
Immersion Cooling Fluids Market for EVs - A Global and Regional Analysis- Focus on Product, Application, and Country-Level Analysis - Analysis and Forecast, 2022-2032
Description
Immersion Cooling Fluids Market for EVs - A Global and Regional Analysis- Focus on Product, Application, and Country-Level Analysis - Analysis and Forecast, 2022-2032
Global Immersion Cooling Fluids Market for EVs: Industry Overview
The global immersion cooling fluids market for EVs is projected to reach $3,837.0 million by 2032 from $205.8 million in 2021, growing at a CAGR of 30.78% during the forecast period 2022-2032. The growth in the global immersion cooling fluids market for EVs is expected to be driven by increasing sales of immersion cooling system-fitted electric vehicles worldwide.
Market Lifecycle Stage
Immersion cooling fluids used in electric vehicles are advancing technologically and are expected to grow faster in the forecast period. Key market development activities are expected to be boosted by ongoing research and development activities in manufacturing high-performance immersion cooling fluids.
The global immersion cooling fluids market for EVs is still in the growth phase. An increasing fleet of electric vehicles is propelling the sales of immersion cooling fluids in the market. As a result, the global immersion cooling fluids market for EVs is expected to flourish in the forecast period.
Impact
The federal government and agencies are investing heavily in subsidies and infrastructure development to promote electric vehicles and reduce carbon dioxide emissions. These investments are propelling the growth of immersion cooling fluids.
In 2021, the German government doubled its share of the environmental bonus as a new premium, which increased the subsidies for purchasing new EVs. Promoting green mobility, the German government announced the upgraded subsidy scheme, i.e., buyers of BEV and PHEV would get a subsidy of up to around $9,713 (9,000 euros) and around $7,285 (6,750 euros), respectively.
Market Segmentation:
Segmentation 1: by Propulsion Type
Battery Electric Vehicles (BEVs)
Hybrid Electric Vehicles (HEVs)
Plug-in Hybrid Electric Vehicles (PHEVs)
Based on the propulsion type segment, the global immersion cooling fluids market for EVs is expected to be dominated by the battery electric vehicles segment during the forecast period.
Segmentation 2: by Vehicle Type
Passenger Vehicles
Light Commercial Vehicles
Heavy Commercial Vehicles
In terms of vehicle type, passenger vehicles will dominate the global immersion cooling fluids market for EVs due to the expected growth in the fleet of these vehicles during the forecast period.
Segmentation 3: by Application
EV Batteries
EV Motors
Power Electronics
The EV batteries segment is expected to lead the market in the forecast period under the application segment, as more than four-fifths of the total immersion cooling fluid goes into EV batteries.
Segmentation 4: by Product Type
Single-Phase Coolant
Two-Phase Coolant
The single-phase coolant segment is expected to dominate the immersion cooling fluids market for EVs as it is one of the most efficient and safe methods of controlling heat rejection for EV batteries, EV motors, and power electronics.
Segmentation 5: by Chemistry
Mineral Oils
Synthetic Oils and Esters
For the year 2021, the synthetic oils and esters segment dominated the global immersion cooling fluids market for EVs and is also expected to be the predominant segment throughout the forecast period.
Segmentation 6: by Region
North America
Asia-Pacific and Japan
China
Europe
U.K.
Rest-of-the-World
Europe is home to a number of immersion cooling fluids manufacturers. The region is expected to dominate the immersion cooling fluids market for EVs during the forecast period.
Recent Developments in the Immersion Cooling Fluids Market for EVs
In June 2022, FUCHS acquired the lubricants business of Gleitmo Technik AB in Kungsbacka, Sweden, and will integrate it into its subsidiary FUCHS LUBRICANTS SWEDEN AB as of July 1, 2021, to strengthen its specialty business.
In November 2021, Williams Advanced Engineering (WAE) and Castrol Limited entered a five-year technical partnership to co-develop high-performance electric vehicle (EV) fluids.
In January 2021, MIVOLT and Faraday Future (FF), which is a worldwide shared intelligent mobility ecosystem company, entered a partnership to develop a fully submerged battery cooling system for its FF 91 luxury electric vehicle.
In October 2022, Shell plc extended its globally available specialized fluids portfolio by introducing Shell E-Fluids to support battery electric (BEV) as well as fuel cell electric (FCEV) powertrains for commercial light, medium, and heavy goods vehicles.
In July 2021, TotalEnergies SE launched a dedicated hybrid transmission fluid for Great Wall Motors. Great Wall Motors, China's leading car manufacturer, is a key player in the development of electric vehicles.
Demand - Drivers and Limitations
The following are the demand drivers for the immersion cooling fluids market for EVs:
Rising Acceptance of Electric Vehicles
Need to Increase the Driving Range of Electric Vehicles
Thermal Management in Electric Vehicles
Growing Need for Enhanced Electrification Components
Immersion Cooling for the Electric Vehicle Batteries
The market is expected to face some limitations due to the following challenges:
Higher Cost of Immersion Cooling Fluids for EVs
Developing Environment-Friendly Electric Vehicle Fluids
Complex Battery Chemistry and Amount of Immersion Cooling Fluid Needed
Changes Required to be Made in the Construction of EV Batteries
Lack of Knowledge About the Advantages of Immersion Cooling
Analyst View
According to Dhrubajyoti Narayan, Principal Analyst, BIS Research, The immersion cooling fluids market for EVs is in the early stage and is expected to grow substantially in the forecast period. The rapid ongoing research and development activities are pushing the market growth significantly. Immersion cooling fluids producers are partnering with immersion cooling system manufacturers to enhance the performance of electric vehicle battery systems by optimizing fluid and hardware. A surge in battery electric vehicle sales growth is anticipated to boost the immersion cooling fluids market for EVs growth in the forecast period.
How can this report add value to an organization?
Product/Innovation Strategy: The product segment helps the reader understand the different types of electric vehicle immersion cooling fluids products available by propulsion type (battery electric vehicles (BEVs), hybrid electric vehicles (HEVs), and plug-in hybrid electric vehicles (PHEVs)), vehicle type (passenger vehicles, light commercial vehicles, and heavy commercial vehicles), application (EV batteries, EV motors, and power electronics), product type (single-phase coolant and two-phase coolant), and chemistry (mineral oils and synthetic oils and esters). Increasing demand for electric vehicles worldwide is pushing the sales of immersion cooling fluids. Therefore, the immersion cooling fluids business is a high-investment and high-revenue generating model.
Growth/Marketing Strategy: The global immersion cooling fluids market for EVs is exponentially growing, with enormous opportunities for the market players. Some strategies covered in this segment are product launches, partnerships and collaborations, business expansions, and investments. The companies' preferred strategy has been product launches, partnerships, and collaborations to strengthen their positions in the global immersion cooling fluids market for EVs.
Competitive Strategy: Key players in the global immersion cooling fluids market for EVs analyzed and profiled in the study involve immersion cooling fluids-based product manufacturers and immersion cooling system manufacturers. Moreover, a detailed competitive benchmarking of the players operating in the global immersion cooling fluids market for EVs has been done to help the reader understand how players stack against each other, presenting a clear market landscape. Additionally, comprehensive competitive strategies such as partnerships, agreements, and collaborations will aid the reader in understanding the untapped revenue pockets in the market.
Key Market Players and Competition Synopsis
The companies that are profiled have been selected based on inputs gathered from primary experts and analyzing coverage, product portfolio, and market penetration.
Key Companies Profiled
Company Type 1: Immersion Cooling Fluids Manufacturers
FUCHS
The Lubrizol Corporation
3M
Castrol Limited
M&I Materials Ltd.
Engineered Fluids
Shell plc
TotalEnergies SE
Cargill, Incorporated
Dober
LANXESS
Company Type 2: Immersion Cooling System Providers
XING Mobility
MAHLE GmbH
Kreisel Electric
E-MERSIV
Company Type 3: Electric Vehicle Manufacturers Customer Outlook
Tesla Inc.
Volkswagen AG
SAIC Motors
BYD Co. Ltd.
Stellantis N.V.
General Motors
Ford Motor Company
Hyundai Motor Company
Honda Motor Co., Ltd.
Groupe Renault
Toyota Motor Corporation
Bayerische Motoren Werke AG
*PDF email from publisher allows for 1-3 users, with permission to print*
Global Immersion Cooling Fluids Market for EVs: Industry Overview
The global immersion cooling fluids market for EVs is projected to reach $3,837.0 million by 2032 from $205.8 million in 2021, growing at a CAGR of 30.78% during the forecast period 2022-2032. The growth in the global immersion cooling fluids market for EVs is expected to be driven by increasing sales of immersion cooling system-fitted electric vehicles worldwide.
