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航太產業的智能結構:市場機會的預測 (2016 -2025年)

Smart Structures in Aerospace: Market Opportunities: 2016 -2025

出版商 n-tech Research, a NanoMarkets company 商品編碼 352115
出版日期 內容資訊 英文 78 Pages
商品交期: 最快1-2個工作天內
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航太產業的智能結構:市場機會的預測 (2016 -2025年) Smart Structures in Aerospace: Market Opportunities: 2016 -2025
出版日期: 2016年03月31日 內容資訊: 英文 78 Pages

本報告提供航太產業上智能結構的市場調查,價值鏈,各種智能結構材料的技術與市場規模,構造物健康監控 (SHM) 與相關市場趨勢,用途、特性等的引進推進因素分析,各詳細產業區分的10年市場預測等彙整資料。


第1章 簡介

第2章 智能結構:技術的演進和價值鏈

  • 航太產業上智能結構的價值鏈
  • 航太產業上智能結構材料
    • 智慧合成所扮演的角色
    • SMA (形狀記憶合金) 和SMP (形狀記憶聚合物)
    • 壓電材料、壓電磁特性材料
    • 智慧熱感材料、結構
    • 導電性聚合物
    • 航太部門的表面自我修復材料費
    • 光學感測器
    • 10年預測:航太用智能結構材料、複合材料
  • 構造物健康監控 (SHM) 與相關市場
    • SHM和HUMS
    • SHM的產業案例
    • 智慧介面、感覺網路的演進
    • 各種感測器的類型
    • 10年預測:SHM、智慧介面、相關市場
  • 航太部門的太陽光和智能結構
    • SMPC太陽能
    • RAPDAR
  • 航太用多層結構體
  • 本章的要點

第3章 航太部門的智能結構:引進推進因素、接受因素

  • 航空部門的實行可能性和接受度
    • 整合的必要性
    • 成本
    • 接受度
  • 複合材料的監測
    • 複合材料的監測
    • 利用技術的類型:感測器
  • 噪音抑制
    • ASAC (Active Structural Acoustic Control) 方法
    • National Research Council of Canada
  • 表面的變形的控制
    • 表面的變形的目的
    • 目前R&D產品和商業化
  • 構造物震動控制
  • 本章的要點

第4章 10年預測:航太產業的智能結構

  • 民間、一般航空
    • 超音波噴射機的作用
  • 軍用飛機
  • 直升機
  • UAV
  • 衛星、宇宙用
    • 宇宙飛行體
    • 發射台
  • 本章的要點
Product Code: Nano-867

Smart structures play a growing role in the aerospace industry in four different areas: monitoring of composites, suppression of structural vibration, noise suppression, and surface morphing. A related area is the use of photovoltaics in aircraft of various types.

This report identifies where the commercial opportunities are for smart structures in civil and general aviation, military aircraft, helicopters, UAVs and spacecraft. It examines where the money will be made in smart structures for aircraft at all levels of the value chain; we examine the market potential for the smart structures themselves, the related smart materials and SHM/HUMS systems and smart aircraft skins, as well as the implications of the trend towards smart structures for the aircraft builders and airlines.

The report profiles both the R&D and commercialization projects for smart structures in the aerospace industry, including those sponsored by governmental agencies such as the EU, DARPA and NASA and those run by the major aerospace companies.

The report also discusses how smart structures are enabling the aerospace industry to move away from manual monitoring and repair procedures and the ways that firms in the smart structure space are overcoming the strong reluctance of aerospace industry to abandon manual processes for aircraft maintenance. In particular, the report examines how smart technologies can monitor the operation of the aircraft, improve its functioning, reducing its maintenance, and extend its life cycle.

In addition, this n-tech report includes granular ten-year forecasts for the smart materials, components and subsystems used for smart structure deployment in the aerospace industry. In addition, we provide detailed profiles of key companies in the aerospace smart structures space analyzing their product/market strategies they have devised for this market.

This report is part of n-tech's ongoing research program on smart materials. n-tech has already published many reports on smart materials including a recent report on smart structures in the construction industry. Other topics covered by n-tech's smart materials reports include smart windows, smart coatings, smart surfaces, self-healing materials, multifunctional coatings and surfaces, color-shifting materials and several other topics.

Table of Contents

Executive Summary

  • E.1 Opportunity Analysis by Sector
    • E.1.1 Opportunities for Smart Materials Firms
    • E.1.2 Opportunities in SHM, HUMS and Smart Aircraft Skins
    • E.1.3 Opportunities for Aircraft Builders and Airlines
  • E.2 Summary of Ten-Year Forecasts
    • E.2.1 Breakout by Technology
    • E.2.2 Breakout by Type of Aircraft
    • E.2.3 Breakout by Geography: the US, Europe and Other
  • E.3 Six Companies to Watch in Smart Structures for the Aerospace Industry

Chapter One Introduction

  • 1,1 Background to this Report
  • 1.2 Goal and Scope of this Report
  • 1.3 Methodology of this Report
  • 1.4 Plan of this Report

Chapter Two: Smart Structures: Technology Evolution and Value Chains

  • 2.1 Smart Structure Value Chain in the Aerospace Industry
  • 2.2 Materials Used for Smart Structures in the Aerospace Industry
    • 2.2.1 Role of Smart Composites
    • 2.2.2 Shape Memory Alloys and Polymers
    • 2.2.3 Piezoelectric and Piezomagnetic Materials
    • 2.2.4 Smart Thermal Materials and Structures
    • 2.2.5 Conductive Polymers
    • 2.2.6 Self-Healing Surfaces in Aerospace
    • 2.2.7 Optical Sensors
    • 2.2.8 Ten-Year Forecast of Materials and Components for Smart Aerospace Structures
  • 2.3 SHM and Related Markets
    • 2.3.1 SHM and HUMS
    • 2.3.2 The Business Case for SHM
    • 2.3.2 Evolution to Smart Skins and Sensory Nets
    • 2.3.3 Types of Sensors Used
    • 2.3.4 Ten-Year Forecast of SHM, Smart Skins and Related Markets
  • 2.4 Solar and Smart Structures in Aerospace
    • 2.4.1 SMPC Solar
    • 2.4.2 RAPDAR
  • 2.5 Multilayered Aerospace Structures
  • 2.6 Key Points from this Chapter

Chapter Three : Smart Structures in Aerospace: Drivers and Acceptance

  • 3.1 Viability and Acceptance of Smart Structures in Aviation
    • 3.1.1 Need for Integration
    • 3.1.2 Cost
    • 3.1.3 Acceptance of Smart Structures in the Aerospace Industry
  • 3.2 Monitoring of composite materials
    • 3.2.1 Drivers for use of smart structures to monitor composites
    • 3.2.2 Types of technology used: Sensors
  • 3.3 Noise suppression
    • 3.3.1 The Active Structural Acoustic Control (ASAC) approach
    • 3.3.2 National Research Council of Canada
  • 3.4 Control of surface morphing
    • 3.4.1 Objectives of Surface Morphing
    • 3.4.2 Current R&D Products and Commercialization
  • 3.5 Control of Structural Vibration
  • 3.6 Key Points from this Chapter

Chapter Four: Ten-Year Forecasts for Smart Structures in the Aerospace Industry

  • 4.1 Civil and General Aviation
    • 4.1.1 Role in Supersonic Airliners
  • 4.2 Military Aircraft
  • 4.3 Helicopter
  • 4.4 UAVs
  • 4.5 Satellites and Space Vehicles
    • 4.5.1 Space Segment
    • 4.5.2 Launch Vehicles
  • 4.6 Key Points from this Chapter
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