表紙
市場調查報告書

用於超自然環境的先進材料的全球市場

Advanced Materials for Extreme Environments: Global Markets

出版商 BCC Research 商品編碼 948541
出版日期 內容資訊 英文 164 Pages
訂單完成後即時交付
價格
用於超自然環境的先進材料的全球市場 Advanced Materials for Extreme Environments: Global Markets
出版日期: 2020年07月06日內容資訊: 英文 164 Pages
簡介

全球先進陶瓷材料市場在特殊環境下的複合年增長率預計將在2020年至2025年之間增長5.7%,從2020年的29億美元增長到2025年的38億美元。在航空航天和國防領域,預計市場在2020年至2025年的預測期間將以7.2%的複合年增長率增長,到2020年將達到1.53億美元,到2025年預計將達到2.17億美元。

本報告針對特殊環境,全球市場趨勢和預測,專利分析,按材料組,成分,微觀結構,應用行業,形狀,地區劃分的市場分析對全球先進材料市場進行了調查。 競爭信息及主要公司的概況等。

內容

第1章簡介

第2章結論和重點

第3章市場和技術背景

  • 用於非凡環境的先進材料
  • 陶瓷
  • 陶瓷複合材料
  • 歷史上的最近事件和里程碑
  • 當前和新興應用
  • 航空航天與國防
  • 能源
  • 機械/化學/冶金
  • 其他

第4章技術

  • 簡介
  • 材料
    • 超高溫陶瓷
    • 高熵陶瓷
    • MAX相
  • 基本製造工藝
    • 整體
    • 複合材料
  • 新製造工藝
    • 聚合物陶瓷
    • 增材製造
    • 無壓燒結
    • 溶膠凝膠法
    • 混合過程
  • 從2016年至今的最新技術發展
    • 包含MAX相和碳化矽的陶瓷複合材料
    • 用於電磁屏蔽的UHTC複合材料
    • 燃氣輪機的MAX相
    • 低溫合成二硼化鋯粉
  • 其他相關研發活動

第5章世界市場

  • 分析概述
  • 世界市場摘要
  • 當前市場情況
    • 按物料組
    • 按組成
    • 按微觀結構
    • 按形狀
    • 按行業
    • 按地區
  • 市場增長趨勢
    • 機械/化學/冶金
    • 航空航天與國防
    • 能源
    • 其他技術趨勢
    • 能源領域的新應用
    • 區域趨勢
  • 市場預測
    • 按物料組
    • 按組成
    • 按微觀結構
    • 按形狀
    • 按行業
    • 按地區劃分的市場

第六章世界產業結構和企業概況

  • 主要製造商
  • 主要製造商按材料類型和地區分佈
  • 其他行業的公司
  • 公司簡介
    • 3M
    • ABLE TARGET
    • ARIANEGROUP
    • ATLANTIC EQUIPMENT ENGINEERS
    • COORSTEK
    • GE AVIATION
    • KENNAMETAL
    • MATECH
    • MATERION
    • MORGAN ADVANCED MATERIALS
    • PLANSEE
    • RAYTHEON TECHNOLOGIES
    • READE
    • SAFRAN
    • SAINT-GOBAIN
    • SANDVIK
    • SHANGHAI KESSEN CERAMICS
    • SIEMENS
    • T.Q. ABRASIVE MACHINING
    • ULTRAMET

第7章專利分析

  • 簡介
  • 最近授予的專利摘要
  • 總體趨勢
  • 按國家/地區分類的趨勢
  • 受託人的趨勢
  • 按專利分類的趨勢
  • 材料類型趨勢
  • 按材料類別劃分的趨勢
  • 按應用趨勢
目錄
Product Code: AVM198A

Highlights:

The global market for advanced ceramic materials for extreme environments should grow from $2.9 billion in 2020 to $3.8 billion by 2025 with a compound annual growth rate (CAGR) of 5.7% for the period of 2020-2025.

Mechanical/chemical/metallurgical market for advanced ceramic materials for extreme environments should grow from $2.7 billion in 2020 to $3.5 billion by 2025 with a compound annual growth rate (CAGR) of 5.6% for the period of 2020-2025.

Aerospace and defense market for advanced ceramic materials for extreme environments should grow from $153 million in 2020 to $217 million by 2025 with a compound annual growth rate (CAGR) of 7.2% for the period of 2020-2025.

