시장보고서
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1105103

세계의 고온 복합재료 시장 : 예측(2022-2027년)

Global High Temperature Composite Material Market - Forecasts from 2022 to 2027

발행일: | 리서치사: Knowledge Sourcing Intelligence | 페이지 정보: 영문 120 Pages | 배송안내 : 1-2일 (영업일 기준)

※ 본 상품은 영문 자료로 한글과 영문 목차에 불일치하는 내용이 있을 경우 영문을 우선합니다. 정확한 검토를 위해 영문목차를 참고해주시기 바랍니다.

세계의 고온 복합재료 시장은 전자/전기, 자동차, 운송 부문에서의 사용 증가에 의해 향후 몇 년간 급성장이 전망되고 있습니다.

세계의 고온 복합재료(High Temperature Composite Material) 시장에 대해 조사분석했으며, 시장 역학, 부문 분석, 지역 분석, 기업 프로파일 등의 정보를 담았습니다.

목차

제1장 서론

제2장 조사 방법

제3장 개요

제4장 시장 역학

  • 시장 성장 촉진요인
  • 시장 성장 억제요인
  • Porter의 산업 분석
  • 업계 밸류체인 분석

제5장 고온 복합재료 시장 분석 : 유형별

  • 서론
  • 고분자 매트릭스 복합재료
  • 세라믹 매트릭스 복합재료
  • 금속 매트릭스 복합재료

제6장 고온 복합재료 시장 분석 : 최종사용자별

  • 서론
  • 항공우주/방위
  • 운송
  • 에너지/전력
  • 전자/전기
  • 기타

제7장 고온 복합재료 시장 분석 : 지역별

  • 서론
  • 북미
    • 미국
    • 캐나다
    • 멕시코
  • 남미
    • 브라질
    • 아르헨티나
    • 기타
  • 유럽
    • 영국
    • 독일
    • 프랑스
    • 이탈리아
    • 기타
  • 중동 및 아프리카
    • 사우디아라비아
    • 이스라엘
    • 기타
  • 아시아태평양
    • 중국
    • 일본
    • 인도
    • 한국
    • 인도네시아
    • 태국
    • 대만
    • 기타

제8장 경쟁 환경과 분석

  • 주요 기업과 전략 분석
  • 신규 기업과 시장 수익성
  • 인수합병(M&A)/합의/협업
  • 벤더의 경쟁 매트릭스

제9장 기업 개요

  • Nippon Carbon Company Ltd.
  • Henkel AG and Co. KGAA
  • Renegade Materials Corporation
  • UBE Industries Ltd.
  • Kyocera Chemical Corporation
  • 3M
  • Hexion Inc.
  • Solvay
  • BASF
  • SGL Group
  • Royal Tencate N.V.
LSH 22.07.29

The high-temperature composite material market is projected to grow at a healthy CAGR over the forecast period. A composite material is made up of two or more elements with markedly different chemical and physical properties which, when combined, generate material with qualities that are distinct from the individual elements. High-Temperature Composite Materials are usually described by their maximum application temperature about the melting temperature of the material, which is highly dependent on the applied stress level and corrosive environment resistance.

Due to increased use in the electronics and electrical, automotive, and transportation sectors, the market for high-temperature composite materials will grow rapidly in the coming years. The aviation industry has made great achievements as a result of falling fuel prices and increased air traffic levels, complementing the need for commercial aircraft. The market will be aided by the increasing number of national investments in defence equipment. They are widely used in the automobile industry to meet the growing demand for lightweight, fuel-efficient vehicles.

Because of the increased need for ceramic matrix composite materials in the aerospace and military industries, they now hold the majority of the market share. Piston recess walls, bearings, brake discs, and cylinder sleeves are all made of high-temperature ceramic. Ceramic matrix composite materials are becoming more popular as their applicability in petrochemical and nuclear fission and inertial confinement fusion expand. Due to qualities such as low weight, decreased fuel consumption, less nitride oxide emission, and reduced noise, the aerospace and defence sectors have been driving the development of high temperatures.

Owing to their fire, smoke, and weight reduction, polymer matrix composite materials are becoming more popular in the automotive sector. The market for high-temperature polymeric matrix composite materials is also growing because modern light passenger railways are becoming increasingly popular.

The aerospace and military sector's overall size will grow due to a considerable rise in demand for high-temperature composite fighter jets like the F-35. Interior, missiles, engine parts, aircraft exterior structures, and satellites are among the many components for which the product is being used more frequently. This is due to a growing preference for ultra-high-temperature materials, which help to shorten the duration of long-haul flights. Another major driver of the segment's growth is the increasing number of research projects involving the use of ceramics in aerospace.

