Middle East & Africa Electronic Fuzes Sales Value by Country (%), 2024 VS 2031

6 Segmentation by Key Countries/Regions

  • 6.1 Key Countries/Regions Electronic Fuzes Sales Value Growth Trends, 2020 VS 2024 VS 2031
  • 6.2 Key Countries/Regions Electronic Fuzes Sales Value and Sales Volume
    • 6.2.1 Key Countries/Regions Electronic Fuzes Sales Value, 2020-2031
    • 6.2.2 Key Countries/Regions Electronic Fuzes Sales Volume, 2020-2031
  • 6.3 United States
    • 6.3.1 United States Electronic Fuzes Sales Value, 2020-2031
    • 6.3.2 United States Electronic Fuzes Sales Value by Type (%), 2024 VS 2031
    • 6.3.3 United States Electronic Fuzes Sales Value by Application, 2024 VS 2031
  • 6.4 Europe
    • 6.4.1 Europe Electronic Fuzes Sales Value, 2020-2031
    • 6.4.2 Europe Electronic Fuzes Sales Value by Type (%), 2024 VS 2031
    • 6.4.3 Europe Electronic Fuzes Sales Value by Application, 2024 VS 2031
  • 6.5 China
    • 6.5.1 China Electronic Fuzes Sales Value, 2020-2031
    • 6.5.2 China Electronic Fuzes Sales Value by Type (%), 2024 VS 2031
    • 6.5.3 China Electronic Fuzes Sales Value by Application, 2024 VS 2031
  • 6.6 Japan
    • 6.6.1 Japan Electronic Fuzes Sales Value, 2020-2031
    • 6.6.2 Japan Electronic Fuzes Sales Value by Type (%), 2024 VS 2031
    • 6.6.3 Japan Electronic Fuzes Sales Value by Application, 2024 VS 2031
  • 6.7 South Korea
    • 6.7.1 South Korea Electronic Fuzes Sales Value, 2020-2031
    • 6.7.2 South Korea Electronic Fuzes Sales Value by Type (%), 2024 VS 2031
    • 6.7.3 South Korea Electronic Fuzes Sales Value by Application, 2024 VS 2031
  • 6.8 Southeast Asia
    • 6.8.1 Southeast Asia Electronic Fuzes Sales Value, 2020-2031
    • 6.8.2 Southeast Asia Electronic Fuzes Sales Value by Type (%), 2024 VS 2031
    • 6.8.3 Southeast Asia Electronic Fuzes Sales Value by Application, 2024 VS 2031
  • 6.9 India
    • 6.9.1 India Electronic Fuzes Sales Value, 2020-2031
    • 6.9.2 India Electronic Fuzes Sales Value by Type (%), 2024 VS 2031
    • 6.9.3 India Electronic Fuzes Sales Value by Application, 2024 VS 2031