Report Scope:

This report provides an updated review of advanced ceramic materials for extreme environments, including materials and production processes, and identifies current and emerging applications for these products.

BCC Research delineates the current status of the market for advanced ceramic materials for extreme environments, defines trends, and presents growth forecasts for the next five years. The market for advanced materials for extreme environments is analyzed based on the following segments: material group, composition, microstructure, configuration, application, and region. In addition, technological issues, including key events and the latest developments, are discussed.

More specifically, the market analysis conducted by BCC Research for this report is divided into five sections.

In the first section, an introduction to the topic and a historical review of the technologies of advanced materials for extreme environments are provided, including an outline of recent events. In this section, current and emerging applications for advanced ceramic materials for extreme environments are also identified and grouped in segments (aerospace and defense, energy, mechanical/chemical/ metallurgical, and others).

The second section provides a technological review of advanced ceramic materials for extreme environments. This section offers a detailed description of advanced materials for extreme environments, their properties, configurations, and typical fabrication methods. This section concludes with an analysis of the most important technological developments since 2016, including examples of significant patents recently issued or applied for. The chapter ends with a highlight of the most active research organizations operating in this field and their activities.

The third section entails a global market analysis for advanced ceramic materials for extreme environments. Global revenues (sales data in millions of dollars) are presented for each segment (material group, composition, microstructure, configuration, application, and region), with actual data referring to the years 2018 and 2019, and estimates for 2020. Dollar figures refer to sales of these products at the manufacturing level.

The analysis of current revenues for advanced ceramic materials for extreme environments is followed by a detailed presentation of market growth trends, based on industry growth, technological trends, and regional trends. The third section concludes by providing projected revenues for advanced ceramic materials for extreme environments within each segment, together with forecast CAGRs for the period 2020 through 2025. Projected and forecast revenue values are in constant U.S. dollars, unadjusted for inflation.

In the fourth section of the study, which covers global industry structure, the report offers a list of the leading manufacturers of advanced ceramic materials for extreme environments, together with a description of their products. The analysis includes a description of the geographical distribution of these firms and an evaluation of other key industry players. Detailed company profiles of the top players are also provided.

The fifth and final section includes an analysis of recently issued U.S. patents, with a summary of patents related to advanced materials for extreme environments, fabrication methods, and applications. Patent analysis is performed by region, country, assignee, patent category, material type, material group, and application.

Report Includes-

  • 45 data tables and 24 additional tables
  • Comprehensive overview of the global markets for advanced materials for extreme environments (AMEEs)
  • Analyses of global market trends with data from 2018, 2019, estimates for 2020 and projections of compound annual growth rates (CAGRs) through 2025
  • Emphasis on the ceramic fabrication technology regarding AMEEs, major manufacturing issues, and reliance upon the use of state-of-the-art equipment and innovative processes
  • Coverage of the current status of these ceramic composite materials and identification of new materials under development for use in different applications, such as jet propulsion, energy conversion, hypersonic and space vehicles, and nuclear reactors
  • Detailed analysis of the current market trends, market size, market forecast, and discussion of technological, and regulatory elements that are affecting the future marketplace

A relevant patent analysis

  • Detailed profiles of the key industry players and their competitive landscape, including 3M, GE Aviation, Siemens, Sandvik, Morgan Advanced Materials and Shanghai Kessen Ceramics

Table of Contents

Chapter 1 Introduction

  • Study Goals and Objectives
  • Reasons for Doing This Study
  • Intended Audience
  • Scope of Report
  • Methodology and Information Sources
  • Market Breakdown
  • Analyst's Credentials
  • BCC Custom Research
  • Related BCC Research Reports

Chapter 2 Summary and Highlights

Chapter 3 Market and Technology Background

  • Advanced Materials for Extreme Environments
  • Ceramics
  • Ceramic Composites
  • Milestones in the History of Advanced Materials for Extreme Environments and Recent Events
  • Current and Emerging Applications for Advanced Materials for Extreme Environments
  • Aerospace and Defense
  • Energy
  • Mechanical/Chemical/Metallurgical
  • Others

