Electronic potting compound market for EV charger - Global Forecast to 2032
Electronic Potting Compound Market for EV charger, By Charger Type (AC, DC), Setup Type (Wall Mount, Stationary), Material Type (Polyurethane, Silicone, Epoxy), Curing Technology, Application, EV Component, and Region - Global Forecast to 2032
EV充電器向け電子ポッティングコンパウンド市場 - 充電器タイプ(AC、DC)、設置タイプ(壁掛け、据置)、材質タイプ(ポリウレタン、シリコン、エポキシ)、硬化技術、用途、EVコンポーネント、地域別 - 2032年までの世界予測
| 出版 | MarketsandMarkets |
| 出版年月 | 2026年02月 |
| ページ数 | 288 |
| 図表数 | 300 |
| 価格 | 記載以外のライセンスについてはお問合せください |
| シングルユーザ | USD 4,950 |
| 種別 | 英文調査報告書 |
| 商品番号 | SMR-13335 |
EV充電器向け電子ポッティングコンパウンド市場は、2025年の3億6,000万米ドルから2032年には9億6,000万米ドルに達し、年平均成長率(CAGR)14.9%で成長すると予測されています。AC充電器では、小型で統合された電源・制御基板の採用が進んでおり、放熱に影響を与えずに完全なカバーを保証する低粘度のポッティングコンパウンドの需要が高まっています。DC充電器では、超急速充電への移行により、高熱伝導性と部分放電耐性に優れたポッティング材料の必要性が高まっています。DC充電器の設計も液冷式で密閉されたパワーモジュールへと移行しており、ポッティングの厚さと材料消費量が増加しています。どちらのタイプの充電器でも、自動ディスペンスと高速熱硬化との互換性が重要な材料要件になりつつあります。さらに、屋外充電器の設置が拡大するにつれて、長期的な湿気の浸入と電気トラッキングへの耐性を備えた材料の重要性が高まっています。
調査対象:
本レポートは、EV充電器向け電子ポッティングコンパウンド市場を、設置タイプ(壁掛け式、据置式)、充電器タイプ(AC充電器、DC充電器)、用途(パワーエレクトロニクス、高電圧部品、バスバー、センサーリレー、PCBおよび制御モジュール、コネクタケーブルIPゾーン、充電ガン、その他)、材料タイプ(ポリウレタン、エポキシ、シリコーン)、硬化技術(常温硬化、熱硬化、UV硬化)、EV部品(電動モーターステーター、EVバッテリーセル、EVバッテリー冷却システム、オンボードチャージャー、車載充電コネクタ、車載電力コンバータ、その他)、および地域の観点から調査・分析しています。また、EV充電器向け電子ポッティングコンパウンド市場における主要企業の競合状況と企業プロファイルも網羅しています。
レポート購入の主なメリット:
- 本レポートは、EV充電器用電子ポッティングコンパウンド市場およびそのサブセグメントにおける収益の概算値に関する情報を提供し、市場リーダー/新規参入企業を支援します。
- 本レポートは、ステークホルダーが競争環境を理解し、事業のポジショニングを改善し、適切な市場開拓戦略を策定するための洞察を深めるのに役立ちます。
- また、本レポートは、ステークホルダーが市場の動向を把握し、主要な市場牽引要因、制約要因、課題、機会に関する情報を提供するのにも役立ちます。
- 本レポートは、EV充電器用電子ポッティングコンパウンド市場における、セットアップタイプ、充電器タイプ、用途、材料タイプ、硬化技術、EVコンポーネント、地域に基づいた様々なトレンドに関する情報を提供し、市場リーダー/新規参入企業を支援します。
本レポートでは、以下の点について洞察を提供しています。
主要な推進要因(充電器エレクトロニクスの電力密度上昇による高熱伝導性ポッティング材の需要増加、電気安全、絶縁、高電圧試験基準の厳格化、高出力DC急速充電の拡大による高度な熱サイクル試験と耐応力性ポッティング材の要件の強化)、制約要因(難燃性化学物質および添加剤の規制強化、REACH規則に基づくSVHC(高懸念物質)規制、RoHS指令の厳格化)、機会(WBG対応パワーモジュール向け高熱伝導性シリコーンポッティング材の商品化、EV充電器量産に向けた自動ディスペンシングと高度なポッティング材のターンキー統合)、課題(SiC/GaNの高応力挙動による既存ポッティングシステムの新たな信頼性故障モードの発生、循環性と寿命の問題による高性能ポリマーの選択肢の制限)の分析
- 製品開発/イノベーション:EV充電器向け電子部品充填材市場における今後の技術、研究開発活動、新製品投入に関する詳細な洞察
- 市場開発:様々な地域における収益性の高い市場に関する包括的な情報
- 市場多様化:EV充電器向け電子部品充填材市場における新製品・サービス、未開拓地域、最近の動向、投資に関する網羅的な情報
- 競合評価:EV充電器向け電子部品充填材市場における、ヘンケル社(ドイツ)、ダウ社(米国)、パーカー・ハネフィン社(米国)、エランタス社(ドイツ)、モメンティブ社(米国)などの主要企業の市場シェア、成長戦略、製品提供に関する詳細な評価
Report Description
