EV Battery Housing Market Synopsis

EV Battery Housing Market Size Was Valued at USD 11.73 Billion in 2023 and is Projected to Reach USD 28.11 Billion by 2032, Growing at a CAGR of 10.2% From 2024-2032.

Battery housing EV is defined as the chassis that surrounds the battery pack within the electric vehicle (EV) and offers the required physical protection, thermal abatement and stiffening. This housing plays a critical role because it shields the battery cells from conditions/products/vapors that can harm the battery cells, or from effects of thermal event, ultimately keeps the battery safe and healthy. 

• These include aluminum, steel or composites, depending on the specified weight requirements and other factors, the housing must be lightweight in order to be agile but it must also be strong enough to provide the necessary structure to the vehicle.
• Apart from protection, EV battery housing design may also include provisions for thermal management systems like cooling passageways or heat dissipaters to regulate battery temperature and output. They typically have spaces for wires, sensors, and battery control circuitry and all of them must be properly secured and closely placed to work in harmony.
• The structure and the material for battery housing have a direct impact on system effectiveness safety, and stability of electric vehicles; it is the aspect where automotive industry invest in innovation and development.

EV Battery Housing Market Trend Analysis

Increasing Adoption of Lightweight Materials

• The ever increasing focus on developing EV battery housing with lightweight materials can be attributed to the need to increase operational efficiency and performance of the vehicle. Stemming from advanced lightweight metals, some of the most preferred materials today instead of conventional steel are aluminum, carbon fiber, and more in addition to other advanced composite products. Thus, with thinner battery houses, the energy/distance and energy/acceleration ratios of electric vehicles could be improved by minimizing the weight of both the battery and vehicle.
• Another aspect related to weight reduction is that it helps minimize the power consumed by a device; this is beneficial in terms of maximizing the battery life of the device and minimizing the frequency of recharges. Therefore, the usage of these components aims at the achievement of increased efficiency in electric vehicles through weight reduction, which is a goal shared by the electric vehicle industry.
• Furthermore, In the EV battery housing, the incorporation of lightweight material is also another key benefit that helps to overcome safety and thermal management issues. The above materials can be formulated to offer high mechanical strength and impact toughness to safeguard battery cells in the occurrence of shocks. Furthermore, in concern to thermal properties, advanced composites and aluminum possess higher coefficient of thermal conductivity than the other form of materials that is useful in handling the heat and keeping battery temperatures at optimum level.
• This makes the battery system more safe as well as reliable. Therefore, the continuous process of innovating new materials for vehicles, particularly for lightweight one, is crucial in enhancing the capacity and performance of electric vehicles to level with or outcompete other traditional gasoline engine vehicles in the market for all concerned stakeholders, and the world in a phased transition to green vehicles.

Development of New Materials

• EV battery housing is growing to be a focal area in the view of a range of concerns that centres on new materials, weight, and safety. They include high-strength aluminum alloys, magnesium, for new structure materials, and novel composites for new electric vehicle weight reducing requirements.
• These materials not only lighter the battery housing in total, thus enhancing automobile performance and its range, but offer superior mechanical strength and resistance to shocks. In the race for supremacy of EV manufacturers working on optimizing almost every facet of their designs, the use of these new age materials is a godsend because of their inherent properties that enhance battery system durability, safety and efficiency.
• Furthermore, this research also provides the potential for new ways of improving thermal conditioning with the battery casing through exploring new types of materials. It is seen that usage of certain new materials offers enhanced heat conduction so as to enable battery cells remain within required temperature limits. This is important for battery health and also avoids the possibility of burst batteries. Thus, the advancement in material sciences in terms of design lightweight yet exhibiting high thermal and mechanical shock operation can mean better integrated and compact construction of battery housing.
• This can minimizes the necessity for space for other components or even the comfort of passengers, which can increase the versatility and aesthetic value of electric vehicles. As a result, the booster for the developments of the new products in the EV battery housing market heavily relies on the growth of the material science, which provides a series of advantages and opportunities for the manufacturers and consumers.

