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市場調查報告書

CUI (包覆層下腐蝕) 的感測器的革新及結構安全監控 (SHM)

Innovations in Sensors for CUI and Structural Monitoring Applications

出版商 Frost & Sullivan 商品編碼 916763
出版日期 內容資訊 英文 58 Pages
商品交期: 最快1-2個工作天內
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CUI (包覆層下腐蝕) 的感測器的革新及結構安全監控 (SHM) Innovations in Sensors for CUI and Structural Monitoring Applications
出版日期: 2019年11月05日內容資訊: 英文 58 Pages
簡介

本報告提供全球SHM (結構安全監控) 及CUI (包覆層下腐蝕) 市場相關調查,SHM & CUI感測器的意義,感測器的主要的賦能技術,帶來技術開發、引進的影響的要素,促進開發的主要創新者,專利趨勢為基礎的機會,及技術的未來展望等相關分析。

第1章 摘要整理

第2章 SHM (結構安全監控) 及CUI (包覆層下腐蝕) :概要、感測技術的影響

  • 結構安全監控 (SHM) 及CUI (包覆層下腐蝕) :概要
  • CUI偵測主要的手法
  • 紅外線熱成像:意義、手法
  • 電腦X光攝影的簡介
  • 長範圍超音波探傷檢驗 (LRUT)
  • 脈衝旋渦流探傷 (PEC) 實驗
  • 結構安全監控 (SHM) :概要
  • 結構安全監控 (SHM) :技術的類型
  • 主要的結構安全監控 (SHM) 感測器:壓電智慧感應器 - PVDF
  • 主要的結構安全監控 (SHM) 感測器:光纖布拉格光柵 (FBG) 感測器
  • 主要的結構安全監控 (SHM) 感測器:
  • 有廣泛應用機會的無線感測器
  • 加速計、音響放出

第3章 產業、應用的影響

  • 結構安全監控 (SHM) 應用的智慧感應器
  • 公共基礎設施產業/配管產業 & 建設/肥料產業

第4章 技術的影響要素

  • 市場成長的推動要素:老化的基礎設施、IoT
  • 監測老化的基礎設施、IoT的必要促進性需求
  • 市場課題:感測器壽命、間接損傷偵測
  • 間接損傷偵測的限制及高額的投資成本主要課題

第5章 全球專利形勢

  • CUI感測器、SHM感測器:全球專利趨勢分析

第6章 主要革新、技術開發

  • Metal Samples Company
  • Integrity Diagnostics
  • CorrosionRADAR
  • Rohrback Cosasco Systems
  • Sensuron
  • WaveScan
  • Structural Monitoring Systems Plc
  • E-Globaledge Corporation
  • Resensys
  • Luna
  • Corr Instruments LLC
  • iSensPro
  • ClampOn AS
  • University

第7章 成長機會、推薦行動 (C2A)

  • 成長機會、未來方案
  • SHM及CUI應用中IoT所扮演的角色
  • 策略考察

第8章 主要聯絡處

目錄
Product Code: D8D9

Advanced Sensors and IoT Drive Opportunities in the Aerospace, Civil Infrastructure, Oil & Gas, and Other Sectors

Structural Health Monitoring (SHM) is concerned with continuous monitoring of civil and industrial buildings or structures in order to improve human safety and decrease maintenance costs. The SHM scheme provides data about changes induced by aging products, environmental action, or accidental occurrences in a single portion or in the entire structure. SHM systems are typically dedicated to tracking parameters such as moisture, temperature, acceleration, vibration, stress on traction, compressive stress, and degradation of construction components. The techniques used are non-invasive and require experienced professionals to deploy sensors at checkpoints. The sensor data is combined with the mathematical models to determine the safety of the structure.

The sensors are intelligent because they are not only able to assess the physical quantity of concern but also to elaborate on it and are willing to communicate data via the Internet in order to make choices or decisions. Each sensor is a smart device and the entire SHM is an Internet-of-Things (IoT) implementation.