The electronic potting compound market for EV charger is projected to reach USD 0.96 billion by 2032 from USD 0.36 billion in 2025 at a CAGR of 14.9%. AC chargers are increasingly adopting compact, integrated power and control boards, driving demand for low-viscosity potting compounds that ensure complete coverage without affecting heat dissipation. In DC chargers, the transition toward ultra-fast charging is intensifying the need for high-thermal-conductivity and high-partial-discharge-resistant potting materials. DC charger designs are also moving toward liquid-cooled and sealed power modules, increasing potting thickness and material consumption. Across both charger types, compatibility with automated dispensing and fast thermal curing is becoming a key material requirement. Additionally, materials with long-term resistance to moisture ingress and electrical tracking are gaining importance as outdoor charger deployments expand.
Electronic potting compound market for EV charger – Global Forecast to 2032
“DC charger is projected to lead the electronic potting compound market for EV charger during the forecast period.”
DC chargers are expected to lead the electronic potting compound market for EV chargers during the forecast period due to their significantly higher power density and operating stress compared with AC or onboard chargers. Public DC charging sites and fleet depots operate in harsher environments exposed to moisture, vibration, and continuous duty cycles, which increase demand for robust encapsulation to ensure electrical insulation, environmental protection, and vibration damping. Large-scale infrastructure rollouts by OEMs and charge network operators are prioritizing high-power DC installations along highways, at commercial sites, and within fleet depots, concentrating unit volumes in charger platforms that require heavy and consistent potting usage. Material suppliers such as Parker Hannifin Corp are responding with low viscosity, fast flow thermally conductive potting compounds that can fill narrow gaps and efficiently transfer heat to housings and heat sinks in high power DC modules, while direct injection and pourable systems with faster curing and in-line quality control are gaining traction to support high throughput manufacturing. In parallel, ongoing government backed programs such as the US NEVI (National Electric Vehicle Infrastructure) initiative and China’s continued expansion of ultra fast public charging corridors are accelerating the deployment of high power DC chargers. For instance, in August 2025, the California Energy Commission launched a USD 55 million Fast Charge California Program to subsidize public fast charger installations, including high-power DC stations at businesses and public sites. These investments increase demand for thermally robust and electrically reliable potting compounds, as each new high-power DC installation requires substantial encapsulation material to ensure long-term operational stability and regulatory compliance.
“The epoxy material is projected to register the highest growth in the electronic potting compound market for EV charger during the forecast period.”
