按產品、技術、外形尺寸、地區、範圍和預測劃分的全球 PMI（材料識別）市場規模

PMI（材料辨識）市場規模及預測

2023 年 PMI（材料辨識）市場規模為 52.7 億美元，預計在 2024-2030 年預測期間內複合年增長率為 8.23%，到 2030 年達到 91.7 億美元。PMI（材料識別）市場涵蓋工業測試和檢驗領域，重點關注製造過程中使用的材料的元素成分的識別和分析。PMI 技術應用於多種行業，包括製造、建築、航空航太、汽車以及石油和天然氣，以確保材料完整性、品質控制以及符合行業標準和法規。PMI 儀器採用 X 射線螢光 (XRF)、光學發射光譜 (OES) 和手持式分析儀等技術來精確測量材料的元素組成。

推動全球 PMI（材料辨識）市場的因素

PMI（材料辨識）市場的市場推動因素受到多種因素的影響。這些包括：

監理合規性：

由於製造、石油和天然氣以及航空航太等行業嚴格的法律和標準，組織經常需要確保材料的品質和成分。PMI技術遵守這些標準的需要就是在這樣的背景下產生的。

建築和製造：

特別是在建築和製造業，品質保證和控制被強調作為確保產品可靠性和安全性的手段。製造過程中使用的材料成分可以藉助 PMI 技術進行驗證。

製造工藝複雜性：

隨著製造流程變得越來越複雜，準確的材料識別變得越來越重要。PMI 設備可實現快速、準確的材料識別，支援製造商保持一致性和品質。

擴大在石油和天然氣產業的使用：

PMI 在石油和天然氣行業中用於識別和驗證設備、基礎設施和管道中使用的材料。隨著石油和天然氣生產和勘探活動的增長，對 PMI 解決方案的需求可能會增加。

使用 PMI 工具：

PMI 工具的使用是由光學發射光譜和手持式 X 射線螢光 (XRF) 分析儀等領域的持續技術改進所推動的。這些工具由於其更高的準確性、可操作性和易用性而對各種公司越來越有吸引力。