EV Battery Housing Market Segment Analysis:

EV Battery Housing Market is segmented based on Vehicle Type, and Materials.

By Vehicle Type, Passenger Car is expected to dominate the market during the forecast period

• In the EV battery housing market, the passenger car segment currently dominates. This dominance is primarily driven by the rapid growth in consumer demand for electric passenger vehicles, spurred by increasing environmental awareness, supportive government policies, and advancements in EV technology.
• Major automotive manufacturers are heavily investing in electric passenger cars, resulting in a wide range of models with varying price points and features. As these vehicles become more affordable and practical for everyday use, the market for battery housings tailored to passenger cars expands accordingly. This segment benefits from high production volumes and continuous innovation, aimed at enhancing efficiency, safety, and performance of battery systems.
• On the other hand, the commercial vehicle segment, while growing, is still in a developmental phase compared to the passenger car segment. Commercial EVs, such as electric trucks, buses, and delivery vans, are gradually gaining traction due to their potential for reducing operational costs and emissions in logistics and public transport. However, the adoption rate is slower, partly due to the higher initial costs and the need for robust infrastructure to support their widespread use.
• Despite this, the commercial vehicle segment presents significant future growth opportunities for the EV battery housing market as more businesses and municipalities transition to electric fleets. The unique requirements of commercial EVs, such as larger battery capacities and enhanced durability, are driving specialized developments in battery housing solutions, which will become increasingly important as this segment expand.

By Materials, Aluminium segment held the largest share 

• In the EV battery housing market, the aluminum segment is currently the dominant material. Aluminum is highly favored due to its excellent strength-to-weight ratio, which allows for robust protection of battery cells while minimizing the overall weight of the vehicle. This reduction in weight is crucial for enhancing the efficiency and range of electric vehicles.
• Additionally, aluminum offers good thermal conductivity, which aids in effective heat dissipation and thermal management of the battery pack, ensuring optimal performance and safety. The widespread availability and established manufacturing processes for aluminum also contribute to its dominance, making it a cost-effective choice for large-scale production.
• While steel is still used in some applications due to its high strength and lower cost, it is less preferred for EV battery housings because it adds significant weight, which can negatively impact vehicle performance and efficiency. The "Others" category, which includes advanced materials like carbon fiber and carbon glass composites, represents a growing but currently smaller segment of the market.
• These materials offer superior lightweight properties and exceptional strength, but their higher costs and complex manufacturing requirements limit their use primarily to high-end or performance-oriented electric vehicles. As technology and production techniques evolve, the adoption of these advanced materials may increase, but for now, aluminum remains the dominant material in the EV battery housing market.

EV Battery Housing Market Regional Insights:

North America is Expected to Dominate the Market Over the Forecast Period

• The EV battery housing market is particularly high in the Asia-Pacific area mainly because this region has the highest production rates of electric vehicles and batteries. China and Japan, and also South Korea to some extent are currently among the largest and technologically most advanced producers of EVs and batteries globally.
• China is among the leading electric vehicle markets that has increased its investment significantly in electric vehicles technology, charging infrastructure, and manufacturing capabilities due to favorable government policies, incentives, and environmental measures such as actions toward pollution control in cities. Such a large industrial ecosystem helps the region attain factors of production optimization economies such as lower production costs and faster cycle innovation making Asia-Pacific theBattery housing’ production main hub.
• In addition, the Asia-Pacific region enjoys a strong supply chain for the materials that are used with batteries especially in holding compartments like aluminum and advanced composites. Combined with superior manufacturing technologies and qualified human capital, they give a bonus in cost control due to access to the raw materials.
• In this regard, it would also important to point out that the automotive and material science industries in the region are among the most research intensive, which means that truly innovative solutions for battery housing developments are constantly being sought and initiated. Consequently, the Asia-Pacific region not only caters to the steadily increasing domestic demand of electric vehicles, but also caters to global markets thus enhancing the Asia-Pacific hold in the EV battery housing market.