Market Lifecycle Stage
Immersion cooling fluids used in electric vehicles are advancing technologically and are expected to grow faster in the forecast period. Key market development activities are expected to be boosted by ongoing research and development activities in manufacturing high-performance immersion cooling fluids.
The global immersion cooling fluids market for EVs is still in the growth phase. An increasing fleet of electric vehicles is propelling the sales of immersion cooling fluids in the market. As a result, the global immersion cooling fluids market for EVs is expected to flourish in the forecast period.
Impact
The federal government and agencies are investing heavily in subsidies and infrastructure development to promote electric vehicles and reduce carbon dioxide emissions. These investments are propelling the growth of immersion cooling fluids.
In 2021, the German government doubled its share of the environmental bonus as a new premium, which increased the subsidies for purchasing new EVs. Promoting green mobility, the German government announced the upgraded subsidy scheme, i.e., buyers of BEV and PHEV would get a subsidy of up to around $9,713 (9,000 euros) and around $7,285 (6,750 euros), respectively.
Market Segmentation:
Segmentation 1: by Propulsion Type
Battery Electric Vehicles (BEVs)
Hybrid Electric Vehicles (HEVs)
Plug-in Hybrid Electric Vehicles (PHEVs)
Based on the propulsion type segment, the global immersion cooling fluids market for EVs is expected to be dominated by the battery electric vehicles segment during the forecast period.
Segmentation 2: by Vehicle Type
Passenger Vehicles
Light Commercial Vehicles
Heavy Commercial Vehicles
In terms of vehicle type, passenger vehicles will dominate the global immersion cooling fluids market for EVs due to the expected growth in the fleet of these vehicles during the forecast period.
Segmentation 3: by Application
EV Batteries
EV Motors
Power Electronics
The EV batteries segment is expected to lead the market in the forecast period under the application segment, as more than four-fifths of the total immersion cooling fluid goes into EV batteries.
Segmentation 4: by Product Type
Single-Phase Coolant
Two-Phase Coolant
The single-phase coolant segment is expected to dominate the immersion cooling fluids market for EVs as it is one of the most efficient and safe methods of controlling heat rejection for EV batteries, EV motors, and power electronics.
Segmentation 5: by Chemistry
Mineral Oils
Synthetic Oils and Esters
For the year 2021, the synthetic oils and esters segment dominated the global immersion cooling fluids market for EVs and is also expected to be the predominant segment throughout the forecast period.
Segmentation 6: by Region
North America
Asia-Pacific and Japan
China
Europe
U.K.
Rest-of-the-World
Europe is home to a number of immersion cooling fluids manufacturers. The region is expected to dominate the immersion cooling fluids market for EVs during the forecast period.
Recent Developments in the Immersion Cooling Fluids Market for EVs
In June 2022, FUCHS acquired the lubricants business of Gleitmo Technik AB in Kungsbacka, Sweden, and will integrate it into its subsidiary FUCHS LUBRICANTS SWEDEN AB as of July 1, 2021, to strengthen its specialty business.
In November 2021, Williams Advanced Engineering (WAE) and Castrol Limited entered a five-year technical partnership to co-develop high-performance electric vehicle (EV) fluids.
In January 2021, MIVOLT and Faraday Future (FF), which is a worldwide shared intelligent mobility ecosystem company, entered a partnership to develop a fully submerged battery cooling system for its FF 91 luxury electric vehicle.
In October 2022, Shell plc extended its globally available specialized fluids portfolio by introducing Shell E-Fluids to support battery electric (BEV) as well as fuel cell electric (FCEV) powertrains for commercial light, medium, and heavy goods vehicles.
In July 2021, TotalEnergies SE launched a dedicated hybrid transmission fluid for Great Wall Motors. Great Wall Motors, China's leading car manufacturer, is a key player in the development of electric vehicles.
Demand - Drivers and Limitations
The following are the demand drivers for the immersion cooling fluids market for EVs:
Rising Acceptance of Electric Vehicles
Need to Increase the Driving Range of Electric Vehicles
Thermal Management in Electric Vehicles
Growing Need for Enhanced Electrification Components
Immersion Cooling for the Electric Vehicle Batteries
The market is expected to face some limitations due to the following challenges:
Higher Cost of Immersion Cooling Fluids for EVs
Developing Environment-Friendly Electric Vehicle Fluids
Complex Battery Chemistry and Amount of Immersion Cooling Fluid Needed
Changes Required to be Made in the Construction of EV Batteries
Lack of Knowledge About the Advantages of Immersion Cooling
Analyst View
According to Dhrubajyoti Narayan, Principal Analyst, BIS Research, The immersion cooling fluids market for EVs is in the early stage and is expected to grow substantially in the forecast period. The rapid ongoing research and development activities are pushing the market growth significantly. Immersion cooling fluids producers are partnering with immersion cooling system manufacturers to enhance the performance of electric vehicle battery systems by optimizing fluid and hardware. A surge in battery electric vehicle sales growth is anticipated to boost the immersion cooling fluids market for EVs growth in the forecast period.
How can this report add value to an organization?
Product/Innovation Strategy: The product segment helps the reader understand the different types of electric vehicle immersion cooling fluids products available by propulsion type (battery electric vehicles (BEVs), hybrid electric vehicles (HEVs), and plug-in hybrid electric vehicles (PHEVs)), vehicle type (passenger vehicles, light commercial vehicles, and heavy commercial vehicles), application (EV batteries, EV motors, and power electronics), product type (single-phase coolant and two-phase coolant), and chemistry (mineral oils and synthetic oils and esters). Increasing demand for electric vehicles worldwide is pushing the sales of immersion cooling fluids. Therefore, the immersion cooling fluids business is a high-investment and high-revenue generating model.
Growth/Marketing Strategy: The global immersion cooling fluids market for EVs is exponentially growing, with enormous opportunities for the market players. Some strategies covered in this segment are product launches, partnerships and collaborations, business expansions, and investments. The companies' preferred strategy has been product launches, partnerships, and collaborations to strengthen their positions in the global immersion cooling fluids market for EVs.
Competitive Strategy: Key players in the global immersion cooling fluids market for EVs analyzed and profiled in the study involve immersion cooling fluids-based product manufacturers and immersion cooling system manufacturers. Moreover, a detailed competitive benchmarking of the players operating in the global immersion cooling fluids market for EVs has been done to help the reader understand how players stack against each other, presenting a clear market landscape. Additionally, comprehensive competitive strategies such as partnerships, agreements, and collaborations will aid the reader in understanding the untapped revenue pockets in the market.
Key Market Players and Competition Synopsis
The companies that are profiled have been selected based on inputs gathered from primary experts and analyzing coverage, product portfolio, and market penetration.
Key Companies Profiled
Company Type 1: Immersion Cooling Fluids Manufacturers
FUCHS
The Lubrizol Corporation
3M
Castrol Limited
M&I Materials Ltd.
Engineered Fluids
Shell plc
TotalEnergies SE
Cargill, Incorporated
Dober
LANXESS
Company Type 2: Immersion Cooling System Providers
XING Mobility
MAHLE GmbH
Kreisel Electric
E-MERSIV
Company Type 3: Electric Vehicle Manufacturers Customer Outlook
Tesla Inc.
Volkswagen AG
SAIC Motors
BYD Co. Ltd.
Stellantis N.V.
General Motors
Ford Motor Company
Hyundai Motor Company
Honda Motor Co., Ltd.