The epoxy segment is projected to register the highest growth in the electronic potting compound market for EV charger during the forecast period. Epoxy resins play a critical role in EV charger potting applications due to their high mechanical strength and structural rigidity, which provide durable protection for sensitive electronic and power components exposed to thermal cycling, vibration, and mechanical shock. They offer excellent electrical insulation and chemical resistance, making them well-suited for high voltage AC/DC conversion and safety-critical functions in both onboard and offboard charging systems. Epoxy potting compounds also deliver strong moisture and contaminant barrier performance, extending the operational life of EV charger electronics across diverse environmental conditions. Their formulation flexibility allows the incorporation of thermally conductive fillers, enabling improved heat dissipation in high-power modules and dense power electronics. In addition, the mature global manufacturing base and well-established supplier ecosystem for epoxy systems support scalability and cost efficiency in EV charger production. There is also growing emphasis on environmentally compliant epoxy formulations with lower VOC emissions and alignment with evolving regulations such as REACH, without sacrificing insulation or durability. For instance, in November 2025, Wevo Chemie introduced flame-retardant, thermally conductive epoxy potting resins designed to meet strict safety standards, such as EN 45545-2 and UL 94 V-0. These materials offer strong resistance to partial discharge and improved flow characteristics, making them suitable for high-voltage and high-performance applications, including advanced EV charger encapsulation.
Electronic potting compound market for EV charger – Global Forecast to 2032 – region
“Europe is projected to hold a significant share in the electronic potting compound market for EV charger during the forecast period.”
Europe is rapidly expanding its EV charging infrastructure with public charger installations exceeding 1.2 million units by the end of 2025 and continued strong growth in fast and ultra-fast charging, driving higher volumes of charger electronics that require potting and encapsulation. Strong regulatory and policy support, most notably the EU’s Alternative Fuels Infrastructure Regulation and broader emission reduction targets, mandate widespread deployment of high-power chargers across member states, increasing demand for durable and compliant potting materials. European charger OEMs and charging service providers such as Wallbox are investing heavily in smart, high-density, and ultra-fast charging hubs that integrate complex power and control electronics, benefiting from potting for insulation, thermal management, and environmental protection. The region’s strong emphasis on interoperability and safety standards, including CCS implementations with ISO 15118 features, further raises performance and reliability requirements for electronic protection materials, encouraging the use of advanced potting compounds in charger designs. The rapidly increasing share of DC and ultra-fast chargers in public networks is also elevating the need for thermally conductive and mechanically robust potting compounds to manage heat and ensure long-term reliability. At the same time, harmonized interfaces, communication protocols, and safety frameworks across the EU simplify charger platforms and promote consistency in potting material specifications. The region is also home to leading potting compound manufacturers, including Henkel, Electrolube, Demak Group, and ELANTAS.
In-depth interviews were conducted with CEOs, marketing directors, other innovation and technology directors, and executives from various key organizations operating in this market.
- By Company Type: OEM – 20 %, Tier 1 – 70%, and Tier 2 – 10%
- By Designation: C-level – 40%, Directors – 35%, and Others – 25%
- By Region: Asia Pacific – 35%, North America – 35%, Europe – 25%, and Rest of the World – 5%
Electronic potting compound market for EV charger – Global Forecast to 2032 – ecosystem
The electronic potting compound market for EV charger is dominated by major players, including Henkel Corporation (Germany), Dow (US), Parker Hannifin Corp (US), ELANTAS (Germany), and Momentive (US). These companies are expanding their portfolios to strengthen their position in the electronic potting compound market for EV charger.
Research Coverage:
The report covers the electronic potting compound market for EV charger in terms of setup type (wall mount, stationary), charger type (AC charger, DC charger), application (power electronics, HV components, busbars, and sensor relays, PCB and control modules, connector cable IP zones, charging gun, others), material type (polyurethane, epoxy, silicone), curing technology (room temperature cured, thermal cured, UV cured), EV component (electric motor stator, EV battery cells, EV battery cooling system, on-board charger, in-vehicle charging connector, in-vehicle power converter, others), and region. It covers the competitive landscape and company profiles of the significant players in the electronic potting compound market for EV charger.
The study also includes an in-depth competitive analysis of the key market players, their company profiles, key observations related to product and business offerings, recent developments, and key market strategies.