Active Key Players in the EV Battery Housing Market

• Constellium SE (France)
• Evonik Industries AG (Germany)
• Gestamp Automocion, S.A. (Spain)
• GF Linamar LLC (U.S.)
• Hanwha Solutions Advanced Materials (South Korea)
• Hitachi Metals, Ltd. (Japan)
• LANXESS (Germany)
• Magna International Inc. (Canada)
• Minth Group (China)
• Nemak, S.A.B. de C.V. (Mexico)
• Norsk Hydro ASA (Norway)
• Novelis Inc. (U.S.)
• SGL Carbon (Germany)
• Teijin Limited (Japan)
• ThyssenKrupp AG (Germany)
• TRB Lightweight (U.K.)
• UACJ Corporation (Japan)
• Other Key Players

Key Industry Developments in the EV Battery Housing Market:

• In January 2024, The battery casing fabricated of glass fibre reinforced plastic for E-Works Mobility’s new generation electrical scooters were technology partnered by SGL Carbon. The e-car manufacturer is replacing the aluminum battery boxes that it now employs with GFH GFK and composite material boxes from SGL Carbon.
• In July 2023,  Magna released information stating that it planned to spend USD 790m for the construction of the first two supplier facilities, which will be located at Ford’s new supplier park in Stanton, Tennessee-BlueOval City supplier park-, and to spend USD … for the construction of a stamping and assembly plant in Lawrenceburg, Tennessee. Some of the initial products that will be manufactured with the aid of the partnership will be battery enclosures, truck frames, and seats for the second-generation electric truck that will be produced at the BlueOval City. Residing at Magna’s BlueOval City supplier park two components involve a new 800,000-sq ft frame and battery housings and a 140000-sq ft seats production line.