增加對假冒材料的認識：

隨著對假冒材料相關風險的日益瞭解，業界正在投資 PMI 技術來驗證材料並阻止使用摻假和假零件。

強調成本效率：

企業正在尋找更經濟、更及時的方法來解決問題。PMI 工具可協助企業快速、無損地識別材料，同時節省時間和金錢。

對 PMI 解決方案的需求

全球基礎設施和建築活動的擴張推動了確保建築所用材料的品質和完整性的需求。

航空航太和國防領域的成長：

PMI 在確保航空航太和國防工業關鍵零件所用材料的完整性方面發揮著重要作用。隨著該領域的擴展，對 PMI 技術的需求可能會增加。

對材料永續性的興趣日益濃厚：

隨著永續發展實踐受到關注，業界越來越意識到材料如何影響環境。PMI 可用於識別並確保使用可持續且環保的材料。

限制全球PMI（材料辨識）市場的因素

有幾個因素可能對 PMI（材料識別）市場構成限製或課題。這些包括：

初始成本高：

投資和實施 PMI 技術可能成本高昂，包括僱用員工和購買必要的用品。一些潛在用戶，尤其是小型企業，可能會因這筆初始費用而望而卻步。

設備複雜度：

由於其複雜性，某些 PMI 設備的操作可能需要專家或操作員。這種複雜性增加了培訓成本，並可能成為廣泛採用的障礙。

監理合規性：

需要 PMI 的公司通常在高度監管的環境中工作。實現並維持對行業標準和法規的遵守可能很困難，並且會進一步增加複雜性和費用。

有限的教育和意識：

一個潛在障礙是最終用戶不瞭解 PMI 技術的優勢。可能需要進行教育工作來強調 PMI 解決方案的優勢和可承受性。

技術過時：

由於技術的快速進步，一些 PMI 工具和技術可能會變得過時。專注於技術變革速度的企業可能不願意投資 PMI 解決方案。

準確性和可靠性問題：

在使用困難情況或某些材料時，使用者可能會質疑 PMI 設備的準確性和可靠性。為了廣泛採用，需要解決這些問題。

全球經濟因素：

不確定性或經濟衰退可能會影響產業的總資本支出。在經濟困難的情況下，公司可能會決定推遲或減少對 PMI 等技術的投資。

整合難度：

將 PMI 技術納入當前流程和系統可能很困難。如果在整合階段出現不相容或中斷，潛在用戶可能會遇到困難。

目錄

第1章簡介

• 市場定義
• 市場細分
• 調查方法

第 2 章執行摘要

• 主要發現
• 市場概況
• 市集亮點

第3章市場概況

• 市場規模和成長潛力
• 市場趨勢
• 市場驅動力
• 市場制約因素
• 市場機會
• 波特五力分析

第4章 PMI（材料識別）市場：透過提供

• 機器
• 服務

第5章 PMI（材料辨識）市場：依技術分類

• 光譜學
• 化學分析
• 機械檢查

第6章 PMI（材料辨識）市場：依外形尺寸

• 手持式分析儀
• 桌上型分析儀
• 固定系統

第7章區域分析

• 北美
• 美國
• 加拿大
• 墨西哥
• 歐洲
• 英國
• 德國
• 法國
• 義大利
• 亞太地區
• 中國
• 日本
• 印度
• 澳洲
• 拉丁美洲
• 巴西
• 阿根廷
• 智利
• 中東/非洲
• 南非
• 沙烏地阿拉伯
• 阿拉伯聯合酋長國

第8章市場動態

• 市場驅動力
• 市場制約因素
• 市場機會
• COVID-19 的市場影響

第9章 競爭格局

• 大公司
• 市場佔有率分析

第10章 公司簡介

• Olympus Corporation
• Thermo Fisher Scientific Inc.
• Hitachi High-Tech Analytical Science
• Bruker Corporation
• SPECTRO Analytical Instruments GmbH
• Rigaku Corporation
• SciAps, Inc.
• Buehler（a division of ITW）
• Zetec Inc.
• Niton（a division of Thermo Fisher Scientific）

第11章市場前景與機遇

• 新興技術
• 未來市場趨勢
• 投資機會

第12章附錄

• 縮寫表
• 來源和參考文獻

Positive Material Identification Market Size And Forecast

Positive Material Identification Market size was valued at USD 5.27 Billion in 2023 and is projected to reach USD 9.17 Billion by 2030 , growing at a CAGR of 8.23% during the forecast period 2024-2030. The Positive Material Identification (PMI) Market encompasses the sector of industrial testing and inspection focused on identifying and analyzing the elemental composition of materials used in manufacturing processes. PMI technologies are utilized across various industries, including manufacturing, construction, aerospace, automotive, and oil & gas, to ensure material integrity, quality control, and compliance with industry standards and regulations. PMI devices employ techniques such as X-ray fluorescence (XRF), optical emission spectrometry (OES), and handheld analyzers to determine the elemental composition of materials accurately.

Global Positive Material Identification Market Drivers

The market drivers for the Positive Material Identification Market can be influenced by various factors. These may include:

Regulatory Compliance:

Organizations must frequently guarantee the quality and composition of materials due to strict laws and standards in a variety of industries, including manufacturing, oil and gas, and aerospace. The need for PMI technologies to adhere to these standards is fueled by this.

Construction and Manufacturing Sectors:

In particular, place a strong emphasis on quality assurance and control as a means of guaranteeing the dependability and security of their goods. The composition of materials used in manufacturing processes can be verified with the aid of PMI techniques.

Increasing Complexity in Manufacturing Processes:

Accurate material identification becomes increasingly important as manufacturing processes get more complicated. Quick and accurate material identification is made possible by PMI instruments, which support manufacturers in upholding consistency and quality.

Growing Use in the Oil and Gas Industry:

PMI is used by the oil and gas industry to identify and validate the materials used in equipment, infrastructure, and pipelines. The need for PMI solutions may increase in tandem with the growth of oil and gas production and exploration activities.

PMI Tool Usage:

PMI tool usage is facilitated by continuous technology improvements in areas like optical emission spectrometers and handheld X-ray fluorescence (XRF) analyzers. These tools are increasingly appealing to a variety of businesses because to their increased precision, mobility, and ease of use.

Growing Knowledge of Counterfeit Materials:

Industries are investing in PMI technologies to authenticate materials and stop the use of inferior or counterfeit components as a result of a greater understanding of the dangers connected with counterfeit materials.

Emphasis on Cost-Efficiency:

Businesses are searching for more economical and timely ways to solve problems. PMI tools assist businesses identify materials quickly and non-destructively while also saving time and money.

The demand for PMI solutions:

To guarantee the quality and integrity of materials used in construction is fueled by the expansion of infrastructure and building activities worldwide.

Growth of the Aerospace and Defence Sector:

PMI plays a major role in guaranteeing the integrity of materials used in important components for the aerospace and defence industry. The need for PMI technology may be fueled by the expansion of this sector.

Growing Concern for Material Sustainability:

As sustainable practices gain more attention, industries are becoming more aware of how materials affect the environment. The PMI can be used to recognize and guarantee the usage of sustainable and environmentally friendly materials.