Chapter 4 Technology

  • Introduction
  • Materials
  • Ultrahigh Temperature Ceramics
  • High-Entropy Ceramics
  • MAX Phases
  • Basic Fabrication Process of Advanced Materials for Extreme Environments
  • Monoliths
  • Composites
  • Emerging Fabrication Processes
  • Polymer-Derived Ceramics
  • Additive Manufacturing
  • Pressureless Sintering
  • Sol-Gel Methods
  • Hybrid Processes
  • Latest Technological Developments, 2016 to the Present
  • Ceramic Composite with MAX Phase and Silicon Carbide
  • UHTC Composite for Electromagnetic Shielding
  • MAX Phase for Gas Turbines
  • Low-Temperature Synthesis of Zirconium Diboride Powder
  • Other Relevant R&D Activities

Chapter 5 Global Markets

  • Outline of the Analysis
  • Global Market Summary
  • Current Market Status
  • Market by Material Group
  • Market by Composition
  • Market by Microstructure
  • Market by Configuration
  • Market by Application Industry
  • Market by Region
  • Market Growth Trends
  • Mechanical/Chemical/Metallurgical
  • Aerospace and Defense
  • Energy
  • Other Technological Trends
  • Emerging Applications in the Energy Sector
  • Regional Trends
  • Market Forecast
  • Market by Material Group
  • Market by Composition
  • Market by Microstructure
  • Market by Configuration
  • Market by Application Industry
  • Market by Region

Chapter 6 Global Industry Structure and Company Profiles

  • Leading Manufacturers of Advanced Materials and Products for Extreme Environments
  • Distribution of Leading Manufacturers by Type of Material and Region
  • Other Industry Players
  • Company Profiles
  • 3M
  • ABLE TARGET
  • ARIANEGROUP
  • ATLANTIC EQUIPMENT ENGINEERS
  • COORSTEK
  • GE AVIATION
  • KENNAMETAL
  • MATECH
  • MATERION
  • MORGAN ADVANCED MATERIALS
  • PLANSEE
  • RAYTHEON TECHNOLOGIES
  • READE
  • SAFRAN
  • SAINT-GOBAIN
  • SANDVIK
  • SHANGHAI KESSEN CERAMICS
  • SIEMENS
  • T.Q. ABRASIVE MACHINING
  • ULTRAMET

Chapter 7 Patent Analysis

  • Introduction
  • Summary of Recently Awarded Patents
  • General Trends
  • Trends by Country and Region
  • Trends by Assignee
  • Trends by Patent Category
  • Trends by Type of Material
  • Trends by Material Group
  • Trends by Application

