EVバッテリーエンクロージャー複合材料の世界市場 - 市場規模、シェア、動向、予測、競合分析、成長機会（2023年～2030年）

世界のEVバッテリーエンクロージャー複合材料の市場規模は、2022年の8億米ドルから50億米ドルに達し、2023年～2030年にCAGRで23.5％の目覚ましい成長が予測されています。市場は主に、その広範な性能上の利点による、今後のEVモデルへのEVバッテリーエンクロージャー複合材料の普及などの要因によって牽引されています。

当レポートでは、世界のEVバッテリーエンクロージャー複合材料市場について調査分析し、市場の動向と予測、地域とセグメントの分析、企業プロファイルなどを提供しています。

目次

第1章 エグゼクティブサマリー

第2章 EVバッテリーエンクロージャー複合材料市場の環境分析

• サプライチェーン分析
• PEST分析
• 業界のライフサイクルステージ
• EVバッテリーエンクロージャー複合材料に関する重要考察
• EVバッテリーエンクロージャー複合材料の利点
• 主な材料の化学的・物理的性質
• 市場促進要因
• 市場の課題

第3章 EVバッテリーエンクロージャー複合材料市場の評価（2017年～2030年）

• 世界のEVバッテリーエンクロージャー市場におけるEVバッテリーエンクロージャー複合材料の貢献（2022年）
• EVバッテリーエンクロージャー複合材料市場の動向と予測
• EVバッテリーエンクロージャー複合材料のシナリオ分析（2023年～2030年）
• EVバッテリーエンクロージャー複合材料市場のセグメントシェア（2022年）
• 推進タイプの分析
  • バッテリー電気自動車（BEV）：市場動向と予測
  • ハイブリッド電気自動車（HEV）：市場動向と予測
• 車両タイプの分析
  • 乗用車：市場動向と予測
  • 小型商用車（LCV）：市場動向と予測
  • 中型・大型商用車（MHCV）：市場動向と予測
• 複合材料タイプの分析
  • ガラス繊維複合材料：地域の動向と予測
  • 炭素繊維複合材料：地域の動向と予測
• プロセスタイプの分析
  • 圧縮成形：地域の動向と予測
  • その他：地域の動向と予測
• 地域の分析
  • 北米のEVバッテリーエンクロージャー複合材料市場の動向と予測
  • 欧州のEVバッテリーエンクロージャー複合材料市場の動向と予測
  • 中国のEVバッテリーエンクロージャー複合材料市場の動向と予測
  • その他のアジア太平洋のEVバッテリーエンクロージャー複合材料市場の動向と予測
  • その他の地域のEVバッテリーエンクロージャー複合材料市場の動向と予測

第4章 炭素繊維市場の評価

• 炭素繊維のバリューチェーン分析
• 炭素繊維EVバッテリーエンクロージャー複合材料市場の動向と予測
• カーボンEVバッテリーエンクロージャーの主な原材料サプライヤー

第5章 競合分析

• EVバッテリーエンクロージャー複合材料市場の主要企業
• EVバッテリーエンクロージャー複合材料を使用した主なEVモデル
• 市場シェア分析
• 競合情勢

第6章 戦略的推奨事項

• 戦略的含意
• 新しい動向
• 主な成功要因（KSF）

第7章 付録

Market Insights

The Composite EV Battery Enclosures Market was valued at US$ 0.8 billion in 2022 and registered exceptional growth in the wake of significant growth in EV sales. In the long run, Stratview Research projects that the Composite EV Battery Enclosure Market is expected to expand at an impressive CAGR of 23.5% during 2023-2030 to reach a value of US$ 5.0 billion.

What are EV battery enclosures?

EV battery enclosures, often referred to as cases, frames, boxes, or housings, serve the primary purpose of storing and protecting the battery cells from physical damage, preventing leaks, ensuring a tight seal against moisture, and preventing fire mishaps. Metals and composites are two common materials used for manufacturing EV battery enclosures.

Metal is the predominantly used material for manufacturing EV battery enclosures owing to its properties such as high strength, high melting point, durability, and also being a good conductor of heat. In recent years, composites have gained traction and are becoming preferable as they are lighter, corrosion-free, fire-resistant, and a good insulator.