Groupe Renault
Toyota Motor Corporation
Bayerische Motoren Werke AG
*PDF email from publisher allows for 1-3 users, with permission to print*
Table of Contents
325 Pages
- 1 Markets
- 1.1 Industry Outlook
- 1.1.1 Immersion Cooling Fluids: Overview
- 1.1.1.1 History of EV Battery Thermal Management
- 1.1.1.2 Immersion Cooling: The Way Forward for Electric Vehicle Battery Thermal Management
- 1.1.2 Overview of Regulatory Hurdles
- 1.1.2.1 Battery Issues
- 1.1.2.2 Fire-Related Regulations
- 1.1.2.2.1 China EV Fire-Related Regulations
- 1.1.2.2.2 Canada EV Fire-Related Regulations
- 1.1.2.2.3 U.S. EV Fire-Related Regulations
- 1.1.2.2.4 France EV Fire-Related Regulations
- 1.1.2.2.5 South Korea EV Fire-Related Regulations
- 1.1.2.2.6 India EV Fire-Related Regulations
- 1.1.3 Trends: Current and Future
- 1.1.4 Supply Chain Network
- 1.1.5 Comparative Analysis: Liquid Cooling Vs. Immersion Cooling
- 1.1.6 Case Study: Solving EV Range Anxiety
- 1.1.7 Additives for Fluids in Electric Vehicle Batteries
- 1.1.7.1 Analyst View on Additives for Fluids in EV Batteries
- 1.1.8 Ecosystem/Ongoing Programs
- 1.1.8.1 Consortiums, Associations, and Regulatory Bodies
- 1.1.8.1.1 North America
- 1.1.8.1.2 Europe
- 1.1.8.1.3 Asia-Pacific and Japan
- 1.1.8.2 Government Initiatives
- 1.1.8.3 Programs by Research Institutions and Universities
- 1.1.9 Key Patent Mapping
- 1.1.9.1 Past Vs. Future of Research and Development Activities in the Immersion Cooling Fluids Market for EVs
- 1.1.10 Overview of EV Fluid Cost Estimation
- 1.2 Business Dynamics
- 1.2.1 Business Drivers
- 1.2.1.1 Rising Acceptance of Electric Vehicles
- 1.2.1.2 Need to Increase the Driving Range of Electric Vehicles
- 1.2.1.3 Thermal Management in Electric Vehicles
- 1.2.1.4 Growing Need for Enhanced Electrification Components
- 1.2.1.5 Immersion Cooling for Electric Vehicle Batteries
- 1.2.2 Business Restraints
- 1.2.2.1 Higher Cost of Immersion Cooling Fluids for EVs
- 1.2.2.2 Developing Environment-Friendly Electric Vehicle Fluids
- 1.2.2.3 Complex Battery Chemistry and Amount of Immersion Cooling Fluid Needed
- 1.2.2.4 Changes Required to be Made in the Construction of EV Batteries
- 1.2.2.5 Lack of Knowledge About the Advantages of Immersion Cooling
- 1.2.3 Business Strategies
- 1.2.3.1 Product Development
- 1.2.3.2 Market Development
- 1.2.4 Corporate Strategies
- 1.2.4.1 Mergers and Acquisitions
- 1.2.4.2 Partnerships, Joint Ventures, Collaborations, and Alliances
- 1.2.5 Business Opportunities
- 1.2.5.1 Coolants for EV Electronics and Charging Port Cables
- 1.2.5.2 Stringent Regulations by Government Bodies for Promoting Sustainable EV Environment
- 1.2.5.3 Growing Trend for the Development of Autonomous Vehicles
- 1.3 Impact of COVID-19 on the industry
- 2 Application
- 2.1 Immersion Cooling Fluids Market for EVs – Applications and Specifications
- 2.1.1 Immersion Cooling Fluids Market for EVs (by Vehicle Type)
- 2.1.1.1 Passenger Vehicles
- 2.1.1.2 Light Commercial Vehicles
- 2.1.1.3 Heavy Commercial Vehicles
- 2.1.2 Immersion Cooling Fluids Market for EVs (by Propulsion Type)
- 2.1.2.1 Battery Electric Vehicles (BEVs)
- 2.1.2.2 Hybrid Electric Vehicles (HEVs)
- 2.1.2.3 Plug-in Hybrid Electric Vehicles (PHEVs)
- 2.1.3 Immersion Cooling Fluids Market for EVs (by Application)
- 2.1.3.1 EV Batteries
- 2.1.3.2 EV Motors
- 2.1.3.3 Power Electronics
- 2.2 Immersion Cooling Fluids Market for EVs – Demand Analysis (by Applications)
- 2.2.1 Immersion Cooling Fluids Market for EVs (by Vehicle Type), Volume and Value Data
- 2.2.1.1 Passenger Vehicles
- 2.2.1.2 Light Commercial Vehicles
- 2.2.1.3 Heavy Commercial Vehicles
- 2.2.2 Immersion Cooling Fluids Market for EVs (by Propulsion Type), Volume and Value Data
- 2.2.2.1 Battery Electric Vehicles
- 2.2.2.2 Hybrid Electric Vehicles
- 2.2.2.3 Plug-in Hybrid Electric Vehicles
- 2.2.3 Immersion Cooling Fluids Market for EVs (by Application), Volume and Value Data
- 2.2.3.1 EV Batteries
- 2.2.3.2 EV Motors
- 2.2.3.3 Power Electronics
- 3 Products
- 3.1 Immersion Cooling Fluids Market for EVs – Products and Specifications
- 3.1.1 Immersion Cooling Fluids Market for EVs (by Product Type)
- 3.1.1.1 Single-Phase Coolant
- 3.1.1.2 Two-Phase Coolant
- 3.1.2 Immersion Cooling Fluids Market for EVs (by Chemistry)
- 3.1.2.1 Mineral Oils
- 3.1.2.2 Synthetic Oils and Esters
- 3.2 Immersion Cooling Fluids Market for EVs – Demand Analysis (by Products)
- 3.2.1 Immersion Cooling Fluids Market for EVs (by Product Type), Volume and Value Data
- 3.2.1.1 Single-Phase Coolant
- 3.2.1.2 Two-Phase Coolant
- 3.2.2 Immersion Cooling Fluids Market for EVs (by Chemistry), Volume and Value Data
- 3.2.2.1 Mineral Oils
- 3.2.2.2 Synthetic Oils and Esters
- 3.3 Product Benchmarking: Growth Rate – Market Share Matrix
- 3.3.1 Opportunity Matrix (by Region)
- 3.3.2 Opportunity Matrix (by Product Type)
- 3.3.3 Opportunity Matrix (by Chemistry)
- 3.4 Global Pricing Analysis
- 3.5 Technology Roadmap
- 4 Regions
- 4.1 North America
- 4.1.1 Markets
- 4.1.1.1 Buyer Attributes
- 4.1.1.2 Key Manufacturers in North America
- 4.1.1.3 Competitive Benchmarking
- 4.1.1.4 Business Challenges
- 4.1.1.5 Business Drivers
- 4.1.2 Applications
- 4.1.2.1 North America Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.1.2.2 North America Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.1.2.3 North America Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.1.3 Products
- 4.1.3.1 North America Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.1.3.2 North America Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.1.4 North America: Country-Level Analysis
- 4.1.4.1 U.S.
- 4.1.4.1.1 Markets
- 4.1.4.1.1.1 Buyer Attributes
- 4.1.4.1.1.2 Key Manufacturers in the U.S.