7 Company Profiles

  • 7.1 L3 Harris Technologies
    • 7.1.1 L3 Harris Technologies Company Information
    • 7.1.2 L3 Harris Technologies Introduction and Business Overview
    • 7.1.3 L3 Harris Technologies Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.1.4 L3 Harris Technologies Electronic Fuzes Product Offerings
    • 7.1.5 L3 Harris Technologies Recent Development
  • 7.2 Orbital ATK (Northrop Grumman)
    • 7.2.1 Orbital ATK (Northrop Grumman) Company Information
    • 7.2.2 Orbital ATK (Northrop Grumman) Introduction and Business Overview
    • 7.2.3 Orbital ATK (Northrop Grumman) Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.2.4 Orbital ATK (Northrop Grumman) Electronic Fuzes Product Offerings
    • 7.2.5 Orbital ATK (Northrop Grumman) Recent Development
  • 7.3 Rheinmetall
    • 7.3.1 Rheinmetall Company Information
    • 7.3.2 Rheinmetall Introduction and Business Overview
    • 7.3.3 Rheinmetall Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.3.4 Rheinmetall Electronic Fuzes Product Offerings
    • 7.3.5 Rheinmetall Recent Development
  • 7.4 Kaman
    • 7.4.1 Kaman Company Information
    • 7.4.2 Kaman Introduction and Business Overview
    • 7.4.3 Kaman Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.4.4 Kaman Electronic Fuzes Product Offerings
    • 7.4.5 Kaman Recent Development
  • 7.5 JUNGHANS Defence
    • 7.5.1 JUNGHANS Defence Company Information
    • 7.5.2 JUNGHANS Defence Introduction and Business Overview
    • 7.5.3 JUNGHANS Defence Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.5.4 JUNGHANS Defence Electronic Fuzes Product Offerings
    • 7.5.5 JUNGHANS Defence Recent Development
  • 7.6 Reutech
    • 7.6.1 Reutech Company Information
    • 7.6.2 Reutech Introduction and Business Overview
    • 7.6.3 Reutech Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.6.4 Reutech Electronic Fuzes Product Offerings
    • 7.6.5 Reutech Recent Development
  • 7.7 DIXI Microtechniques
    • 7.7.1 DIXI Microtechniques Company Information
    • 7.7.2 DIXI Microtechniques Introduction and Business Overview
    • 7.7.3 DIXI Microtechniques Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.7.4 DIXI Microtechniques Electronic Fuzes Product Offerings
    • 7.7.5 DIXI Microtechniques Recent Development
  • 7.8 Sandeep Metalcraft
    • 7.8.1 Sandeep Metalcraft Company Information
    • 7.8.2 Sandeep Metalcraft Introduction and Business Overview
    • 7.8.3 Sandeep Metalcraft Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.8.4 Sandeep Metalcraft Electronic Fuzes Product Offerings
    • 7.8.5 Sandeep Metalcraft Recent Development
  • 7.9 Reshef Technologies
    • 7.9.1 Reshef Technologies Company Information
    • 7.9.2 Reshef Technologies Introduction and Business Overview
    • 7.9.3 Reshef Technologies Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.9.4 Reshef Technologies Electronic Fuzes Product Offerings
    • 7.9.5 Reshef Technologies Recent Development
  • 7.10 Anhui Great Wall Military Industry
    • 7.10.1 Anhui Great Wall Military Industry Company Information
    • 7.10.2 Anhui Great Wall Military Industry Introduction and Business Overview
    • 7.10.3 Anhui Great Wall Military Industry Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.10.4 Anhui Great Wall Military Industry Electronic Fuzes Product Offerings
    • 7.10.5 Anhui Great Wall Military Industry Recent Development
  • 7.11 Jiangxi Guoke Defence Group
    • 7.11.1 Jiangxi Guoke Defence Group Company Information
    • 7.11.2 Jiangxi Guoke Defence Group Introduction and Business Overview
    • 7.11.3 Jiangxi Guoke Defence Group Electronic Fuzes Sales, Revenue, Price and Gross Margin (2020-2025)
    • 7.11.4 Jiangxi Guoke Defence Group Electronic Fuzes Product Offerings
    • 7.11.5 Jiangxi Guoke Defence Group Recent Development

8 Industry Chain Analysis

  • 8.1 Electronic Fuzes Industrial Chain
  • 8.2 Electronic Fuzes Upstream Analysis
    • 8.2.1 Key Raw Materials
    • 8.2.2 Raw Materials Key Suppliers
    • 8.2.3 Manufacturing Cost Structure
  • 8.3 Midstream Analysis
  • 8.4 Downstream Analysis (Customers Analysis)
  • 8.5 Sales Model and Sales Channels
    • 8.5.1 Electronic Fuzes Sales Model
    • 8.5.2 Sales Channel
    • 8.5.3 Electronic Fuzes Distributors

9 Research Findings and Conclusion

10 Appendix

  • 10.1 Research Methodology
    • 10.1.1 Methodology/Research Approach
      • 10.1.1.1 Research Programs/Design
      • 10.1.1.2 Market Size Estimation
      • 10.1.1.3 Market Breakdown and Data Triangulation
    • 10.1.2 Data Source
      • 10.1.2.1 Secondary Sources
      • 10.1.2.2 Primary Sources
  • 10.2 Author Details
  • 10.3 Disclaimer
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