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市場調查報告書
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1438451

工業電腦放射成像:市場佔有率分析、產業趨勢與統計、成長預測(2024-2029)

Industrial Computed Radiography - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)
出版日期: | 出版商: Mordor Intelligence | 英文 107 Pages | 商品交期: 2-3個工作天內

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簡介目錄

工業電腦放射成像市場規模預計到 2024 年為 4.0987 億美元,預計到 2029 年將達到 5.73 億美元,在預測期內(2024-2029 年)複合年成長率為 6.93%。

工業電腦射線照相 - 市場

電腦射線照相技術為檢查操作帶來了顯著的好處,幾乎消除了耗材的使用,並進一步縮短了影像產生時間。這些因素預計將增加其在市場上的採用率。

主要亮點

  • 它具有比傳統X光設備更寬的動態範圍,使得可視化和分析精細細節成為可能。此外,它還提供簡化的工作流程、為操作員提供更安全的工作環境以及更環保、無化學品的製程。
  • 各種電腦射線照相供應商正在改進他們的數位射線照相掃描器、磷光體成像板和軟體程式。因此,新產品不斷推出,直接滿足航太、國防、石油和天然氣等產業的需求。
  • 市面上的各種產品都使用圓柱掃描儀或平板掃描儀,其軟體範圍從14位對數到16位線性。最小像素尺寸範圍為12.5~25、25~35、35~70、70~100像素,空間解析度、訊號雜訊比值、灰階值顯著提升,目前可以滿足許多標準。這些對檢測材料缺陷的可能性有重大影響。
  • 目前的 CR 掃描儀和磷光體成像板可以以 12.5 至 25 的解析度進行掃描(相當於放射膠片的 D4/IX50)。它們符合規範靈敏度標準,例如 2% 或更高的射線照相靈敏度,顯著增加了故障識別的可能性。
  • 然而,高昂的安裝成本和進一步的技術改進可能會擾亂市場。
  • 印度國家統計局和統計計劃研究所(MOSPI)發布的2020-21年第一季國內生產總值(GDP)顯示,COVID-19對建築、製造業、採礦業總付加價值的影響分別為-12.6 %、-9.4%、-12.4%。因此,這些行業成長放緩預計將在短時間內阻礙市場成長並影響市場成長。

工業電腦放射成像市場趨勢

無損檢測可望推動市場成長

  • 電腦放射線攝影是一種無損檢測 (NDT),用於工業環境中,用於檢查製造的零件和組件的安全性和完整性。例如,無損檢測必須確保所有運作中關鍵零件均適合石油和天然氣作業。用於運輸石油和天然氣的管道是需要適當維護和檢查的關鍵零件。因此,工業中無損檢測需求的不斷增加也增加了電腦射線成像技術在工業應用中的採用。
  • 此外,工業製造和基礎設施領域自動化程度的提高顯著增加了對裂縫、孔隙、製造缺陷等相關缺陷檢測的需求。
  • 此外,美國機械工程師協會(ASME)和國際標準化組織(ISO)等多個政府機構和區域組織已採取嚴格措施確保設備安全並監督工程服務的測試。因此,各行業對無損檢測的需求不斷增加。
  • 航太中的計算射線照相應用還包括檢測厚且複雜的幾何形狀、金屬和非金屬幾何形狀的內部缺陷以及關鍵航太部件、結構和組件的質量。此外,日益重視安全標準、縮短維護間隔、低排放目標、新材料和製程是推動航太放射成像市場的關鍵因素。

預計北美將主導市場

  • 由於更多地採用額外的放射線攝影設備以及該地區的技術進步,預計北美將主導全球電腦放射線攝影市場。FUJIFILM公司和西門子醫療保健等主要企業也有強大的影響力。
  • 2021年9月,福特和SK Innovation宣布計畫投資114億美元,在美國創造約11,000個新工作機會。三個新的 BlueOval SK 電池工廠(兩個位於肯塔基州,一個位於田納西州)將為福特在美國提供 129 吉瓦時的年產能。
  • 2021 年 2 月,總統拜登表示,國內半導體製造是他的美國政府的首要任務。新政府準備解決日益嚴重的晶片短缺問題,並解決立法者的擔憂,即外包晶片製造使美國更容易受到供應鏈中斷的影響。在行政措施中,拜登啟動了為期100天的審查,可能會透過額外的政府援助和新政策提振美國半導體公司。
  • 此外,北美地區醫療保健的擴張以及醫療保健業務的應用正在推動該地區的市場成長。

工業電腦射線照相產業概況

在預測期內,所研究市場中競爭公司之間的敵意強度將會很高。隨著放射成像市場技術的發展,供應商和最終用戶預計將轉向新技術。因此,現有的參與者正在創新他們的產品以保持市場佔有率。許多公司也將地域擴張視為獲得市場吸引力的一種手段。