1. INTRODUCTION
   1. RESEARCH OBJECTIVES
   2. RESEARCH METHODOLOGY
   3. RESEARCH PROCESS
   4. SCOPE AND COVERAGE
      1. Market Definition
      2. Key Questions Answered
   5. MARKET SEGMENTATION
2. EXECUTIVE SUMMARY
3. MARKET OVERVIEW
4. GROWTH OPPORTUNITIES BY SEGMENT
5. MARKET LANDSCAPE
   1. PORTER’S FIVE FORCES ANALYSIS
      1. Bargaining Power Of Supplier
      2. Threat Of New Entrants
      3. Threat Of Substitutes
      4. Competitive Rivalry
      5. Bargaining Power Among Buyers
   2. INDUSTRY VALUE CHAIN ANALYSIS
   3. MARKET DYNAMICS
      1. Drivers
      2. Restraints
      3. Opportunities
      4. Challenges
   4. MARKET TREND ANALYSIS
   5. REGULATORY LANDSCAPE
   6. PESTLE ANALYSIS
   7. PRICE TREND ANALYSIS
   8. PATENT ANALYSIS
   9. TECHNOLOGY EVALUATION
   10. MARKET IMPACT OF THE RUSSIA-UKRAINE WAR
       1. Geopolitical Market Disruptions
       2. Supply Chain Disruptions
       3. Instability in Emerging Markets
   11. ECOSYSTEM
6. EV BATTERY HOUSING MARKET BY VEHICLE TYPE (2017-2032)
   1. EV BATTERY HOUSING MARKET SNAPSHOT AND GROWTH ENGINE
   2. MARKET OVERVIEW
   3. PASSENGER CAR
      1. Introduction And Market Overview
      2. Historic And Forecasted Market Size in Value (2017 – 2032F)
      3. Historic And Forecasted Market Size in Volume (2017 – 2032F)
      4. Key Market Trends, Growth Factors And Opportunities
      5. Geographic Segmentation Analysis
   4. COMMERCIAL VEHICLE
7. EV BATTERY HOUSING MARKET BY MATERIALS (2017-2032)
   1. EV BATTERY HOUSING MARKET SNAPSHOT AND GROWTH ENGINE
   2. MARKET OVERVIEW
   3. STEEL
      1. Introduction And Market Overview
      2. Historic And Forecasted Market Size in Value (2017 – 2032F)
      3. Historic And Forecasted Market Size in Volume (2017 – 2032F)
      4. Key Market Trends, Growth Factors And Opportunities
      5. Geographic Segmentation Analysis
   4. ALUMINIUM
   5. GLASS FIBER-REINFORCED POLYMER (GFRP)
   6. CARBON FIBER REINFORCED POLYMER (CFRP)
8. COMPANY PROFILES AND COMPETITIVE ANALYSIS
   1. COMPETITIVE LANDSCAPE
      1. Competitive Positioning
      2. EV Battery Housing Market Share By Manufacturer (2023)
      3. Industry BCG Matrix
      4. Heat Map Analysis
      5. Mergers & Acquisitions
   2. CONSTELLIUM SE (FRANCE)
      1. Company Overview
      2. Key Executives
      3. Company Snapshot
      4. Role of the Company in the Market
      5. Sustainability and Social Responsibility
      6. Operating Business Segments
      7. Product Portfolio
      8. Business Performance (Production Volume, Sales Volume, Sales Margin, Production Capacity, Capacity Utilization Rate)
      9. Key Strategic Moves And Recent Developments
      10. SWOT Analysis
   3. EVONIK INDUSTRIES AG (GERMANY)
   4. GESTAMP AUTOMOCION, S.A. (SPAIN)
   5. GF LINAMAR LLC (U.S.)
   6. HANWHA SOLUTIONS ADVANCED MATERIALS (SOUTH KOREA)
   7. HITACHI METALS, LTD. (JAPAN)
   8. LANXESS (GERMANY)
   9. MAGNA INTERNATIONAL INC. (CANADA)
   10. MINTH GROUP (CHINA)
   11. NEMAK, S.A.B. DE C.V. (MEXICO)
   12. NORSK HYDRO ASA (NORWAY)
   13. NOVELIS INC. (U.S.)
   14. SGL CARBON (GERMANY)
   15. TEIJIN LIMITED (JAPAN)
   16. THYSSENKRUPP AG (GERMANY)
   17. TRB LIGHTWEIGHT (U.K.)
   18. UACJ CORPORATION (JAPAN)
9. GLOBAL EV BATTERY HOUSING MARKET BY REGION
   1. OVERVIEW
   2. NORTH AMERICA
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Vehicle Type
      4. Historic And Forecasted Market Size By Materials
      5. Historic And Forecasted Market Size By Country
         1. USA
         2. Canada
         3. Mexico
   3. EASTERN EUROPE
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Russia
         2. Bulgaria
         3. The Czech Republic
         4. Hungary
         5. Poland
         6. Romania
         7. Rest Of Eastern Europe
   4. WESTERN EUROPE
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Germany
         2. United Kingdom
         3. France
         4. The Netherlands
         5. Italy
         6. Spain
         7. Rest Of Western Europe
   5. ASIA PACIFIC
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. China
         2. India
         3. Japan
         4. South Korea
         5. Malaysia
         6. Thailand
         7. Vietnam
         8. The Philippines
         9. Australia
         10. New-Zealand
         11. Rest Of APAC
   6. MIDDLE EAST & AFRICA
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Turkey
         2. Bahrain
         3. Kuwait
         4. Saudi Arabia
         5. Qatar
         6. UAE
         7. Israel
         8. South Africa
   7. SOUTH AMERICA
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Brazil
         2. Argentina
         3. Rest of South America
10. INVESTMENT ANALYSIS
11. ANALYST VIEWPOINT AND CONCLUSION
    1. Recommendations and Concluding Analysis
    2. Potential Market Strategies