Key Benefits of Buying the Report:
- The report will help market leaders/new entrants with information on the closest approximations of revenue numbers for the electronic potting compound market for EV charger and their subsegments.
- This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and plan suitable go-to-market strategies.
- The report also helps stakeholders understand the market pulse and provides information on key market drivers, restraints, challenges, and opportunities.
- The report will help market leaders/new entrants with information on various trends in the electronic potting compound market for EV charger based on setup type, charger type, application, material type, curing technology, EV component, and region.
The report provides insight into the following points:
- Analysis of key drivers (rising power density in charger electronics driving demand for high-thermal-conductivity potting materials, tightening electrical safety, insulation, and high-voltage testing standards, expansion of high-power DC fast charging drives advanced thermal cycling and stress-resistant potting requirements), restraints (regulatory tightening on flame-retardant chemistries and additive bans, restrictions on SVHCs under REACH and tightening RoHS scrutiny), opportunities (commercialization of high-thermal-conductivity silicone potting for WBG-enabled power modules, turnkey integration of automated dispensing and advanced potting materials for high-volume EV charger production), and challenges (SiC/GaN high-stress behavior creating new reliability failure modes for existing potting systems, circularity and end-of-life issues limiting high-performance polymer choices)
- Product Development/Innovation: Detailed insights into upcoming technologies, research & development activities, and product launches in the electronic potting compound market for EV charger
- Market Development: Comprehensive information about lucrative markets across varied regions
- Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the electronic potting compound market for EV charger
- Competitive Assessment: In-depth assessment of market share, growth strategies, and product offerings of leading players, such as Henkel Corporation (Germany), Dow (US), Parker Hannifin Corp (US), ELANTAS (Germany), and Momentive (US), in the electronic potting compound market for EV charger
Table of Contents
1 INTRODUCTION 27
1.1 STUDY OBJECTIVES 27
1.2 MARKET DEFINITION 28
1.3 MARKET SCOPE AND SEGMENTATION 31
1.3.1 MARKETS COVERED AND REGIONAL SCOPE 31
1.3.2 INCLUSIONS & EXCLUSIONS 31
1.4 YEARS CONSIDERED 32
1.5 CURRENCY CONSIDERED 33
1.6 UNITS CONSIDERED 33
1.7 STAKEHOLDERS 33
2 EXECUTIVE SUMMARY 34
2.1 KEY INSIGHTS & MARKET HIGHLIGHTS 34
2.2 KEY MARKET PARTICIPANTS: MAPPING OF STRATEGIC DEVELOPMENTS 35
2.3 DISRUPTIVE TRENDS SHAPING ELECTRONIC POTTING COMPOUND MARKET FOR ELECTRIC VEHICLE (EV) CHARGER 36
2.4 HIGH-GROWTH SEGMENTS 37
2.5 SNAPSHOT: GLOBAL MARKET SIZE, GROWTH RATE, AND FORECAST 38