  • 2022 年 2 月 - 加拿大政府宣布對加拿大半導體和光電產業進行重大投資。這筆 2.4 億加元的投資預計將有助於加強加拿大作為光電領域世界領導者的地位,並有潛力加強半導體開發和製造。超過100家國內外半導體公司在加拿大從事微晶片研發。它在化合物半導體、電子機械系統(MEMS)和先進封裝領域擁有30多個應用研究實驗室和5個商業設施。
  • 2021 年 3 月 - 英特爾承諾在亞利桑那州再建兩座新製造工廠 (fabs)。這項消息發布之際,全球晶片短缺正在困擾從汽車到電子等產業,人們擔心美國在半導體製造方面落後。該晶圓代工廠準備生產各種基於 ARM 技術的晶片,用於移動設備,迄今已與英特爾首選的 x86 技術競爭。

其他福利

  • Excel 格式的市場預測 (ME) 表
  • 3 個月分析師支持

目錄

第1章簡介

  • 研究假設和市場定義
  • 調查範圍

第2章調查方法

  • 調查系統
  • 二次調查
  • 初步調查
  • 對資料進行三角測量並產生見解

第3章執行摘要

第4章市場洞察

  • 市場概況
  • 產業吸引力-波特五力分析
    • 供應商的議價能力
    • 買方議價能力
    • 新進入者的威脅
    • 替代產品的威脅
    • 競爭公司之間的敵意強度
  • 產業價值鏈分析
  • 評估新型冠狀病毒感染疾病(COVID-19)對市場的影響

第5章市場動態

  • 市場促進因素
    • 減少輻射暴露的需求不斷增加
    • 無損檢測的需求不斷成長
  • 市場限制因素
    • 安裝成本高

第6章市場區隔

  • 依用途
    • 油和氣
    • 石化和化學
    • 鑄造廠
    • 航太和國防
    • 其他用途
  • 依地區
    • 北美洲
    • 歐洲
    • 亞太地區
    • 世界其他地區

第7章 競爭形勢

  • 公司簡介
    • Durr Ndt Gmbh &Co. Kg
    • Baker Hughes
    • Fujifilm Corporation
    • Applus Services Sa
    • Rigaku Corporation
    • Shawcor Ltd
    • Bluestar Limited
    • Virtual Media Integration
    • Acuren

第8章 市場投資

第9章市場機會與未來趨勢

簡介目錄
Product Code: 66943

The Industrial Computed Radiography Market size is estimated at USD 409.87 million in 2024, and is expected to reach USD 573 million by 2029, growing at a CAGR of 6.93% during the forecast period (2024-2029).

Industrial Computed Radiography - Market

Computed radiography technology offers enormous advantages for inspection tasks, and the use of consumables is virtually eliminated, further reducing the time to produce an image. These factors are expected to increase market adoption.

Key Highlights

  • Minute details are visible and analyzable due to a higher dynamic range than a film in traditional x-ray machines. Further, it provides a simplified workflow, a safer working environment for operators, and a more environmentally-friendly chemical-free process.
  • Various computed radiography vendors have improved digital radiography scanners, phosphor imaging plates, and software programs. As a result, new products have been introduced that directly meet the needs of industries such as aerospace and defense, oil and gas, etc.
  • Various products on the market use cylinder or flat panel scanners with software ranging from 14-bit logarithmic to 16-bit linear. Minimum pixel sizes range from 12.5-25, 25-35, 35-70, and 70-100 pixels, resulting in significantly increased essential spatial resolution, signal-to-noise ratio values, and grey values to fulfill many of the current standards. These have a substantial impact on the likelihood of detecting faults in materials.
  • Current CR scanners and phosphor imaging plates can scan resolutions of 12.5 - 25 (equal to D4/IX50 in radiography film). These fulfill the sensitivity criteria in specifications, such as 2% radiographic sensitivity or greater, and the likelihood of fault identification has increased significantly.
  • However, high installation costs and further technological improvements may disrupt the market.
  • As per the Gross Domestic Product (GDP) for the Q1 of 2020-21 released by the National Statistical Office and Ministry of Statistic and Program Institute (MOSPI) India, the impact of COVID-19 on the gross value-added of construction, manufacturing, and mining sector accounted for -12.6%, -9.4%, and -12.4%. Thus, the decline in the growth of these industries is expected to stall the market growth for a short period, impacting the market growth.