LIST OF TABLES

TABLE 001. EXECUTIVE SUMMARY
TABLE 002. EV BATTERY HOUSING MARKET BARGAINING POWER OF SUPPLIERS
TABLE 003. EV BATTERY HOUSING MARKET BARGAINING POWER OF CUSTOMERS
TABLE 004. EV BATTERY HOUSING MARKET COMPETITIVE RIVALRY
TABLE 005. EV BATTERY HOUSING MARKET THREAT OF NEW ENTRANTS
TABLE 006. EV BATTERY HOUSING MARKET THREAT OF SUBSTITUTES
TABLE 007. EV BATTERY HOUSING MARKET BY CELL FORMAT TYPE
TABLE 008. POUCH CELL MARKET OVERVIEW (2016-2028)
TABLE 009. CYLINDRICAL CELL MARKET OVERVIEW (2016-2028)
TABLE 010. PRISMATIC CELL MARKET OVERVIEW (2016-2028)
TABLE 011. EV BATTERY HOUSING MARKET BY MATERIAL
TABLE 012. STEEL MARKET OVERVIEW (2016-2028)
TABLE 013. ALUMINUM MARKET OVERVIEW (2016-2028)
TABLE 014. GLASS FIBER-REINFORCED POLYMER (GFRP) MARKET OVERVIEW (2016-2028)
TABLE 015. CARBON FIBER REINFORCED MARKET OVERVIEW (2016-2028)
TABLE 016. POLYMER MARKET OVERVIEW (2016-2028)
TABLE 017. EV BATTERY HOUSING MARKET BY APPLICATION
TABLE 018. PHEV MARKET OVERVIEW (2016-2028)
TABLE 019. BEV MARKET OVERVIEW (2016-2028)
TABLE 020. E-BUS MARKET OVERVIEW (2016-2028)
TABLE 021. E-TRUCK MARKET OVERVIEW (2016-2028)
TABLE 022. NORTH AMERICA EV BATTERY HOUSING MARKET, BY CELL FORMAT TYPE (2016-2028)
TABLE 023. NORTH AMERICA EV BATTERY HOUSING MARKET, BY MATERIAL (2016-2028)
TABLE 024. NORTH AMERICA EV BATTERY HOUSING MARKET, BY APPLICATION (2016-2028)
TABLE 025. N EV BATTERY HOUSING MARKET, BY COUNTRY (2016-2028)
TABLE 026. EUROPE EV BATTERY HOUSING MARKET, BY CELL FORMAT TYPE (2016-2028)
TABLE 027. EUROPE EV BATTERY HOUSING MARKET, BY MATERIAL (2016-2028)
TABLE 028. EUROPE EV BATTERY HOUSING MARKET, BY APPLICATION (2016-2028)
TABLE 029. EV BATTERY HOUSING MARKET, BY COUNTRY (2016-2028)
TABLE 030. ASIA PACIFIC EV BATTERY HOUSING MARKET, BY CELL FORMAT TYPE (2016-2028)
TABLE 031. ASIA PACIFIC EV BATTERY HOUSING MARKET, BY MATERIAL (2016-2028)
TABLE 032. ASIA PACIFIC EV BATTERY HOUSING MARKET, BY APPLICATION (2016-2028)
TABLE 033. EV BATTERY HOUSING MARKET, BY COUNTRY (2016-2028)
TABLE 034. MIDDLE EAST & AFRICA EV BATTERY HOUSING MARKET, BY CELL FORMAT TYPE (2016-2028)
TABLE 035. MIDDLE EAST & AFRICA EV BATTERY HOUSING MARKET, BY MATERIAL (2016-2028)
TABLE 036. MIDDLE EAST & AFRICA EV BATTERY HOUSING MARKET, BY APPLICATION (2016-2028)
TABLE 037. EV BATTERY HOUSING MARKET, BY COUNTRY (2016-2028)
TABLE 038. SOUTH AMERICA EV BATTERY HOUSING MARKET, BY CELL FORMAT TYPE (2016-2028)
TABLE 039. SOUTH AMERICA EV BATTERY HOUSING MARKET, BY MATERIAL (2016-2028)
TABLE 040. SOUTH AMERICA EV BATTERY HOUSING MARKET, BY APPLICATION (2016-2028)
TABLE 041. EV BATTERY HOUSING MARKET, BY COUNTRY (2016-2028)
TABLE 042. SGL CARBON: SNAPSHOT
TABLE 043. SGL CARBON: BUSINESS PERFORMANCE
TABLE 044. SGL CARBON: PRODUCT PORTFOLIO
TABLE 045. SGL CARBON: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 045. NOVELIS INC.: SNAPSHOT
TABLE 046. NOVELIS INC.: BUSINESS PERFORMANCE
TABLE 047. NOVELIS INC.: PRODUCT PORTFOLIO
TABLE 048. NOVELIS INC.: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 048. NEMAK: SNAPSHOT
TABLE 049. NEMAK: BUSINESS PERFORMANCE
TABLE 050. NEMAK: PRODUCT PORTFOLIO