Key Questions Answered in the Technology and Innovation Report:

  • 1. What is the significance of sensors for CUI & SHM applications ?
  • 2. What are the key enabling sensor technologies?
  • 3. What are the factors that influence technology development and adoption?
  • 4. Who are the key innovators driving developments?
  • 5. What are the opportunities based on patent trends?
  • 6. What are the future prospects of the technology?

Table of Contents

1.0. Executive Summary

  • 1.1. Scope of the Technology and Innovation Research
  • 1.2. Research Methodology
  • 1.3. Research Methodology Explained
  • 1.4. Summary of Key Findings
  • 1.4. Summary of Key Findings (continued)

2.0. Structural Health Monitoring and Corrosion Under Insulation- Overview and Impact of Sensing Technologies

  • 2.1. Structural Health Monitoring and Corrosion Under Insulation- An Overview
  • 2.2. Key Methodologies in CUI Detection
  • 2.3. Infrared Thermography - Significance and Methodology
  • 2.4. Profile and Computed Radiography Significances
  • 2.5. Long Range Ultrasonic Testing (LRUT)
  • 2.6. Pulsed Eddy Current (PEC) Testing
  • 2.7. Structural Health Monitoring - Overview
  • 2.8. Structural Health Monitoring - Types of Techniques
  • 2.9. Key Structural Health Monitoring Sensors - Piezoelectric Smart Sensors: PVDF
  • 2.10. Key Structural Health Monitoring Sensors - Fiber Bragg Grating Sensors
  • 2.11. Key Structural Health Monitoring Sensors - MEMS Sensors
  • 2.12. Wireless Sensors have Opportunities for Wider Adoption
  • 2.13. Accelerometers and Acoustic Emission have Opportunities for Adoption

3.0. Industry and Application Impacts

  • 3.1. Smart Sensors in Structural Health Monitoring Applications
  • 3.2. Civil Infrastructure Industry/Piping Industry & Construction/Fertilizer Industry

4.0. Factors Influencing Technology

  • 4.1. Market Drivers: Aging Infrastructure and IoT
  • 4.2. Demand will be Boosted by the Need to Monitor Aging Infrastructure and IoT
  • 4.3. Market Challenges: Sensor Longevity and Indirect Damage Detection
  • 4.4. Limitations in Indirect Damage Detection and High Investment Cost are Key Challenges

5.0. Global Patent Landscape

  • 5.1. CUI Sensors and Structural Health Monitoring Sensors - Global Patent Trend Analysis

6.0. Key Innovations and Technology Developments

  • 6.1. Metal Samples Company - Sensor Probe for Corrosion Detection
  • 6.2. Integrity Diagnostics - Acoustic Sensor for CUI Application
  • 6.3. CorrosionRADAR - Distributed Sensors for Concealed Corrosion Monitoring
  • 6.4. Rohrback Cosasco Systems - Corrosion Monitoring Sensors
  • 6.5. GEMAC - Precision Sensors for Monitoring Bridges and Buildings
  • 6.6. Sensuron - Fiber Optic Sensing for Structural Monitoring
  • 6.7. WaveScan - Beamforming Electromagnetic Wave-based Smart Wireless Non-destructive Testing
  • 6.8. Structural Monitoring Systems Plc - Sensor for SHM Applications
  • 6.9. E-Globaledge Corporation - Seismic Acceleration Sensor for SHM
  • 6.10. Resensys - Wireless Structural Health Monitoring Solutions
  • 6.11. Luna - Distributed Wireless Sensor Network for SHM
  • 6.12. Corr Instruments LLC - Corrosion Monitoring Sensors
  • 6.13. iSensPro - Sensors for Monitoring Moisture Content in Pipelines
  • 6.14. ClampOn AS - Active Ultrasonic Sensors for CUI
  • 6.15. University-based Innovations Enabling SHM/CUI Applications

7.0. Growth Opportunities & Strategic Insights

  • 7.1. Growth Opportunities and Future Scenarios
  • 7.2. Role of IoT in SHM and CUI Applications
  • 7.3. Strategic Insights

8.0. Key Industry Contacts

  • 8.1. Key Industry Contacts
  • Legal Disclaimer
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