3 PREMIUM INSIGHTS 39
3.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN ELECTRONIC
POTTING COMPOUND MARKET FOR EV CHARGER 39
3.2 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY REGION 40
3.3 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY SETUP TYPE 40
3.4 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE 41
3.5 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY MATERIAL TYPE 41
3.6 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CURING TECHNOLOGY 42
3.7 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY EV COMPONENT 42
4 MARKET OVERVIEW 43
4.1 INTRODUCTION 43
4.2 MARKET DYNAMICS 44
4.2.1 DRIVERS 44
4.2.1.1 Rising power density driving demand for high-thermal-conductivity potting materials 44
4.2.1.1.1 Ev charger types and utilization trends, 2026–2032 45
4.2.1.2 Tightening electrical safety, insulation, and high-voltage testing standards 45
4.2.1.3 Expansion of high-power DC fast charging increasing need for stress-resistant and thermal-cycling-stable potting materials 46
4.2.2 RESTRAINTS 46
4.2.2.1 Regulatory pressure on flame-retardant chemistries and additive bans 46
4.2.2.2 Restrictions on substances of very high concern (SVHC) 47
4.2.3 OPPORTUNITIES 47
4.2.3.1 Commercialization of high-thermal-conductivity silicone potting for WBG-enabled power modules 47
4.2.3.2 Turnkey integration of automated dispensing and advanced potting materials for high-volume electric vehicle charger production 48
4.2.4 CHALLENGES 49
4.2.4.1 High-stress behavior of silicon carbide (SiC)/gallium nitride (GaN) creating new reliability failure modes for existing potting systems 49
4.2.4.2 Circularity and end-of-life issues limiting high-performance polymer choices 49
4.3 UNMET NEEDS AND WHITE SPACES 51
4.3.1 UNMET NEEDS IN ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER 51
4.3.2 WHITE SPACE OPPORTUNITIES 52
4.4 INTERCONNECTED MARKETS AND CROSS-SECTOR OPPORTUNITIES 53
4.4.1 INTERCONNECTED MARKETS 53
4.4.2 CROSS-SECTOR OPPORTUNITIES 54
4.5 STRATEGIC MOVES BY TIER 1/2/3 PLAYERS 55
4.5.1 STRATEGIC MOVES BY TIER 1/2/3 PLAYERS 55
5 INDUSTRY TRENDS 57
5.1 MACROECONOMIC INDICATORS 57
5.1.1 INTRODUCTION 57
5.1.2 GDP TRENDS AND FORECAST 57
5.1.3 TRENDS IN GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET 58
5.1.4 TRENDS IN GLOBAL ELECTRIC VEHICLE INDUSTRY 59
5.2 TRENDS & DISRUPTIONS IMPACTING CUSTOMER BUSINESS 60
5.3 PRICING ANALYSIS 60
5.3.1 INDICATIVE PRICING ANALYSIS, BY CHARGER TYPE, 2024–2026 (USD/TON) 61
5.3.2 AVERAGE SELLING PRICE TREND FOR CHARGER TYPES, BY REGION,
2024–2026 62
5.3.2.1 Average selling price trend for AC chargers, by region, 2024–2026 63
5.3.2.2 Average selling price trend for DC chargers, by region, 2024–2026 63
5.4 ECOSYSTEM ANALYSIS 64
5.5 SUPPLY CHAIN ANALYSIS 67
5.6 CASE STUDY ANALYSIS 68
5.6.1 IMPROVING THERMAL PERFORMANCE AND RELIABILITY OF ELECTRIC VEHICLE ON-BOARD CHARGERS USING LOW-VISCOSITY POLYURETHANE POTTING COMPOUNDS 69
5.6.2 ENHANCING DURABILITY AND RELIABILITY OF ELECTRIC VEHICLE CHARGING CONNECTORS USING ADVANCED POTTING COMPOUNDS 70