List of Tables

  • Summary Table : Global Market for Advanced Ceramic Materials for Extreme Environments, by Application Industry, Through 2025
  • Table 1 : Global Market for Traditional and Technical Ceramics, by Category, Through 2025
  • Table 2 : Global Market for Ceramic Composites, by Region, Through 2025
  • Table 3 : Technological Milestones for Advanced Materials for Extreme Environments
  • Table 4 : Global Patent Applications and Patents Issued on Advanced Materials for Extreme Environments, 1990-2019
  • Table 5 : Applications of Advanced Materials for Extreme Environments in Aerospace and Defense, 2020
  • Table 6 : Applications of Advanced Materials for Extreme Environments in the Energy Sector, 2020
  • Table 7 : Applications of Advanced Materials for Extreme Environments in the Mechanical/Chemical/Metallurgical Sector, 2020
  • Table 8 : Applications of Advanced Materials for Extreme Environments in Other Sectors, 2020
  • Table 9 : Ultrahigh Temperature Materials
  • Table 10 : Ceramic Matrix Composites for Ultrahigh Temperatures
  • Table 11 : Typical Applications of UHTCs, 2020
  • Table 12 : Typical Applications of High-Entropy Ceramics, 2020
  • Table 13 : Typical Applications of MAX Phases, 2020
  • Table 14 : Basic Steps in the Fabrication of the Monolithic Components of Advanced Materials for Extreme Environments
  • Table 15 : Basic Steps in the Fabrication of the Components of Advanced Composite Materials for Extreme Environments
  • Table 16 : Other Relevant R&D activities, 2020
  • Table 17 : Drivers, Restraints, Challenges, and Opportunities in the Market for Advanced Ceramic Materials for Extreme Environments
  • Table 18 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Application Industry, Through 2025
  • Table 19 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Material Group, Through 2020
  • Table 20 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Composition, Through 2020
  • Table 21 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Microstructure, Through 2020
  • Table 22 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Configuration, Through 2020
  • Table 23 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Application Industry, Through 2020
  • Table 24 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Region, Through 2020
  • Table 25 : Global Market for Wear and Corrosion Resistant Components, by Type, Through 2025
  • Table 26 : Global Market for Ceramic Refractories, by Type, Through 2025
  • Table 27 : Global Market for Sputtering Targets, by Type of Material, Through 2025
  • Table 28 : Global Market for Sputtering Targets, by Region, Through 2025
  • Table 29 : Global Market for the Aerospace Industry, by Region, Through 2025
  • Table 30 : Global Market for Body and Vehicle Armor, by Type, Through 2025
  • Table 31 : Global Market for Body and Vehicle Armor, by Region, Through 2025
  • Table 32 : Global Market for Body and Vehicle Armor, by Material, Through 2025
  • Table 33 : Global Market for Thermal Barrier Coatings, by Application Industry, Through 2025
  • Table 34 : Global Market for Thermal Barrier Coatings, by Material, Through 2025
  • Table 35 : Global Market for Thermal Barrier Coatings, by Region, Through 2025
  • Table 36 : Global Market for Gas Turbines, by Region, Through 2025
  • Table 37 : Global Market for Nuclear Plants, by Region, Through 2025
  • Table 38 : Global Market for Concentrated Solar Power, by Region, Through 2025
  • Table 39 : Global Market for Fuel Cells, by Type, Through 2025
  • Table 40 : Global Market for Batteries, by Type, Through 2025
  • Table 41 : Global Market for Lightweight Materials, by Region, Through 2025
  • Table 42 : Global Market for 3D Printing of Technical Ceramics, by Region, Through 2025
  • Table 43 : Global Market for Artificial Intelligence, by Region, Through 2025
  • Table 44 : Global Market for Thermoelectric Devices, by Region, Through 2025
  • Table 45 : Global Market for Supercapacitors, by Application Industry, Through 2025
  • Table 46 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Material Group, Through 2025
  • Table 47 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Composition, Through 2025
  • Table 48 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Microstructure, Through 2025
  • Table 49 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Configuration, Through 2025
  • Table 50 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Application Industry, Through 2025
  • Table 51 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Region, Through 2025
  • Table 52 : Leading Manufacturers of Advanced Materials and Products for Extreme Environments, 2020
  • Table 53 : Leading Manufacturers of UHTC Monoliths and Coatings, 2020
  • Table 54 : Leading Manufacturers of UHTC Composites, 2020
  • Table 55 : Leading Manufacturers of MAX Phase Ceramics, 2020
  • Table 56 : Leading Manufacturers of Advanced Materials and Products for Extreme Environments, by Type of Material and Region, 2020
  • Table 57 : Other Relevant Industry Players in the Market for Advanced Materials and Products for Extreme Environments, 2020
  • Table 58 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, 2020
  • Table 59 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, 2019
  • Table 60 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, 2018
  • Table 61 : U.S. Patent Trends for Advanced Ceramic Materials for Extreme Environments, Through 2020
  • Table 62 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, by Region, 2018-2020
  • Table 63 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, by Country, 2018-2020
  • Table 64 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, by Assignee, 2018-2020
  • Table 65 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, by Patent Category, 2018-2020
  • Table 66 : U.S. Patents Related to AMEE Ceramic, by Type of Material, 2018-2020
  • Table 67 : U.S. Patents Related to AMEE Ceramic, by Material Group, 2018-2020
  • Table 68 : U.S. Patents Related to Advanced Ceramic Materials for Extreme Environments, by Application Industry, 2018-2020