Industrial Computed Radiography Market Trends

Nondestructive Testing Expected to Drive the Market Growth

  • Computed radiography is a sort of non-destructive testing (NDT) used in industrial settings to check the safety and integrity of manufactured components and assemblies. For example, NDT must ensure that all in-service and crucial parts are fit-for-purpose in the oil and gas business. Pipes used to transfer oil or gas are essential components to be well maintained and inspected. Hence, due to the growing demand for NDT in industries, the adoption of computed radiography techniques is also increasing in industrial applications.
  • Also, with the increase in automation in the industrial manufacturing and infrastructure sectors, there has been a substantial hike in demand for flaw detection related to cracks, porosity, manufacturing disorders, and so on.
  • Moreover, several governmental agencies and regional bodies, like the American Society of Mechanical Engineers (ASME) and the International Organization for Standardization (ISO), have instituted to take stringent measures to ensure the safety of instruments and oversee engineering services testing. Hence, the demand for non-destructive testing is increasing across industries.
  • Also, computed radiography applications in aerospace include detecting internal defects in thick and complex shapes, metallic and non-metallic forms, and the quality of critical aerospace components, structures, and assemblies. Further, increasing emphasis on safety standards, decreasing service intervals, low emission targets, and new materials and processes are the major factors driving the computed radiography market in the aerospace segment.

North America Expected to Dominate the Market

  • North America is expected to dominate the global computed radiography market due to the increasing adoption of added radiography equipment coupled with technological advancements in the region. Key players like Fujifilm Corporation and Siemens Healthcare also have a strong presence.
  • In September 2021, Ford and SK Innovation announced a plan to invest USD11.4 billion and create nearly 11,000 new jobs in the United States. Three new BlueOval SK battery plants, two in Kentucky and one in Tennessee enable 129-gigawatt hours a year of US production capacity for Ford.
  • In February 2021, President Joe Biden stated that domestic semiconductor manufacturing is a priority for the country's administration. The new administration is poised to fix growing chip shortages and address lawmakers' concerns that outsourcing chipmaking had made the United States more vulnerable to supply chain disruptions. In an executive action, Biden started began a 100-day review that could boost American chip companies with additional government support and new policies.
  • Furthermore, the expansion of healthcare in the North American region and its application in the healthcare business boost the area's market growth.

Industrial Computed Radiography Industry Overview

The intensity of competitive rivalry in the market studied is high during the forecast period. With the technological developments in the radiography market, the vendors and end-users are expected to shift towards the new technology. Hence, the existing players are innovating their products to maintain their market share. Also, many companies view geographical expansion as a path to gaining market traction.

  • February 2022 - The Government of Canada announced a significant investment in the Canadian semiconductor and photonics industries. The investment of CAD 240 million is expected to help solidify Canada's role as a global leader in photonics and may bolster the development and manufacturing of semiconductors. Over 100 domestic and international semiconductor companies are working on microchip research and development in Canada. In areas including compound semiconductors, microelectromechanical systems (MEMS), and advanced packaging, it has over 30 applied research laboratories and five commercial facilities.
  • March 2021 - Intel committed to two more new fabrication plants, or fabs, in Arizona. The news comes during a global chip shortage that is snarling industries from automobiles to electronics and worries the United States is falling behind in semiconductor manufacturing. The foundry is poised to manufacture a range of chips based on ARM technology used in mobile devices and has historically competed with Intel's favored x86 technology.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumption and Market Definition
  • 1.2 Scope of The Study

2 RESEARCH METHODOLOGY

  • 2.1 Research Framework
  • 2.2 Secondary Research
  • 2.3 Primary Research
  • 2.4 Data Triangulation and Insight Generation

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

  • 4.1 Market Overview
  • 4.2 Industry Attractiveness - Porter's Five Forces Analysis
    • 4.2.1 Bargaining Power of Suppliers
    • 4.2.2 Bargaining Power of Buyers
    • 4.2.3 Threat of New Entrants
    • 4.2.4 Threat of Substitute Products
    • 4.2.5 Intensity of Competitive Rivalry
  • 4.3 Industry Value Chain Analysis
  • 4.4 Assessment of the Impact of COVID-19 on the Market

5 MARKET DYNAMICS

  • 5.1 Market Drivers
    • 5.1.1 The Increasing Demand for Decreasing the Exposure to Radiation
    • 5.1.2 Growing Need for Nondestructive Testing
  • 5.2 Market Restraints
    • 5.2.1 High Installation Costs

6 MARKET SEGMENTATION

  • 6.1 By Applications
    • 6.1.1 Oil and Gas
    • 6.1.2 Petrochemical and Chemical
    • 6.1.3 Foundries
    • 6.1.4 Aerospace and Defense
    • 6.1.5 Other Applications
  • 6.2 By Geography
    • 6.2.1 North America
    • 6.2.2 Europe
    • 6.2.3 Asia Pacific
    • 6.2.4 Rest of the World

7 COMPETITIVE LANDSCAPE

  • 7.1 Company Profiles
    • 7.1.1 Durr Ndt Gmbh & Co. Kg
    • 7.1.2 Baker Hughes
    • 7.1.3 Fujifilm Corporation
    • 7.1.4 Applus Services Sa
    • 7.1.5 Rigaku Corporation
    • 7.1.6 Shawcor Ltd
    • 7.1.7 Bluestar Limited
    • 7.1.8 Virtual Media Integration
    • 7.1.9 Acuren

8 MARKET INVESTMENTS

9 MARKET OPPORTUNITIES AND FUTURE TRENDS