- 4.1.4.1.1.3 Business Challenges
- 4.1.4.1.1.4 Business Drivers
- 4.1.4.1.2 Applications
- 4.1.4.1.2.1 U.S. Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.1.4.1.2.2 U.S. Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.1.4.1.2.3 U.S. Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.1.4.1.3 Products
- 4.1.4.1.3.1 U.S. Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.1.4.1.3.2 U.S. Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.1.4.2 Canada
- 4.1.4.2.1 Markets
- 4.1.4.2.1.1 Buyer Attributes
- 4.1.4.2.1.2 Key Manufacturers in Canada
- 4.1.4.2.1.3 Business Challenges
- 4.1.4.2.1.4 Business Drivers
- 4.1.4.2.2 Applications
- 4.1.4.2.2.1 Canada Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.1.4.2.2.2 Canada Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.1.4.2.2.3 Canada Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.1.4.2.3 Products
- 4.1.4.2.3.1 Canada Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.1.4.2.3.2 Canada Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.1.4.3 Mexico
- 4.1.4.3.1 Markets
- 4.1.4.3.1.1 Buyer Attributes
- 4.1.4.3.1.2 Key Manufacturers in Mexico
- 4.1.4.3.1.3 Business Challenges
- 4.1.4.3.1.4 Business Drivers
- 4.1.4.3.2 Applications
- 4.1.4.3.2.1 Mexico Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.1.4.3.2.2 Mexico Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.1.4.3.2.3 Mexico Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.1.4.3.3 Products
- 4.1.4.3.3.1 Mexico Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.1.4.3.3.2 Mexico Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.2 Europe
- 4.2.1 Markets
- 4.2.1.1 Buyer Attributes
- 4.2.1.2 Key Manufacturers in Europe
- 4.2.1.3 Competitive Benchmarking
- 4.2.1.4 Business Challenges
- 4.2.1.5 Business Drivers
- 4.2.2 Applications
- 4.2.2.1 Europe Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.2.2.2 Europe Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.2.2.3 Europe Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.2.3 Products
- 4.2.3.1 Europe Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.2.3.2 Europe Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.2.4 Europe: Country-Level Analysis
- 4.2.4.1 Germany
- 4.2.4.1.1 Markets
- 4.2.4.1.1.1 Buyer Attributes
- 4.2.4.1.1.2 Key Manufacturers in Germany
- 4.2.4.1.1.3 Business Challenges
- 4.2.4.1.1.4 Business Drivers
- 4.2.4.1.2 Applications
- 4.2.4.1.2.1 Germany Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.2.4.1.2.2 Germany Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.2.4.1.2.3 Germany Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.2.4.1.3 Products
- 4.2.4.1.3.1 Germany Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.2.4.1.3.2 Germany Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.2.4.2 France
- 4.2.4.2.1 Markets
- 4.2.4.2.1.1 Buyer Attributes
- 4.2.4.2.1.2 Key Manufacturers in France
- 4.2.4.2.1.3 Business Challenges
- 4.2.4.2.1.4 Business Drivers
- 4.2.4.2.2 Applications
- 4.2.4.2.2.1 France Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.2.4.2.2.2 France Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.2.4.2.2.3 France Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.2.4.2.3 Products
- 4.2.4.2.3.1 France Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.2.4.2.3.2 France Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.2.4.3 Italy
- 4.2.4.3.1 Markets
- 4.2.4.3.1.1 Buyer Attributes
- 4.2.4.3.1.2 Key Manufacturers in Italy
- 4.2.4.3.1.3 Business Challenges
- 4.2.4.3.1.4 Business Drivers
- 4.2.4.3.2 Applications
- 4.2.4.3.2.1 Italy Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.2.4.3.2.2 Italy Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.2.4.3.2.3 Italy Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.2.4.3.3 Products
- 4.2.4.3.3.1 Italy Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.2.4.3.3.2 Italy Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.2.4.4 Spain
- 4.2.4.4.1 Markets
- 4.2.4.4.1.1 Buyer Attributes
- 4.2.4.4.1.2 Key Manufacturers in Spain
- 4.2.4.4.1.3 Business Challenges
- 4.2.4.4.1.4 Business Drivers
- 4.2.4.4.2 Applications
- 4.2.4.4.2.1 Spain Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.2.4.4.2.2 Spain Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.2.4.4.2.3 Spain Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.2.4.4.3 Products
- 4.2.4.4.3.1 Spain Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.2.4.4.3.2 Spain Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.2.4.5 Rest-of-Europe
- 4.2.4.5.1 Markets
- 4.2.4.5.1.1 Buyer Attributes
- 4.2.4.5.1.2 Key Manufacturers in Rest-of-Europe
- 4.2.4.5.1.3 Business Challenges
- 4.2.4.5.1.4 Business Drivers
- 4.2.4.5.2 Applications
- 4.2.4.5.2.1 Rest-of-Europe Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.2.4.5.2.2 Rest-of-Europe Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.2.4.5.2.3 Rest-of-Europe Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.2.4.5.3 Products
- 4.2.4.5.3.1 Rest-of-Europe Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.2.4.5.3.2 Rest-of-Europe Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.3 U.K.
- 4.3.1 Markets
- 4.3.1.1 Buyer Attributes
- 4.3.1.2 Key Manufacturers in the U.K.
- 4.3.1.3 Competitive Benchmarking
- 4.3.1.4 Business Challenges
- 4.3.1.5 Business Drivers
- 4.3.2 Applications
- 4.3.2.1 U.K. Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.3.2.2 U.K. Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.3.2.3 U.K. Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.3.3 Products
- 4.3.3.1 U.K. Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.3.3.2 U.K. Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.4 China
- 4.4.1 Markets
- 4.4.1.1 Buyer Attributes
- 4.4.1.2 Key Manufacturers in China
- 4.4.1.3 Competitive Benchmarking
- 4.4.1.4 Business Challenges
- 4.4.1.5 Business Drivers
- 4.4.2 Applications
- 4.4.2.1 China Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.4.2.2 China Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.4.2.3 China Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.4.3 Products
- 4.4.3.1 China Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.4.3.2 China Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.5 Asia-Pacific and Japan
- 4.5.1 Markets
- 4.5.1.1 Buyer Attributes
- 4.5.1.2 Key Manufacturers in Asia-Pacific and Japan
- 4.5.1.3 Competitive Benchmarking
- 4.5.1.4 Business Challenges
- 4.5.1.5 Business Drivers
- 4.5.2 Applications
- 4.5.2.1 Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.5.2.2 Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.5.2.3 Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.5.3 Products
- 4.5.3.1 Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.5.3.2 Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.5.4 Asia-Pacific and Japan: Country-Level Analysis
- 4.5.4.1 Japan
- 4.5.4.1.1 Markets
- 4.5.4.1.1.1 Buyer Attributes
- 4.5.4.1.1.2 Key Manufacturers in Japan
- 4.5.4.1.1.3 Business Challenges
- 4.5.4.1.1.4 Business Drivers
- 4.5.4.1.2 Applications
- 4.5.4.1.2.1 Japan Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.5.4.1.2.2 Japan Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.5.4.1.2.3 Japan Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.5.4.1.3 Products
- 4.5.4.1.3.1 Japan Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.5.4.1.3.2 Japan Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.5.4.2 South Korea
- 4.5.4.2.1 Markets
- 4.5.4.2.1.1 Buyer Attributes
- 4.5.4.2.1.2 Key Manufacturers in South Korea
- 4.5.4.2.1.3 Business Challenges
- 4.5.4.2.1.4 Business Drivers
- 4.5.4.2.2 Applications
- 4.5.4.2.2.1 South Korea Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.5.4.2.2.2 South Korea Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.5.4.2.2.3 South Korea Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.5.4.2.3 Products
- 4.5.4.2.3.1 South Korea Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.5.4.2.3.2 South Korea Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.5.4.3 India
- 4.5.4.3.1 Markets
- 4.5.4.3.1.1 Buyer Attributes
- 4.5.4.3.1.2 Key Manufacturers in India
- 4.5.4.3.1.3 Business Challenges
- 4.5.4.3.1.4 Business Drivers
- 4.5.4.3.2 Applications
- 4.5.4.3.2.1 India Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.5.4.3.2.2 India Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.5.4.3.2.3 India Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.5.4.3.3 Products
- 4.5.4.3.3.1 India Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.5.4.3.3.2 India Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.5.4.4 Australia
- 4.5.4.4.1 Markets
- 4.5.4.4.1.1 Buyer Attributes
- 4.5.4.4.1.2 Key Manufacturers in Australia
- 4.5.4.4.1.3 Business Challenges
- 4.5.4.4.1.4 Business Drivers
- 4.5.4.4.2 Applications
- 4.5.4.4.2.1 Australia Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.5.4.4.2.2 Australia Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.5.4.4.2.3 Australia Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.5.4.4.3 Products
- 4.5.4.4.3.1 Australia Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.5.4.4.3.2 Australia Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.5.4.5 Rest-of-Asia-Pacific and Japan
- 4.5.4.5.1 Markets
- 4.5.4.5.1.1 Buyer Attributes
- 4.5.4.5.1.2 Key Manufacturers in Rest-of-Asia-Pacific and Japan
- 4.5.4.5.1.3 Business Challenges
- 4.5.4.5.1.4 Business Drivers
- 4.5.4.5.2 Applications
- 4.5.4.5.2.1 Rest-of-Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.5.4.5.2.2 Rest-of-Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.5.4.5.2.3 Rest-of-Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.5.4.5.3 Products
- 4.5.4.5.3.1 Rest-of-Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.5.4.5.3.2 Rest-of-Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 4.6 Rest-of-the-World
- 4.6.1 Markets
- 4.6.1.1 Buyer Attributes
- 4.6.1.2 Key Manufacturers in Rest-of-the-World
- 4.6.1.3 Competitive Benchmarking
- 4.6.1.4 Business Challenges
- 4.6.1.5 Business Drivers
- 4.6.2 Applications
- 4.6.2.1 Rest-of-the-World Immersion Cooling Fluids Market for EVs (by Vehicle Type), Value and Volume Data, 2021-2032
- 4.6.2.2 Rest-of-the-World Immersion Cooling Fluids Market for EVs (by Propulsion Type), Value and Volume Data, 2021-2032
- 4.6.2.3 Rest-of-the-World Immersion Cooling Fluids Market for EVs (by Application), Value and Volume Data, 2021-2032
- 4.6.3 Products
- 4.6.3.1 Rest-of-the-World Immersion Cooling Fluids Market for EVs (by Product Type), Value and Volume Data, 2021-2032
- 4.6.3.2 Rest-of-the-World Immersion Cooling Fluids Market for EVs (by Chemistry), Value and Volume Data, 2021-2032
- 5 Markets - Competitive Benchmarking & Company Profiles
- 5.1 Competitive Benchmarking
- 5.2 Market Share Analysis
- 5.3 Company Profiles
- 5.3.1 Type 1 Companies: Immersion Cooling Fluids Manufacturers
- 5.3.1.1 FUCHS
- 5.3.1.1.1 Company Overview
- 5.3.1.1.1.1 Role of FUCHS in the Immersion Cooling Fluids Market for EVs
- 5.3.1.1.1.2 Product Portfolio
- 5.3.1.1.2 Business Strategies
- 5.3.1.1.2.1 FUCHS: Product Development
- 5.3.1.1.3 Corporate Strategies
- 5.3.1.1.3.1 FUCHS: Mergers and Acquisitions
- 5.3.1.1.3.2 FUCHS: Partnerships, Joint Ventures, Collaborations, and Alliances
- 5.3.1.1.4 Production Sites and R&D Analysis
- 5.3.1.1.5 Analyst View
- 5.3.1.2 The Lubrizol Corporation
- 5.3.1.2.1 Company Overview
- 5.3.1.2.1.1 Role of The Lubrizol Corporation in the Immersion Cooling Fluids Market for EVs
- 5.3.1.2.1.2 Product Portfolio
- 5.3.1.2.2 Corporate Strategies
- 5.3.1.2.2.1 The Lubrizol Corporation: Partnerships, Joint Ventures, Collaborations, and Alliances
- 5.3.1.2.3 Production Sites and R&D Analysis
- 5.3.1.2.4 Analyst View
- 5.3.1.3 3M
- 5.3.1.3.1 Company Overview
- 5.3.1.3.1.1 Role of 3M in the Immersion Cooling Fluids Market for EVs
- 5.3.1.3.1.2 Product Portfolio
- 5.3.1.3.2 Production Sites and R&D Analysis
- 5.3.1.3.3 Analyst View
- 5.3.1.4 Castrol Limited
- 5.3.1.4.1 Company Overview
- 5.3.1.4.1.1 Role of Castrol Limited in the Immersion Cooling Fluids Market for EVs
- 5.3.1.4.1.2 Product Portfolio
- 5.3.1.4.2 Business Strategies
- 5.3.1.4.2.1 Castrol Limited: Product Development
- 5.3.1.4.3 Corporate Strategies
- 5.3.1.4.3.1 Castrol Limited: Partnerships, Joint Ventures, Collaborations, and Alliances
- 5.3.1.4.4 Production Sites and R&D Analysis
- 5.3.1.4.5 Analyst View
- 5.3.1.5 M&I Materials Ltd.