TABLE 051. NEMAK: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 051. S.A.B.: SNAPSHOT
TABLE 052. S.A.B.: BUSINESS PERFORMANCE
TABLE 053. S.A.B.: PRODUCT PORTFOLIO
TABLE 054. S.A.B.: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 054. DE C.V.: SNAPSHOT
TABLE 055. DE C.V.: BUSINESS PERFORMANCE
TABLE 056. DE C.V.: PRODUCT PORTFOLIO
TABLE 057. DE C.V.: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 057. CONSTELLIUM SE: SNAPSHOT
TABLE 058. CONSTELLIUM SE: BUSINESS PERFORMANCE
TABLE 059. CONSTELLIUM SE: PRODUCT PORTFOLIO
TABLE 060. CONSTELLIUM SE: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 060. GESTAMP AUTOMOCION: SNAPSHOT
TABLE 061. GESTAMP AUTOMOCION: BUSINESS PERFORMANCE
TABLE 062. GESTAMP AUTOMOCION: PRODUCT PORTFOLIO
TABLE 063. GESTAMP AUTOMOCION: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 063. UACJ CORPORATION: SNAPSHOT
TABLE 064. UACJ CORPORATION: BUSINESS PERFORMANCE
TABLE 065. UACJ CORPORATION: PRODUCT PORTFOLIO
TABLE 066. UACJ CORPORATION: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 066. GF LINAMAR LLC: SNAPSHOT
TABLE 067. GF LINAMAR LLC: BUSINESS PERFORMANCE
TABLE 068. GF LINAMAR LLC: PRODUCT PORTFOLIO
TABLE 069. GF LINAMAR LLC: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 069. HANWHA ADVANCED MATERIALS: SNAPSHOT
TABLE 070. HANWHA ADVANCED MATERIALS: BUSINESS PERFORMANCE
TABLE 071. HANWHA ADVANCED MATERIALS: PRODUCT PORTFOLIO
TABLE 072. HANWHA ADVANCED MATERIALS: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 072. MINTH: SNAPSHOT
TABLE 073. MINTH: BUSINESS PERFORMANCE
TABLE 074. MINTH: PRODUCT PORTFOLIO
TABLE 075. MINTH: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 075. CONTINENTAL STRUCTURAL PLASTICS: SNAPSHOT
TABLE 076. CONTINENTAL STRUCTURAL PLASTICS: BUSINESS PERFORMANCE
TABLE 077. CONTINENTAL STRUCTURAL PLASTICS: PRODUCT PORTFOLIO
TABLE 078. CONTINENTAL STRUCTURAL PLASTICS: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 078. THYSSENKRUPP AG: SNAPSHOT
TABLE 079. THYSSENKRUPP AG: BUSINESS PERFORMANCE
TABLE 080. THYSSENKRUPP AG: PRODUCT PORTFOLIO
TABLE 081. THYSSENKRUPP AG: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 081. TRB LIGHTWEIGHT: SNAPSHOT
TABLE 082. TRB LIGHTWEIGHT: BUSINESS PERFORMANCE
TABLE 083. TRB LIGHTWEIGHT: PRODUCT PORTFOLIO
TABLE 084. TRB LIGHTWEIGHT: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 084. HITACHI METALS LTD.: SNAPSHOT
TABLE 085. HITACHI METALS LTD.: BUSINESS PERFORMANCE
TABLE 086. HITACHI METALS LTD.: PRODUCT PORTFOLIO
TABLE 087. HITACHI METALS LTD.: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 087. POSCO: SNAPSHOT
TABLE 088. POSCO: BUSINESS PERFORMANCE
TABLE 089. POSCO: PRODUCT PORTFOLIO
TABLE 090. POSCO: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 090. NORSK HYDRO ASA: SNAPSHOT
TABLE 091. NORSK HYDRO ASA: BUSINESS PERFORMANCE
TABLE 092. NORSK HYDRO ASA: PRODUCT PORTFOLIO
TABLE 093. NORSK HYDRO ASA: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 093. OTHER MAJOR PLAYERS: SNAPSHOT
TABLE 094. OTHER MAJOR PLAYERS: BUSINESS PERFORMANCE
TABLE 095. OTHER MAJOR PLAYERS: PRODUCT PORTFOLIO
TABLE 096. OTHER MAJOR PLAYERS: KEY STRATEGIC MOVES AND DEVELOPMENTS