5.6.3 MITIGATING THERMAL RUNAWAY IN CYLINDRICAL BATTERY SYSTEMS USING ADVANCED POLYURETHANE POTTING COMPOUNDS 71
5.7 INVESTMENT AND FUNDING SCENARIO 71
5.8 TRADE ANALYSIS 72
5.8.1 IMPORT SCENARIO (HS CODE 3910) 72
5.8.2 EXPORT SCENARIO (HS CODE 3910) 74
5.8.3 IMPORT SCENARIO (HS CODE 390730) 75
5.8.4 EXPORT SCENARIO (HS CODE 390730) 76
5.9 KEY CONFERENCES AND EVENTS, 2026 77
5.10 INSIGHTS INTO MATERIAL CONSUMPTION PER EV CHARGER 78
5.10.1 POTTING COMPOUND CONSUMPTION PER CHARGER ARCHITECTURE 78
5.11 FUTURE ROADMAP FOR POTTING COMPOUND MATERIALS IN EV CHARGING STATIONS 79
5.11.1 MATERIALS ENABLING HIGHER POWER DENSITY AND ULTRA-FAST CHARGING 79
5.11.2 THERMAL AND ELECTRICAL PERFORMANCE UPGRADES FOR CONTINUOUS OPERATION 80
5.11.3 MANUFACTURING-OPTIMIZED POTTING FOR SCALABLE CHARGER DEPLOYMENT 80
5.11.4 SUSTAINABILITY, REWORKABILITY, AND END-OF-LIFE COMPLIANCE 81
5.12 INSIGHTS INTO PUBLIC ELECTRIC VEHICLE CHARGER SETUP FOR MAJOR MARKETS 82
5.12.1 AC CHARGER 82
5.12.2 DC CHARGER 83
6 TECHNOLOGICAL ADVANCEMENTS, AI-DRIVEN IMPACT,
PATENTS, INNOVATIONS, AND FUTURE APPLICATIONS 84
6.1 PATENT ANALYSIS 84
6.2 IMPACT OF GENERATIVE AI ON ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER 86
6.2.1 TOP USE CASES AND MARKET POTENTIAL 87
6.2.1.1 High-performance power electronics 87
6.2.1.2 Connector and harness reliability 87
6.2.1.3 Custom compound design 87
6.2.2 BEST PRACTICES FOLLOWED BY MANUFACTURERS/OEMS 87
6.2.2.1 Generative design in formulation 87
6.2.2.2 AI-driven manufacturing and quality 87
6.2.3 CASE STUDIES RELATED TO AI IMPLEMENTATION 88
6.2.3.1 Accelerating potting compound innovation using AI-driven R&D platforms 88
6.2.3.2 Generative AI for advanced polymer and materials design 88
6.2.3.3 Customized potting compounds for EV power electronics 89
6.2.4 INTERCONNECTED ADJACENT ECOSYSTEM AND IMPACT OF MARKET PLAYERS 89
6.2.4.1 Supply chain and services 89
6.2.4.2 Adjacent technologies 90
6.2.5 CLIENTS’ READINESS TO ADOPT AI-INTEGRATED PROCESS IN ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER 90
6.3 KEY EMERGING TECHNOLOGIES 90
6.3.1 ADVANCED THERMALLY CONDUCTIVE SILICONE TECHNOLOGIES
FOR EV CHARGER POWER ELECTRONICS 90
6.3.2 WIDE BANDGAP (WBG) POWER SEMICONDUCTORS 91
6.3.3 LOW-VISCOSITY, VOID-FREE POTTING CHEMISTRIES 92
6.3.4 FAST-CURE AND SNAP-CURE POTTING FORMULATIONS 92
6.4 COMPLEMENTARY TECHNOLOGIES 93
6.4.1 AUTOMATED DISPENSING AND METERING SYSTEMS 93
6.4.2 AL-ENABLED PROCESS MONITORING AND CONTROL 93
6.5 ADJACENT TECHNOLOGIES 94
6.5.1 CONFORMAL COATINGS AND SELECTIVE ENCAPSULATION 94
6.5.2 ADVANCED ADHESIVES AND STRUCTURAL BONDING MATERIALS 94
6.5.3 RECYCLABLE AND DEBONDABLE POLYMER SYSTEMS 94
6.6 TECHNOLOGY/PRODUCT ROADMAP 95
6.6.1 SHORT-TERM (2025-2027) | FOUNDATION & EARLY COMMERCIALIZATION 95
6.6.2 MID-TERM (2028-2030) | EXPANSION & STANDARDIZATION 96
6.6.3 LONG-TERM (2031-2035+) | MASS COMMERCIALIZATION & DISRUPTION 96
7 REGULATORY LANDSCAPE AND SUSTAINABILITY INITIATIVES 98