Global Positive Material Identification Market Restraints

Several factors can act as restraints or challenges for the Positive Material Identification Market . These may include:

High Initial Costs:

Investing in and deploying PMI technology can come with a hefty price tag, which also includes hiring staff members and buying the required supplies. Some potential users might be discouraged by this upfront outlay, particularly smaller enterprises.

Complexity of Equipment:

Operating certain PMI instruments may call for specialised experts or operators due to their complexity. This intricacy may result in increased training expenses and possible obstacles to broad adoption.

Regulatory Compliance:

Businesses that need PMI frequently work in highly regulated settings. It can be difficult to achieve and maintain compliance with industry standards and regulations, which adds another level of complexity and expense.

Limited Education and Awareness:

One potential barrier may be the potential end-users' ignorance of the advantages of PMI technology. It can be necessary to make educational efforts to show off the benefits and affordability of PMI solutions.

Technological Obsolescence:

As a result of quick technological progress, some PMI tools or techniques may become outdated. Businesses that worry about the speed at which technology is changing can be reluctant to invest in PMI solutions.

Concerns Regarding Accuracy and Reliability:

In some difficult situations or while using particular materials, users may have doubts regarding the accuracy and dependability of PMI devices. For widespread adoption to occur, it could be necessary to address these worries.

Global Economic Factors:

Uncertainties or economic downturns may have an impact on an industry's total capital expenditure. During difficult economic times, businesses may decide to postpone or reduce their investments in technology like PMI.

Integration Difficulties:

It might be difficult to incorporate PMI technology into current processes and systems. Potential users may encounter difficulties if there are incompatibilities or interruptions during the integration stage.

Global Positive Material Identification Market Segmentation Analysis

The Global Positive Material Identification Market is Segmented on the basis of Offering, Technique, Form Factor, And Geography.

Positive Material Identification Market, By Offering

• Equipment:
• This segment includes the hardware and software used for PMI analysis, such as handheld analyzers, spark spectrometers, X-ray fluorescence (XRF) analyzers, and optical emission spectrometers (OES).
• Services:
• This segment covers on-site analysis, laboratory testing, data management, and training services provided by PMI specialists.

Positive Material Identification Market, By Technique

• Spectroscopy:
• This includes various techniques like XRF, OES, and LIBS (Laser-Induced Breakdown Spectroscopy) which analyze the material by studying its light emissions.
• Chemical Analysis:
• This involves wet chemical methods like titration or chromatography for determining specific elements or compounds in the material.
• Mechanical Testing:
• This segment uses hardness testers, tensile testers, and other instruments to assess the mechanical properties of the material for verification.

Positive Material Identification Market, By Form Factor

• Handheld Analyzers:
• Portable and relatively simple devices for quick on-site analysis of smaller parts.
• Benchtop Analyzers:
• More accurate and versatile instruments for analyzing larger parts or performing more complex tests in a laboratory setting.
• Fixed Systems:
• High-precision installations dedicated to specific applications, often integrated into production lines.

Positive Material Identification Market, By Geography

• North America:
• Market conditions and demand in the United States, Canada, and Mexico.
• Europe:
• Analysis of the Health Care Credentialing Software Market in European countries.
• Asia-Pacific:
• Focusing on countries like China, India, Japan, South Korea, and others.
• Middle East and Africa:
• Examining market dynamics in the Middle East and African regions.
• Latin America:
• Covering market trends and developments in countries across Latin America.

Key Players

• The major players in the Positive Material Identification Market are:
• Olympus Corporation
• Thermo Fisher Scientific Inc.
• Hitachi High-Tech Analytical Science
• Bruker Corporation
• SPECTRO Analytical Instruments GmbH
• Rigaku Corporation
• SciAps, Inc.
• Buehler (a division of ITW)
• Zetec Inc.
• Niton (a division of Thermo Fisher Scientific)

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Positive Material Identification Market, By Offering

• Equipment
• Services

5. Positive Material Identification Market, By Technique

• Spectroscopy
• Chemical Analysis
• Mechanical Testing

6. Positive Material Identification Market, By Form Factor

• Handheld Analyzers
• Benchtop Analyzers
• Fixed Systems

7. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

8. Market Dynamics

• Market Drivers
• Market Restraints
• Market Opportunities
• Impact of COVID-19 on the Market

9. Competitive Landscape

• Key Players
• Market Share Analysis

10. Company Profiles

• Olympus Corporation
• Thermo Fisher Scientific Inc.
• Hitachi High-Tech Analytical Science
• Bruker Corporation
• SPECTRO Analytical Instruments GmbH
• Rigaku Corporation
• SciAps, Inc.
• Buehler (a division of ITW)
• Zetec Inc.
• Niton (a division of Thermo Fisher Scientific)

11. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

12. Appendix

• List of Abbreviations
• Sources and References