- 5.3.1.5.1 Company Overview
- 5.3.1.5.1.1 Role of M&I Materials Ltd. in the Immersion Cooling Fluids Market for EVs
- 5.3.1.5.1.2 Product Portfolio
- 5.3.1.5.2 Business Strategies
- 5.3.1.5.2.1 M&I Materials Ltd.: Product Development
- 5.3.1.5.3 Corporate Strategies
- 5.3.1.5.3.1 M&I Materials Ltd.: Partnerships, Joint Ventures, Collaborations, and Alliances
- 5.3.1.5.4 Production Sites and R&D Analysis
- 5.3.1.5.5 Analyst View
- 5.3.1.6 Engineered Fluids
- 5.3.1.6.1 Company Overview
- 5.3.1.6.1.1 Role of Engineered Fluids in the Immersion Cooling Fluids Market for EVs
- 5.3.1.6.1.2 Product Portfolio
- 5.3.1.6.2 Production Sites and R&D Analysis
- 5.3.1.6.3 Analyst View
- 5.3.1.7 Shell plc
- 5.3.1.7.1 Company Overview
- 5.3.1.7.1.1 Role of Shell plc in the Immersion Cooling Fluids Market for EVs
- 5.3.1.7.1.2 Product Portfolio
- 5.3.1.7.2 Business Strategies
- 5.3.1.7.2.1 Shell plc: Product Development
- 5.3.1.7.3 Production Sites and R&D Analysis
- 5.3.1.7.4 Analyst View
- 5.3.1.8 TotalEnergies SE
- 5.3.1.8.1 Company Overview
- 5.3.1.8.1.1 Role of TotalEnergies SE in the Immersion Cooling Fluids Market for EVs
- 5.3.1.8.1.2 Product Portfolio
- 5.3.1.8.2 Business Strategies
- 5.3.1.8.2.1 TotalEnergies SE: Product Development
- 5.3.1.8.3 Corporate Strategies
- 5.3.1.8.3.1 TotalEnergies SE: Partnerships, Joint Ventures, Collaborations, and Alliances
- 5.3.1.8.4 Production Sites and R&D Analysis
- 5.3.1.8.5 Analyst View
- 5.3.1.9 Cargill, Incorporated
- 5.3.1.9.1 Company Overview
- 5.3.1.9.1.1 Role of Cargill, Incorporated in the Immersion Cooling Fluids Market for EVs
- 5.3.1.9.1.2 Product Portfolio
- 5.3.1.9.2 Business Strategies
- 5.3.1.9.2.1 Cargill, Incorporated: Product Development
- 5.3.1.9.3 Production Sites and R&D Analysis
- 5.3.1.9.4 Analyst View
- 5.3.1.10 DOBER
- 5.3.1.10.1 Company Overview
- 5.3.1.10.1.1 Role of DOBER in the Immersion Cooling Fluids Market for EVs
- 5.3.1.10.1.2 Product Portfolio
- 5.3.1.10.2 Production Sites and R&D Analysis
- 5.3.1.10.3 Analyst View
- 5.3.1.11 LANXESS
- 5.3.1.11.1 Company Overview
- 5.3.1.11.1.1 Role of LANXESS in the Immersion Cooling Fluids Market for EVs
- 5.3.1.11.1.2 Product Portfolio
- 5.3.1.11.2 Production Sites and R&D Analysis
- 5.3.1.11.3 Analyst View
- 5.3.2 Type 2 Companies: Immersion Cooling System Providers
- 5.3.2.1 XING Mobility
- 5.3.2.1.1 Company Overview
- 5.3.2.1.1.1 Role of XING Mobility in the Immersion Cooling Fluids Market for EVs
- 5.3.2.1.1.2 Product Portfolio
- 5.3.2.1.2 Business Strategies
- 5.3.2.1.2.1 XING Mobility: Product Development
- 5.3.2.1.3 Corporate Strategies
- 5.3.2.1.3.1 XING Mobility: Partnerships, Joint Ventures, Collaborations, and Alliances
- 5.3.2.1.4 Analyst View
- 5.3.2.2 MAHLE GmbH
- 5.3.2.2.1 Company Overview
- 5.3.2.2.1.1 Role of MAHLE GmbH in the Immersion Cooling Fluids Market for EVs
- 5.3.2.2.1.2 Product Portfolio
- 5.3.2.2.2 Business Strategies
- 5.3.2.2.2.1 MAHLE GmbH: Product Development
- 5.3.2.2.3 Production Sites and R&D Analysis
- 5.3.2.2.4 Analyst View
- 5.3.2.3 Kreisel Electric
- 5.3.2.3.1 Company Overview
- 5.3.2.3.1.1 Role of Kreisel Electric in the Immersion Cooling Fluids Market for EVs
- 5.3.2.3.1.2 Product Portfolio
- 5.3.2.3.2 Business Strategies
- 5.3.2.3.2.1 Kreisel Electric: Market Development
- 5.3.2.3.3 Corporate Strategies
- 5.3.2.3.3.1 Kreisel Electric: Mergers and Acquisitions
- 5.3.2.3.3.2 Kreisel Electric: Partnerships, Joint Ventures, Collaborations, and Alliances
- 5.3.2.3.4 Analyst View
- 5.3.2.4 E-MERSIV
- 5.3.2.4.1 Company Overview
- 5.3.2.4.1.1 Role of E-MERSIV in the Immersion Cooling Fluids Market for EVs
- 5.3.2.4.1.2 Product Portfolio
- 5.3.2.4.2 Analyst View
- 5.3.3 Other Key Companies
- 5.4 Customer Outlook: Electric Vehicle Manufacturers
- 5.4.1 Tesla Inc.
- 5.4.1.1 Company Overview
- 5.4.1.2 Electric Vehicle Production
- 5.4.1.3 Product Overview
- 5.4.2 Volkswagen AG
- 5.4.2.1 Company Overview
- 5.4.2.2 Electric Vehicle Production
- 5.4.2.3 Product Overview
- 5.4.3 SAIC Motors
- 5.4.3.1 Company Overview
- 5.4.3.2 Electric Vehicle Production
- 5.4.3.3 Product Overview
- 5.4.4 BYD Co. Ltd.
- 5.4.4.1 Company Overview
- 5.4.4.2 Electric Vehicle Production
- 5.4.4.3 Product Overview
- 5.4.5 Stellantis N.V.