7.1 REGIONAL REGULATIONS AND COMPLIANCE 98
7.2 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 98
7.2.1 INDUSTRY STANDARDS 102
7.3 SUSTAINABILITY INITIATIVES 105
7.3.1 CARBON IMPACT AND ECO-APPLICATIONS 105
7.3.1.1 Bio‐based resins 105
7.3.1.2 Low‐VOC, solventless formulations 106
7.3.1.3 Removable (debondable) potting 106
7.3.2 SUSTAINABILITY IMPACT AND REGULATORY POLICY INITIATIVES 106
7.3.3 CERTIFICATIONS, LABELING, AND ECO-STANDARDS 107
8 CUSTOMER LANDSCAPE & BUYER BEHAVIOR 108
8.1 DECISION-MAKING PROCESS 108
8.2 BUYER STAKEHOLDERS AND BUYING EVALUATION CRITERIA 109
8.2.1 KEY STAKEHOLDERS IN BUYING PROCESS 109
8.2.2 BUYING CRITERIA 110
8.3 ADOPTION BARRIERS & INTERNAL CHALLENGES 111
9 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE 113
9.1 INTRODUCTION 114
9.2 AC CHARGER 116
9.2.1 INCREASING POWER DENSITY IN COMPACT AC CHARGER DESIGNS
TO FUEL GROWTH 116
9.3 DC CHARGER 118
9.3.1 GOVERNMENT-BACKED EXPANSION OF ULTRA-FAST DC CHARGING NETWORKS TO FUEL GROWTH 118
9.4 KEY PRIMARY INSIGHTS 120
10 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY SETUP TYPE 121
10.1 INTRODUCTION 122
10.2 WALL MOUNT (PRIVATE) 123
10.2.1 EXPANSION OF RESIDENTIAL LEVEL 2 CHARGING INFRASTRUCTURE
TO FUEL GROWTH 123
10.3 STATIONARY (PUBLIC) 124
10.3.1 SCALING DEPLOYMENT OF ULTRA-FAST PUBLIC CHARGING HUBS
TO FUEL GROWTH 124
10.4 KEY PRIMARY INSIGHTS 126
11 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY MATERIAL TYPE 127
11.1 INTRODUCTION 128
11.2 POLYURETHANE 131
11.2.1 ADVANCEMENTS IN TWO-COMPONENT POLYURETHANE SYSTEMS
FOR EV CHARGER ENCAPSULATION TO FUEL GROWTH 131
11.3 SILICONE 132
11.3.1 SHIFT TOWARD HIGH THERMALLY CONDUCTIVE SILICONE MATERIALS
IN ULTRA-FAST CHARGING PLATFORMS TO DRIVE MARKET 132
11.4 EPOXY 134
11.4.1 EXPANSION OF LOW-VOC, REGULATION-COMPLIANT EPOXY FORMULATIONS IN ELECTRIC VEHICLE CHARGING APPLICATIONS TO FUEL GROWTH 134
11.5 KEY PRIMARY INSIGHTS 135
12 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CURING TECHNOLOGY 136
12.1 INTRODUCTION 137
12.2 ROOM TEMPERATURE CURED 139
12.2.1 EXPANSION OF TWO-COMPONENT ROOM-TEMPERATURE-CURED SYSTEMS IN AC AND DC CHARGERS TO FUEL GROWTH 139
12.3 THERMAL CURED 140
12.3.1 HIGHER POWER RATINGS AND SIC INTEGRATION ACCELERATING
USE OF THERMALLY CURED POTTING COMPOUNDS 140
12.4 UV CURED 141
12.4.1 EXPANSION OF HYBRID UV CURING SYSTEMS IN COMPACT
AND SMART CHARGER DESIGNS TO FUEL GROWTH 141
12.5 KEY PRIMARY INSIGHTS 143
13 ELECTRONIC POTTING COMPOUND MARKET, BY EV COMPONENT 144
13.1 INTRODUCTION 145
13.2 ELECTRIC MOTOR STATOR 147
13.2.1 SHIFT TOWARD HIGH-DENSITY DRIVE UNITS STRENGTHENING
NEED FOR RELIABLE STATOR ENCAPSULATION 147
13.3 EV BATTERY CELL 148
13.3.1 INCREASING FOCUS ON THERMAL RUNAWAY MITIGATION
IN ELECTRIC VEHICLE BATTERIES TO DRIVE MARKET 148
13.4 EV BATTERY COOLING SYSTEM 150
13.4.1 RISING ADOPTION OF CELL-TO-PACK AND CELL-TO-CHASSIS ARCHITECTURES TO BOOST ENCAPSULATION DEMAND 150
13.5 ON-BOARD CHARGER 151
13.5.1 GROWING INTEGRATION OF MULTI-FUNCTIONAL OBC AND
DC-DC UNITS TO DRIVE DEMAND 151