North America dominates the high-temperature composite materials market, which is expected to rise during the forecast period as a result of regulatory requirements for the use of environmentally friendly materials in the aerospace and defence sectors growing demand. The worldwide high-temperature composite materials market is also driven by reduced emissions, the introduction of new manufacturing techniques, and substantial performance.

COVID-19 Impact on High Temperature Composite Material Market

The global economy was impeded by the COVID-19 pandemic, which posed unprecedented problems to a variety of industrial sectors around the world. The high-temperature composite material business felt the brunt of the crisis, with demand for the product stalling in the aerospace & defence, automotive, electrical & electronics, and building & construction sectors, among others. Despite the pandemic, sophisticated composite prepregs saw extensive use in a variety of medical applications, including MRI & C scanners, surgical target instruments, X-ray couches, tables, and equipment.

Market Segmentation:

  • By Type

Polymer matrix composite materials

Ceramic matrix composite materials

Metal matrix composite materials

  • By End-Use type

Aerospace and defense

Transportation

Energy and Power

Electronics and Electrical

Others

  • By Geography

North America

  • USA
  • Canada
  • Mexico

South America

  • Brazil
  • Argentina
  • Others

Europe

  • United Kingdom
  • Germany
  • France
  • Italy
  • Others

Middle East and Africa

  • Saudi Arabia
  • Israel
  • Others

Asia Pacific

  • China
  • Japan
  • India
  • South Korea
  • Indonesia
  • Thailand
  • Taiwan
  • Others

TABLE OF CONTENTS

1. Introduction

  • 1.1. Market Definition
  • 1.2. Market Segmentation

2. Research Methodology

  • 2.1. Research Data
  • 2.2. Assumptions

3. Executive Summary

  • 3.1. Research Highlights

4. Market Dynamics

  • 4.1. Market Drivers
  • 4.2. Market Restraints
  • 4.3. Porters Five Forces Analysis
    • 4.3.1. Bargaining Power of End-Users
    • 4.3.2. Bargaining Power of Buyers
    • 4.3.3. Threat of New Entrants
    • 4.3.4. Threat of Substitutes
    • 4.3.5. Competitive Rivalry in the Industry
  • 4.4. Industry Value Chain Analysis

5. High-Temperature Composite Material Market Analysis, by Type

  • 5.1. Introduction
  • 5.2. Polymer matrix composite materials
  • 5.3. Ceramic matrix composite materials
  • 5.4. Metal matrix composite materials 

6. High-Temperature Composite Material Market Analysis, by End-User

  • 6.1. Introduction
  • 6.2. Aerospace and defense 
  • 6.3. Transportation 
  • 6.4. Energy and Power
  • 6.5. Electronics and Electrical
  • 6.6. Others

7. High-Temperature Composite Material Market Analysis, by Geography

  • 7.1. Introduction
  • 7.2. North America
    • 7.2.1. USA
    • 7.2.2. Canada
    • 7.2.3. Mexico
  • 7.3. South America
    • 7.3.1. Brazil
    • 7.3.2. Argentina
    • 7.3.3. Others
  • 7.4. Europe
    • 7.4.1. United Kingdom
    • 7.4.2. Germany
    • 7.4.3. France
    • 7.4.4. Italy
    • 7.4.5. Others
  • 7.5. Middle East and Africa
    • 7.5.1. Saudi Arabia
    • 7.5.2. Israel
    • 7.5.3. Others
  • 7.6. Asia Pacific
    • 7.6.1. China
    • 7.6.2. Japan
    • 7.6.3. India
    • 7.6.4. South Korea
    • 7.6.5. Indonesia
    • 7.6.6. Thailand
    • 7.6.7. Taiwan
    • 7.6.8. Others 

8. Competitive Environment and Analysis

  • 8.1. Major Players and Strategy Analysis
  • 8.2. Emerging Players and Market Lucrativeness
  • 8.3. Mergers, Acquisitions, Agreements, and Collaborations
  • 8.4. Vendor Competitiveness Matrix

9. Company Profiles 

  • 9.1. Nippon Carbon Company Ltd.
  • 9.2. Henkel AG and Co. KGAA
  • 9.3. Renegade Materials Corporation
  • 9.4. UBE Industries Ltd.
  • 9.5. Kyocera Chemical Corporation
  • 9.6. 3M
  • 9.7. Hexion Inc.
  • 9.8. Solvay
  • 9.9. BASF
  • 9.10. SGL Group
  • 9.11. Royal Tencate N.V.
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