- 5.4.5.1 Company Overview
- 5.4.5.2 Electric Vehicle Production
- 5.4.5.3 Product Overview
- 5.4.6 General Motors
- 5.4.6.1 Company Overview
- 5.4.6.2 Electric Vehicle Production
- 5.4.6.3 Product Overview
- 5.4.7 Ford Motor Company
- 5.4.7.1 Company Overview
- 5.4.7.2 Electric Vehicle Production
- 5.4.7.3 Product Overview
- 5.4.8 Hyundai Motor Company
- 5.4.8.1 Company Overview
- 5.4.8.2 Electric Vehicle Production
- 5.4.8.3 Product Overview
- 5.4.9 Honda Motor Co., Ltd.
- 5.4.9.1 Company Overview
- 5.4.9.2 Electric Vehicle Production
- 5.4.9.3 Product Overview
- 5.4.10 Groupe Renault
- 5.4.10.1 Company Overview
- 5.4.10.2 Electric Vehicle Production
- 5.4.10.3 Product Overview
- 5.4.11 Toyota Motor Corporation
- 5.4.11.1 Company Overview
- 5.4.11.2 Electric Vehicle Production
- 5.4.11.3 Product Overview
- 5.4.12 Bayerische Motoren Werke AG
- 5.4.12.1 Company Overview
- 5.4.12.2 Electric Vehicle Production
- 5.4.12.3 Product Overview
- 6 Research Methodology
- 6.1 Data Sources
- 6.1.1 Primary Data Sources
- 6.1.2 Secondary Data Sources
- 6.2 Data Triangulation
- 6.3 Market Estimation and Forecast
- 6.3.1 Factors for Data Prediction and Modeling
- List of Figures
- Figure 1: Immersion Cooling Fluids Market for EVs Overview, Million Liters, 2021-2032
- Figure 2: Immersion Cooling Fluids Market for EVs (by Vehicle Type), Million Liters, 2021-2032
- Figure 3: Immersion Cooling Fluids Market for EVs (by Propulsion Type), Million Liters, 2021-2032
- Figure 4: Immersion Cooling Fluids Market for EVs (by Application), Million Liters, 2022, 2026, and 2032
- Figure 5: Immersion Cooling Fluids Market for EVs (by Product Type), Million Liters, 2021-2032
- Figure 6: Immersion Cooling Fluids Market for EVs (by Chemistry), Million Liters, 2021-2032
- Figure 7: Immersion Cooling Fluids Market for EVs (by Region), Value, $Million, 2021
- Figure 8: Immersion Cooling Fluids Market for EVs: Coverage
- Figure 9: Electric Vehicle Trends: Current and Future
- Figure 10: Immersion Cooling Fluids Market for EVs Supply Chain Analysis
- Figure 11: Stakeholders in Immersion Cooling Fluids Market for EVs
- Figure 12: Base Oil Groups for Immersion Cooling Fluid
- Figure 13: Business Dynamics for Immersion Cooling Fluids Market for EVs
- Figure 14: Driving Range of Various Electric Vehicles
- Figure 15: Components in an EV Battery
- Figure 16: Key Business Strategies, 2020-2022
- Figure 17: Product Development (by Company), 2020-2022
- Figure 18: Key Corporate Strategies, 2020-2022
- Figure 19: Partnerships, Joint Ventures, Collaborations, and Alliances (by Company), 2020-2022
- Figure 20: Coolants in EV Charging Cables
- Figure 21: Timeline for Autonomous Vehicles
- Figure 22: Immersion Cooling Fluids Market for EVs (by Vehicle Type)
- Figure 23: Immersion Cooling Fluids Market for EVs (by Propulsion Type)
- Figure 24: Component Structures for HEVs, PHEVs, and BEVs
- Figure 25: Immersion Cooling Fluids Market for EVs (by Application)
- Figure 26: Immersion Cooling Fluids Market for EVs (Passenger Vehicles), $Million and Million Liters, 2021-2032
- Figure 27: Immersion Cooling Fluids Market for EVs (Light Commercial Vehicles), $Million and Million Liters, 2021-2032
- Figure 28: Immersion Cooling Fluids Market for EVs (Heavy Commercial Vehicles), $Million and Million Liters, 2021-2032
- Figure 29: Immersion Cooling Fluids Market for EVs (Battery Electric Vehicles), $Million and Million Liters, 2021-2032
- Figure 30: Immersion Cooling Fluids Market for EVs (Hybrid Electric Vehicles), $Million and Million Liters, 2021-2032
- Figure 31: Immersion Cooling Fluids Market for EVs (Plug-in Hybrid Electric Vehicles), $Million and Million Liters, 2021-2032
- Figure 32: Immersion Cooling Fluids Market for EVs (EV Batteries), $Million and Million Liters, 2021-2032
- Figure 33: Immersion Cooling Fluids Market for EVs (EV Motors), $Million and Million Liters, 2021-2032
- Figure 34: Immersion Cooling Fluids Market for EVs (Power Electronics), $Million and Million Liters, 2021-2032
- Figure 35: Immersion Cooling Fluids Market for EVs (by Product Type)
- Figure 36: Immersion Cooling Fluids Market for EVs (by Chemistry)
- Figure 37: Immersion Cooling Fluids Market for EVs (Single-Phase Coolant), $Million and Million Liters, 2021-2032
- Figure 38: Immersion Cooling Fluids Market for EVs (Two-Phase Coolant), $Million and Million Liters, 2021-2032
- Figure 39: Immersion Cooling Fluids Market for EVs (Mineral Oils), $Million and Million Liters, 2021-2032
- Figure 40: Immersion Cooling Fluids Market for EVs (Synthetic Oils and Esters), $Million and Million Liters, 2021-2032
- Figure 41: Immersion Cooling Fluids Market for EVs Opportunity Matrix (by Region), $Million
- Figure 42: Immersion Cooling Fluids Market for EVs Opportunity Matrix (by Product Type), $Million
- Figure 43: Immersion Cooling Fluids Market for EVs Opportunity Matrix (by Chemistry), $Million
- Figure 44: Global Pricing Analysis (by Product Type), $USD/Liter, 2021-2032
- Figure 45: Technology Roadmap for Electric Vehicles
- Figure 46: Competitive Benchmarking in North America, 2021
- Figure 47: North America Immersion Cooling Fluids Market for EVs, $Million and Million Liters, 2021-2032
- Figure 48: Competitive Benchmarking in Europe, 2021
- Figure 49: Europe Immersion Cooling Fluids Market for EVs, $Million and Million Liters, 2021-2032
- Figure 50: Competitive Benchmarking in U.K., 2021
- Figure 51: U.K. Immersion Cooling Fluids Market for EVs, $Million and Million Liters, 2021-2032
- Figure 52: Competitive Benchmarking in China, 2021
- Figure 53: China Immersion Cooling Fluids Market for EVs, $Million and Thousand Liters, 2021-2032
- Figure 54: Competitive Benchmarking in Asia-Pacific and Japan, 2021
- Figure 55: Asia-Pacific and Japan Immersion Cooling Fluids Market for EVs, $Million and Thousand Liters, 2021-2032
- Figure 56: Competitive Benchmarking in Rest-of-the-World, 2021
- Figure 57: Rest-of-the-World Immersion Cooling Fluids Market for EVs, $Thousand and Thousand Liters, 2021-2032
- Figure 58: Competitive Benchmarking, 2021
- Figure 59: FUCHS: R&D Expenditure, $Million, 2019-2021
- Figure 60: 3M: R&D Expenditure, $Billion, 2019-2021
- Figure 61: Shell plc: R&D Expenditure, $Million, 2019-2021
- Figure 62: TotalEnergies SE: R&D Expenditure, $Million, 2019-2021
- Figure 63: LANXESS: R&D Expenditure, $Million, 2019-2021
- Figure 64: MAHLE GmbH: R&D Expenditure, $Million, 2019-2021
- Figure 65: Electric Vehicle Production: Tesla Inc., 2019-2021
- Figure 66: Electric Vehicle Production: Volkswagen AG, 2019-2021
- Figure 67: Electric Vehicle Production: SAIC Motors, 2019-2021
- Figure 68: Electric Vehicle Production: BYD Co. Ltd., 2019-2021
- Figure 69: Electric Vehicle Production: Stellantis N.V., 2019-2021
- Figure 70: Electric Vehicle Production: General Motors, 2019-2021
- Figure 71: Electric Vehicle Production: Ford Motor Company, 2019-2021
- Figure 72: Electric Vehicle Production: Hyundai Motor Company, 2019-2021