Market Dynamics

The market is majorly driven by factors such as increasing penetration of composite enclosures in upcoming EV models owing to their wide array of performance benefits. Some of the key EV models using composite enclosures are E-Lavida, Chevy Bolt, Corolla PHV, Levin PHV, and BMW i3.

Recent Product Developments: Reduction in weight, corrosion resistance, and high performance in a challenging environment are the key focus areas of EV battery enclosure suppliers. Multi-Material EV Battery Enclosures: Battery enclosures are made of composite materials and metals (aluminum and steel). The best and most advantageous enclosures are created by shaping them together. A multi-material battery enclosure created by Teijin Automotive is 5% lighter than a steel battery enclosure. This lowers the total cost and complexity of production while also eliminating the possibility of leakage.

By Propulsion Type

The composite EV battery enclosures market is segmented into BEV and HEV. BEV is anticipated to continue to dominate the market during the forecast period, owing to factors such as they are more environmentally safe than HEV cars, rapid development in charging infrastructure, a significant reduction in the price of new models, and government subsidies towards the adoption of EVs. Furthermore, there has been an incessant rise in the adoption of composite battery enclosures in the BEVs.

By Vehicle Type

The composite EV battery enclosures market is segmented into passenger cars, light commercial vehicles (LCVs), and medium & heavy-duty commercial vehicles (MHCVs). Passenger car is expected to remain the largest vehicle type in the market. The major factors driving the growth of the passenger car segment are rising awareness among consumers regarding EVs, government incentives towards the adoption of EV passenger cars, and rapid development in charging infrastructure.

Regional Analysis

In terms of region, China is expected to remain the largest market for composite EV battery enclosures during the forecast period. China has a presence of a large number of major OEMs, such as BYD and SAIC motors, which make the region a growth engine of the EV industry, which, in turn, is boosting the growth of the composite enclosures market. Most of the composite EV battery enclosure manufacturers have their plants in this region, such as STS Group, Teijin Automotive Technologies, and EMP Tech Co. Ltd., to address the emergent needs of these OEMs and to be the partner for their upcoming EV models.

North America and Europe are also likely to create sizeable opportunities in the coming years, driven by stringent fuel emission standards, rising energy/fuel costs, a significant development in upcoming EVs, etc. Both regions are targeting to completely shift from ICE to alternative fuel vehicles in the coming decade. For instance, EU lawmakers approved an effective 2035 ban on new fossil fuel cars.

Key Players

The market is fairly consolidated with the presence of some regional and global players. Most of the major players compete in some of the governing factors including price, product offerings, regional presence, etc.

The following are the key players in the composite EV battery enclosures market.

• Continental Structural Plastics (Teijin Automotive Technologies)
• Gestamp
• Hanwha Group
• STS Group AG
• SGL Carbon
• Katcon SA de CV
• EMP Tech Co., Ltd.
• CpK Interior Products Inc (Stellantis subsidiary)

Recent Market JVs and Acquisitions:

Some of the key automotive component suppliers are acquiring smaller players in the composite EV battery enclosure market in order to gain capabilities. For instance, Continental Structural Plastics Holdings (CSP) was acquired by Teijin Automotive Technologies. US composites expert, CSP, was acquired by Japan's Teijin Automotive Technologies for US$ 825 million in 2017. The agreement has helped Teijin establish the groundwork for a business producing automotive composite products in North America and has sped up its growth as a tier-1 supplier to the international market.

Research Methodology

This strategic assessment report, from Stratview Research, provides a comprehensive analysis that reflects today's composite EV battery enclosures market realities and future market possibilities for the forecast period. The report segments and analyzes the market in the most detailed manner in order to provide a panoramic view of the market. The vital data/information provided in the report can play a crucial role for the market participants as well as investors in the identification of the low-hanging fruits available in the market as well as to formulate the growth strategies to expedite their growth process.

This report offers high-quality insights and is the outcome of a detailed research methodology comprising extensive secondary research, rigorous primary interviews with industry stakeholders, and validation and triangulation with Stratview Research's internal database and statistical tools. More than 1,000 authenticated secondary sources, such as company annual reports, fact books, press releases, journals, investor presentations, white papers, patents, and articles, have been leveraged to gather the data. We conducted more than 15 detailed primary interviews with the market players across the value chain in all four regions and industry experts to obtain both qualitative and quantitative insights.