List of Figures

  • Summary Figure : Global Market for Advanced Ceramic Materials for Extreme Environments, by Application Industry, 2018-2025
  • Figure 1 : Estimated Global Market Shares of Traditional and Technical Ceramics, by Category, 2025
  • Figure 2 : Schematic Diagram of Various Types of Ceramic Composites
  • Figure 3 : Estimated Global Market Shares of Ceramic Composites, by Region, 2025
  • Figure 4 : Global Patent Applications and Patents Issued on Advanced Materials for Extreme Environments, 1990-2019
  • Figure 5 : Basic Configuration of a Spark Plasma Sintering System
  • Figure 6 : Basic Steps in the Fabrication of 3D Printed Technical Ceramics
  • Figure 7 : Fabrication Processes for 3D Printed Technical Ceramics
  • Figure 8 : Global Market for Advanced Ceramic Materials for Extreme Environments, by Application Industry, 2018-2025
  • Figure 9 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Material Group, 2020
  • Figure 10 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Composition, 2020
  • Figure 11 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Microstructure, 2020
  • Figure 12 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Configuration, 2020
  • Figure 13 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Application Industry, 2020
  • Figure 14 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Region, 2020
  • Figure 15 : Estimated Global Market Shares of Wear and Corrosion Resistant Components, by Type, 2025
  • Figure 16 : Estimated Global Market for Ceramic Refractories, by Type, 2025
  • Figure 17 : Estimated Global Market Shares of Sputtering Targets, by Type of Material, 2025
  • Figure 18 : Estimated Global Market Shares of Sputtering Targets, by Region, 2025
  • Figure 19 : Estimated Global Market Shares of the Aerospace Industry, by Region, 2025
  • Figure 20 : Estimated Global Market Shares of Body and Vehicle Armor, by Type, 2025
  • Figure 21 : Estimated Global Market Shares of Body and Vehicle Armor, by Region, 2025
  • Figure 22 : Estimated Global Market Shares of Body and Vehicle Armor, by Material, 2025
  • Figure 23 : Estimated Global Market Shares of Thermal Barrier Coatings, by Application Industry, 2025
  • Figure 24 : Estimated Global Market Shares of Thermal Barrier Coatings, by Material, 2025
  • Figure 25 : Estimated Global Market Shares of Thermal Barrier Coatings, by Region, 2025
  • Figure 26 : Estimated Global Market Shares of Gas Turbines, by Region, 2025
  • Figure 27 : Estimated Global Market Shares of Nuclear Plants, by Region, 2025
  • Figure 28 : Estimated Global Market Shares of Concentrated Solar Power, by Region, 2025
  • Figure 29 : Estimated Global Market Shares of Fuel Cells, by Type, 2025
  • Figure 30 : Estimated Global Market Shares of Batteries, by Type, 2025
  • Figure 31 : Estimated Global Market Shares of Lightweight Materials, by Region, 2025
  • Figure 32 : Estimated Global Market Shares of 3D Printing of Technical Ceramics, by Region, 2025
  • Figure 33 : Estimated Global Market Shares of Artificial Intelligence, by Region, 2025
  • Figure 34 : Estimated Global Market Shares of Thermoelectric Devices, by Region, 2025
  • Figure 35 : Estimated Global Market Shares of Supercapacitors, by Application Industry, 2025
  • Figure 36 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Material Group, 2025
  • Figure 37 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Composition, 2025
  • Figure 38 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Microstructure, 2025
  • Figure 39 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Configuration, 2025
  • Figure 40 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Application Industry, 2025
  • Figure 41 : Estimated Global Market Shares of Advanced Ceramic Materials for Extreme Environments, by Region, 2025
  • Figure 42 : Distribution of Manufacturers of Advanced Materials and Products for Extreme Environments, by Type of Material and Region, 2020
  • Figure 43 : U.S. Patent Trends for Advanced Ceramic Materials for Extreme Environments, 2018-2020
  • Figure 44 : U.S. Shares of Patents on Advanced Ceramic Materials for Extreme Environments, by Region, 2018-2020
  • Figure 45 : .S. Shares of Patents on Advanced Ceramic Materials for Extreme Environments, by Country, 2018-2020
  • Figure 46 : U.S. Patent Shares of Advanced Ceramic Materials for Extreme Environments, by Patent Category, 2018-2020
  • Figure 47 : U.S. Patent Shares of Advanced Ceramic Materials for Extreme Environments, by Type of Material, 2018-2020
  • Figure 48 : U.S. Patent Shares of Advanced Ceramic Materials for Extreme Environments, by Material Group, 2018-2020
  • Figure 49 : U.S. Patent Shares of Advanced Ceramic Materials for Extreme Environments, by Application Industry, 2018-2020