LIST OF FIGURES

FIGURE 001. YEARS CONSIDERED FOR ANALYSIS
FIGURE 002. SCOPE OF THE STUDY
FIGURE 003. EV BATTERY HOUSING MARKET OVERVIEW BY REGIONS
FIGURE 004. PORTER'S FIVE FORCES ANALYSIS
FIGURE 005. BARGAINING POWER OF SUPPLIERS
FIGURE 006. COMPETITIVE RIVALRYFIGURE 007. THREAT OF NEW ENTRANTS
FIGURE 008. THREAT OF SUBSTITUTES
FIGURE 009. VALUE CHAIN ANALYSIS
FIGURE 010. PESTLE ANALYSIS
FIGURE 011. EV BATTERY HOUSING MARKET OVERVIEW BY CELL FORMAT TYPE
FIGURE 012. POUCH CELL MARKET OVERVIEW (2016-2028)
FIGURE 013. CYLINDRICAL CELL MARKET OVERVIEW (2016-2028)
FIGURE 014. PRISMATIC CELL MARKET OVERVIEW (2016-2028)
FIGURE 015. EV BATTERY HOUSING MARKET OVERVIEW BY MATERIAL
FIGURE 016. STEEL MARKET OVERVIEW (2016-2028)
FIGURE 017. ALUMINUM MARKET OVERVIEW (2016-2028)
FIGURE 018. GLASS FIBER-REINFORCED POLYMER (GFRP) MARKET OVERVIEW (2016-2028)
FIGURE 019. CARBON FIBER REINFORCED MARKET OVERVIEW (2016-2028)
FIGURE 020. POLYMER MARKET OVERVIEW (2016-2028)
FIGURE 021. EV BATTERY HOUSING MARKET OVERVIEW BY APPLICATION
FIGURE 022. PHEV MARKET OVERVIEW (2016-2028)
FIGURE 023. BEV MARKET OVERVIEW (2016-2028)
FIGURE 024. E-BUS MARKET OVERVIEW (2016-2028)
FIGURE 025. E-TRUCK MARKET OVERVIEW (2016-2028)
FIGURE 026. NORTH AMERICA EV BATTERY HOUSING MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 027. EUROPE EV BATTERY HOUSING MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 028. ASIA PACIFIC EV BATTERY HOUSING MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 029. MIDDLE EAST & AFRICA EV BATTERY HOUSING MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 030. SOUTH AMERICA EV BATTERY HOUSING MARKET OVERVIEW BY COUNTRY (2016-2028)