- Figure 73: Electric Vehicle Production: Honda Motor Co., Ltd., 2019-2021
- Figure 74: Electric Vehicle Production: Groupe Renault, 2019-2021
- Figure 75: Electric Vehicle Production: Toyota Motor Corporation, 2019-2021
- Figure 76: Electric Vehicle Production: Bayerische Motoren Werke AG, 2019-2021
- Figure 77: Research Methodology
- Figure 78: Data Triangulation
- Figure 79: Top-Down and Bottom-Up Approach
- Figure 80: Assumptions and Limitations
- List of Tables
- Table 1: Immersion Cooling Fluids Market for EVs Overview
- Table 2: Need to Use Immersion Cooling Technology
- Table 3: Comparative Analysis: Liquid Cooling Vs. Immersion Cooling
- Table 4: Government Initiatives for Electric Vehicles
- Table 5: Programs by Research Institutions and Universities
- Table 6: Key Patent Mapping for Immersion Colling Fluids Market for EVs
- Table 7: Key Initiatives by C
- 1 Markets
- 1.1 Industry Outlook
- 1.1.1 Non-Destructive Testing Services in Aerospace and Defense: Overview
- 1.1.2 Non-Destructive Testing Services in Aerospace Manufacturing and Maintenance
- 1.1.2.1 Aviation
- 1.1.2.2 Space
- 1.1.3 Non-Destructive Testing Services in Defense Manufacturing and Maintenance
- 1.1.4 Evolving Technological Trends and Disruptions in Non-destructive Testing
- 1.1.4.1 Computed Tomography (CT) for 3D Reconstruction of the Test Parts
- 1.1.4.2 Integration of IoT and Cloud-Based Services
- 1.1.4.3 Drone-Based Enabled NDT Inspection
- 1.1.5 Evolving End-User Requirements for Non-Destructive Testing
- 1.2 Business Dynamics
- 1.2.1 Business Drivers
- 1.2.1.1 Easy Integration with the Manufacturing Process
- 1.2.1.2 Increase in Demand to Maintain High Standards
- 1.2.2 Business Challenges
- 1.2.2.1 Limitations in Testing Large and Complex Structures
- 1.2.2.2 Unskilled Labor for the NDT Industry 4.0
- 1.2.3 Business Strategies
- 1.2.3.1 New Product Launches
- 1.2.4 Corporate Strategies
- 1.2.4.1 Partnerships, Collaborations, Agreements, and Contracts
- 1.2.4.2 Mergers and Acquisitions
- 1.2.5 Business Opportunities
- 1.2.5.1 Upcoming Demand for Satellite Constellation to Cater NewSpace Ecosystem
- 1.2.5.2 Technological Advancements in NDT Inspections
- 2 Service
- 2.1 Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 2.1.1 Market Overview
- 2.1.1.1 Demand Analysis for Global Non-destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), Value Data
- 2.1.2 Ultrasonic Testing
- 2.1.3 Radiographic Testing
- 2.1.4 Eddy Current Testing
- 2.1.5 Magnetic Particle Testing
- 2.1.6 Penetrant Testing
- 2.1.7 Visual Testing
- 2.1.8 Leak Detection Testing
- 2.1.9 Acoustic Emission Testing
- 2.1.10 Shearography
- 2.1.11 Thermography
- 2.2 Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by End User)
- 2.2.1 Market Overview
- 2.2.1.1 Demand Analysis for Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by End User), Value Data
- 2.2.2 Aviation
- 2.2.2.1 Aircraft Manufacturing
- 2.2.2.2 Aircraft Maintenance
- 2.2.1 Space
- 2.2.1.1 Manufacturing
- 2.2.1.2 Infrastructure Maintenance
- 2.2.2 Defense
- 2.2.2.1 Manufacturing
- 2.2.2.2 Maintenance
- 3 Region
- 3.1 Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Region)
- 3.2 North America
- 3.2.1 Market
- 3.2.1.1 Key Service Providers in North America
- 3.2.1.2 Business Drivers
- 3.2.1.3 Business Challenges
- 3.2.2 Service
- 3.2.2.1 North America Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.2.3 North America (by Country)
- 3.2.3.1 U.S.
- 3.2.3.1.1 Market
- 3.2.3.1.1.1 Key Service Providers in the U.S.
- 3.2.3.1.2 Service
- 3.2.3.1.2.1 U.S. Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.2.3.2 Canada
- 3.2.3.2.1 Market
- 3.2.3.2.1.1 Key Service Providers in Canada
- 3.2.3.2.2 Service
- 3.2.3.2.2.1 Canada Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.3 Europe
- 3.3.1 Market
- 3.3.1.1 Key Service Providers in Europe
- 3.3.1.2 Business Drivers
- 3.3.1.3 Business Challenges
- 3.3.2 Service
- 3.3.2.1 Europe Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.3.3 Europe (by Country)
- 3.3.3.1 Germany
- 3.3.3.1.1 Market
- 3.3.3.1.1.1 Key Service Providers in Germany
- 3.3.3.1.2 Service
- 3.3.3.1.2.1 Germany Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.3.3.2 U.K.
- 3.3.3.2.1 Market
- 3.3.3.2.1.1 Key Service Providers in the U.K.
- 3.3.3.2.2 Service
- 3.3.3.2.2.1 U.K. Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.3.3.3 France
- 3.3.3.3.1 Market
- 3.3.3.3.1.1 Key Service Providers in France
- 3.3.3.3.2 Service
- 3.3.3.3.2.1 France Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.3.3.4 Spain
- 3.3.3.4.1 Market
- 3.3.3.4.1.1 Key Service Providers in Spain
- 3.3.3.4.2 Service
- 3.3.3.4.2.1 Spain Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Payload Capacity)
- 3.3.3.5 Rest-of-Europe
- 3.3.3.5.1 Market
- 3.3.3.5.1.1.1 Key Service Providers in Rest-of-Europe
- 3.3.3.5.2 Service
- 3.3.3.5.2.1 Rest-of-Europe Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.4 Asia-Pacific
- 3.4.1 Market
- 3.4.1.1 Key Service Providers in Asia-Pacific
- 3.4.1.2 Business Drivers
- 3.4.1.3 Business Challenges
- 3.4.2 Service
- 3.4.2.1 Asia-Pacific Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.4.3 Asia-Pacific (by Country)
- 3.4.3.1 China
- 3.4.3.1.1 Market
- 3.4.3.1.1.1 Key Service Providers in China
- 3.4.3.1.2 Service
- 3.4.3.1.2.1 China Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.4.3.2 Japan
- 3.4.3.2.1 Market
- 3.4.3.2.1.1 Key Service Providers in Japan
- 3.4.3.2.2 Service
- 3.4.3.2.2.1 Japan Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.4.3.3 India
- 3.4.3.3.1 Market
- 3.4.3.3.1.1 Key Service Providers in India
- 3.4.3.3.2 Service
- 3.4.3.3.2.1 India Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.4.3.4 Rest-of-Asia-Pacific
- 3.4.3.4.1 Market
- 3.4.3.4.1.1 Key Service Providers in Rest-of-Asia-Pacific
- 3.4.3.4.2 Service
- 3.4.3.4.2.1 Rest-of-Asia-Pacific Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.5 Rest-of-the-World
- 3.5.1 Market
- 3.5.1.1 Key Service Providers in Rest-of-the-World
- 3.5.1.2 Business Drivers
- 3.5.1.3 Business Challenges
- 3.5.2 Service
- 3.5.2.1 Rest-of-the-World Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.5.3 Rest-of-the-World (by Country)
- 3.5.3.1 Middle East and Africa
- 3.5.3.1.1 Market
- 3.5.3.1.1.1 Key Service Providers in the Middle East and Africa
- 3.5.3.1.2 Service
- 3.5.3.1.2.1 Middle East and Africa Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 3.5.3.2 Latin America
- 3.5.3.2.1 Market
- 3.5.3.2.1.1 Key Service Providers in Latin America
- 3.5.3.2.2 Service
- 3.5.3.2.2.1 Latin America Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type)
- 4 Markets – Competitive Benchmarking & Company Profiles
- 4.1 Market Share Analysis
- 4.2 Acuren
- 4.2.1 Company Overview
- 4.2.1.1 Role of Acuren in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.2.1.2 Service Portfolio
- 4.2.2 Corporate Strategies
- 4.2.2.1 Mergers and Acquisitions
- 4.2.3 Analyst View
- 4.3 Applus Services, S.A.