Table of Contents

• Report Scope
• Report Objectives
• Research Methodology
• Market Segmentation
• Secondary Research
• Key Information Gathered from Secondary Research
• Primary Research
• Key Information Gathered from Primary Research
• Breakdown of Primary Interviews by Region, Designation, and Value Chain Node
• Data Analysis and Triangulation

1. Executive Summary

2. Composite EV Battery Enclosures Market Environment Analysis

• 2.1. Supply Chain Analysis
• 2.2. PEST Analysis
• 2.3. Industry Life Cycle Stage
• 2.4. Key Insights on Composite EV Battery Enclosures
• 2.5. Advantages of Composite EV Battery Enclosures
• 2.6. Chemical and Physical Properties of Major Materials
• 2.7. Market Drivers
• 2.8. Market Challenges

3. Composite EV Battery Enclosures Market Assessment (2017-2030) (US$ Million and Million Units)

• 3.1. Contribution of Composite EV Battery Enclosures in the Global EV Battery Enclosures Market in 2022
• 3.2. Composite EV Battery Enclosures Market Trend and Forecast (Million Units)
• 3.3. Composite EV Battery Enclosures Scenario Analysis from 2023-2030 (US$ Billion)
• 3.4. Composite EV Battery Enclosures Market Segment Share in 2022 (US$ Million and Million Units)
• 3.5. Propulsion-Type Analysis
  • 3.5.1. Battery Electric Vehicle (BEV): Market Trend and Forecast (US$ Million and Million Units)
  • 3.5.2. Hybrid Electric Vehicle (HEV): Market Trend and Forecast (US$ Million and Million Units)
• 3.6. Vehicle-Type Analysis
  • 3.6.1. Passenger Car: Market Trend and Forecast (US$ Million and Million Units)
  • 3.6.2. Light Commercial Vehicle (LCV): Market Trend and Forecast (US$ Million and Million Units)
  • 3.6.3. Medium- & Heavy-Duty Commercial Vehicle (MHCV): Market Trend and Forecast (US$ Million and Million Units)
• 3.7. Composite-Type Analysis
  • 3.7.1. Glass Fiber Composite: Regional Trend and Forecast (US$ Million and Million Units)
  • 3.7.2. Carbon Fiber Composite: Regional Trend and Forecast (US$ Million and Million Units)
• 3.8. Process-Type Analysis
  • 3.8.1. Compression Molding: Regional Trend and Forecast (US$ Million and Million Units)
  • 3.8.2. Others: Regional Trend and Forecast (US$ Million and Million Units)
• 3.9. Regional Analysis
  • 3.9.1. North American Composite EV Battery Enclosures Market T&F (US$ Million and Million Units)
  • 3.9.2. European Composite EV Battery Enclosures Market T&F (US$ Million and Million Units)
  • 3.9.3. China's Composite EV Battery Enclosures Market T&F (US$ Million and Million Units)
  • 3.9.4. Rest of Asia-Pacific's Composite EV Battery Enclosures Market T&F (US$ Million and Million Units)
  • 3.9.5. Rest of the World's Composite EV Battery Enclosures Market T&F (US$ Million and Million Units)

4. Carbon Fiber Market Assessment

• 4.1. Carbon Fiber Value Chain Analysis
• 4.2. Carbon Fiber Composite EV Battery Enclosure Market Trend and Forecast (US$ Million)
• 4.3. Major Raw Material Suppliers for Carbon EV Battery Enclosures

5. Competitive Analysis

• 5.1. Key Players in the Composite EV Battery Enclosures Market
• 5.2. Key EV Models using Composite EV Battery Enclosures
• 5.3. Market Share Analysis
• 5.4. Competitive Landscape

6. Strategic Recommendations

• 6.1. Strategic Implications
• 6.2. Emerging Trends
• 6.3. Key Success Factors (KSFs)

7. Appendix

• 7.1. Abbreviation
• 7.2. Disclaimer
• 7.3. Copyright
• 7.4. About Us