- 4.3.1 Company Overview
- 4.3.1.1 Role of Applus Services, S.A. in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.3.1.2 Service Portfolio
- 4.3.2 Corporate Strategies
- 4.3.2.1 Partnerships, Collaborations, Agreements, Investments, and Contracts
- 4.3.2.2 Mergers and Acquisitions
- 4.3.3 Analyst View
- 4.4 CvdTek, Inc
- 4.4.1 Company Overview
- 4.4.1.1 Role of CvdTek, Inc in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.4.1.2 Service Portfolio
- 4.4.2 Analyst View
- 4.5 Element Materials Technology
- 4.5.1 Company Overview
- 4.5.1.1 Role of Element Materials Technology in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.5.1.2 Service Portfolio
- 4.5.2 Corporate Strategies
- 4.5.2.1 Mergers and Acquisitions
- 4.5.3 Analyst View
- 4.6 FORCE Technology
- 4.6.1 Company Overview
- 4.6.1.1 Role of FORCE Technology in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.6.1.2 Service Portfolio
- 4.6.2 Corporate Strategies
- 4.6.2.1 Partnerships, Collaborations, Agreements, Investments, and Contracts
- 4.6.3 Analyst View
- 4.7 Intertek Group plc
- 4.7.1 Company Overview
- 4.7.1.1 Role of Intertek Group plc in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.7.1.2 Service Portfolio
- 4.7.2 R&D Analysis
- 4.7.3 Analyst View
- 4.8 Lynx Inspection Inc.
- 4.8.1 Company Overview
- 4.8.1.1 Role of Lynx Inspection Inc. in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.8.1.2 Service Portfolio
- 4.8.2 Corporate Strategies
- 4.8.2.1 Partnerships, Collaborations, Agreements, Investments, and Contracts
- 4.8.3 Analyst View
- 4.9 L3Harris Technologies, Inc.
- 4.9.1 Company Overview
- 4.9.1.1 Role of L3Harris Technologies, Inc. in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.9.1.2 Service Portfolio
- 4.9.2 R&D Analysis
- 4.9.3 Analyst View
- 4.1 Magnetic Inspection Laboratory, Inc.
- 4.10.1 Company Overview
- 4.10.1.1 Role of Magnetic Inspection Laboratory, Inc. in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.10.1.2 Service Portfolio
- 4.10.2 Analyst View
- 4.11 MISTRAS Group
- 4.11.1 Company Overview
- 4.11.1.1 Role of MISTRAS Group in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.11.1.2 Service Portfolio
- 4.11.2 Business Strategies
- 4.11.2.1 New Product Launches
- 4.11.3 R&D Analysis
- 4.11.4 Analyst View
- 4.12 QC Laboratories, Inc.
- 4.12.1 Company Overview
- 4.12.1.1 Role of QC Laboratories, Inc. in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.12.1.2 Service Portfolio
- 4.12.2 Analyst View
- 4.13 SGS Société Générale de Surveillance SA
- 4.13.1 Company Overview
- 4.13.1.1 Role of SGS Société Générale de Surveillance SA in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.13.1.2 Service Portfolio
- 4.13.2 Corporate Strategies
- 4.13.2.1 Mergers and Acquisitions
- 4.13.3 R&D Analysis
- 4.13.4 Analyst View
- 4.14 TEAM Inc.
- 4.14.1 Company Overview
- 4.14.1.1 Role of TEAM Inc. in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.14.1.2 Service Portfolio
- 4.14.2 Analyst View
- 4.15 Testia
- 4.15.1 Company Overview
- 4.15.1.1 Role of Testia in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.15.1.2 Service Portfolio
- 4.15.2 Corporate Strategies
- 4.15.2.1 Partnerships, Collaborations, Agreements, Investments, and Contracts
- 4.15.3 Analyst View
- 4.16 TWI Ltd.
- 4.16.1 Company Overview
- 4.16.1.1 Role of TWI Ltd. in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.16.1.2 Service Portfolio
- 4.16.2 Corporate Strategies
- 4.16.2.1 Partnerships, Collaborations, Agreements, Investments, and Contracts
- 4.16.3 Analyst View
- 4.17 Waygate Technologies
- 4.17.1 Company Overview
- 4.17.1.1 Role of Waygate Technologies in the Non-Destructive Testing (NDT) Services in Aerospace and Defense Market
- 4.17.1.2 Service Portfolio
- 4.17.2 Business Strategies
- 4.17.2.1 New Product Launches
- 4.17.3 R&D Analysis
- 4.17.4 Analyst View
- 4.18 Other Key Players
- 4.18.1 ZEISS Group
- 4.18.1.1 Company Overview
- 4.18.2 TÜV Rheinland
- 4.18.2.1 Company Overview
- 4.18.3 Applied Technical Services, LLC
- 4.18.3.1 Company Overview
- 5 Growth Opportunities and Recommendation
- 5.1 Growth Opportunities
- 5.1.1 Growth Opportunity: Increasing Need for Digital Storage and Sharing of Data
- 5.1.1.1 Recommendations
- 5.1.2 Growth Opportunity: Vertical Integration of Testing in the Space Industry
- 5.1.2.1 Recommendations
- 6 Research Methodology
- 6.1 Factors for Data Prediction and Modeling
- List of Figures
- Figure 1: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market, $Million, 2022-2033
- Figure 2: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022 and 2033
- Figure 3: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by End User), $Million, 2022 and 2033
- Figure 4: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Region), $Million, 2023
- Figure 5: Non-Destructive Testing (NDT) Services in Aerospace and Defense Market Coverage
- Figure 6: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market, Business Dynamics
- Figure 7: Share of Key Market Strategies and Developments, January 2020- January 2023
- Figure 8: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by End User)
- Figure 9: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Share (by Company), $Million, 2023
- Figure 10: Intertek Group plc: R&D Analysis, $Million, 2019-2021
- Figure 11: L3Harris Technologies, Inc.: R&D Analysis, $Million, 2020-2021
- Figure 12: MISTRAS Group: R&D Analysis, $Million, 2019-2021
- Figure 13: SGS Société Générale de Surveillance SA: R&D Analysis, $Million, 2020-2021
- Figure 14: Waygate Technologies: R&D Analysis, $Million, 2019-2021
- Figure 15: Research Methodology
- Figure 16: Top-Down Approach
- Figure 17: Assumptions and Limitations
- List of Tables
- Table 1: New Product Launches (by Company), January 2020-January 2023
- Table 2: Partnerships, Collaborations, Agreements, and Contracts, January 2020-January 2023
- Table 3: Mergers and Acquisitions, January 2020-January 2023
- Table 4: Global Non-destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 5: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by End User), $Million, 2022-2033
- Table 6: Global Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Region), $Million, 2022-2033
- Table 7: North America Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 8: U.S. Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 9: Canada Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 10: Europe Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 11: Germany Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 12: U.K. Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 13: France Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 14: Spain Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Payload Capacity), $Million, 2022-2033
- Table 15: Rest-of-Europe Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 16: Asia-Pacific Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 17: China Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 18: Japan Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 19: India Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 20: Rest-of-Asia-Pacific Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 21: Rest-of-the-world Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 22: Middle East and Africa Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 23: Latin America Non-Destructive Testing (NDT) Services in Aerospace and Defense Market (by Type), $Million, 2022-2033
- Table 24: Acuren: Service Portfolio
- Table 25: Acuren: Mergers and Acquisitions
- Table 26: Applus Services, S.A.: Service Portfolio
- Table 27: Applus Services, S.A.: Partnerships, Collaborations, Agreements, Investments, and Contracts
- Table 28: Applus Services, S.A.: Mergers and Acquisitions
- Table 29: CvdTek, Inc: Service Portfolio
- Table 30: Element Materials Technology: Service Portfolio
- Table 31: Element Materials Technology: Mergers and Acquisitions
- Table 32: FORCE Technology: Service Portfolio
- Table 33: FORCE Technology: Partnerships, Collaborations, Agreements, Investments, and Contracts
- Table 34: Intertek Group plc: Service Portfolio
- Table 35: Lynx Inspection Inc.: Product Portfolio
- Table 36: Lynx Inspection Inc.: Partnerships, Collaborations, Agreements, Investments, and Contracts
- Table 37: L3Harris Technologies, Inc.: Service Portfolio
- Table 38: Magnetic Inspection Laboratory, Inc.: Service Portfolio
- Table 39: MISTRAS Group: Service Portfolio
- Table 40: MISTRAS Group: New Product Launches
- Table 41: QC Laboratories, Inc.: Service Portfolio
- Table 42: SGS Société Générale de Surveillance SA: Service Portfolio
- Table 43: SGS Société Générale de Surveillance SA: Mergers and Acquisitions
- Table 44: TEAM Inc.: Service Portfolio
- Table 45: Testia: Service Portfolio
- Table 46: Testia: Partnerships, Collaborations, Agreements, Investments, and Contracts
- Table 47: TWI Ltd.: Service Portfolio
- Table 48: TWI Ltd.: Partnerships, Collaborations, Agreements, Investments, and Contracts
- Table 49: Waygate Technologies: Service Portfolio
- Table 50: Waygate Technologies: New Product Launches
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