13.6 IN-VEHICLE CHARGING CONNECTOR 152
13.6.1 RISING ADOPTION OF HIGH-CURRENT, COMPACT EV CHARGING CONNECTORS TO FUEL GROWTH 152
13.7 IN-VEHICLE POWER CONVERTER 153
13.7.1 RISING INTEGRATION OF MULTIPLE POWER-ELECTRONICS
FUNCTIONS TO FUEL GROWTH 153
13.8 OTHERS 154
13.9 KEY PRIMARY INSIGHTS 155
14 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY APPLICATION 156
14.1 INTRODUCTION 156
14.2 POWER ELECTRONICS 156
14.3 HV COMPONENTS, BUSBARS, AND SENSOR RELAYS 156
14.4 PCB AND CONTROL MODULES 156
14.5 CONNECTOR CABLE IP ZONES 157
14.6 CHARGING GUNS 157
14.7 OTHERS 157
15 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY REGION 158
15.1 INTRODUCTION 159
15.2 ASIA PACIFIC 161
15.2.1 CHINA 164
15.2.1.1 Presence of well-established domestic manufacturing ecosystem for chargers, power electronics, and materials to drive market 164
15.2.2 INDIA 166
15.2.2.1 Growing localization of EV charger manufacturing under “Make in India” initiative to fuel growth 166
15.2.3 JAPAN 168
15.2.3.1 Increasing installation of high-output EV chargers under Japan’s 2030 targets to drive market 168
15.2.4 SOUTH KOREA 170
15.2.4.1 Government-backed deployment of ultra-fast charging networks to fuel growth 170
15.2.5 THAILAND 171
15.2.5.1 Rapid deployment of high-power DC fast chargers to drive market 171
15.2.6 INDONESIA 173
15.2.6.1 Rapid deployment of public EV charging stations and local manufacturing to drive market 173
15.2.7 SINGAPORE 175
15.2.7.1 Deployment of compact, high-density public EV charging systems to drive market 175
15.3 EUROPE 176
15.3.1 AUSTRIA 179
15.3.1.1 Strategic investment in high-power EV charging under eMove Austria to fuel growth 179
15.3.2 DENMARK 181
15.3.2.1 Acceleration of residential and public EV charger installations under regulatory reforms to drive market 181
15.3.3 FRANCE 182
15.3.3.1 Fleet-focused charging rollouts and OEM-led infrastructure expansion to drive market 182
15.3.4 GERMANY 184
15.3.4.1 Expansion of multi-family residential and corridor charging infrastructure to drive market 184
15.3.5 NETHERLANDS 185
15.3.5.1 High per-capita EV charger installations to drive market 185
15.3.6 NORWAY 187
15.3.6.1 Expansion of highway DC fast-charging corridors to drive market 187
15.3.7 SPAIN 188
15.3.7.1 Government-backed expansion of corridor and rural EV charging networks to fuel growth 188
15.3.8 SWEDEN 190
15.3.8.1 Megawatt charging corridor development to drive high-power charger installations 190
15.3.9 SWITZERLAND 191
15.3.9.1 Subsidized deployment of high-power fleet charging systems to drive market 191
15.3.10 UK 192
15.3.10.1 Government-backed expansion of motorway super hubs and depot charging to fuel growth 192
15.4 NORTH AMERICA 194
15.4.1 US 196
15.4.1.1 Strategic OEM partnerships and high-voltage charger rollouts to drive market 196
15.4.2 CANADA 198
15.4.2.1 Government-backed rollout of EV chargers to drive market 198
15.4.3 MEXICO 200
15.4.3.1 Strategic rollout of retail and commercial charging sites to fuel growth 200
15.5 REST OF THE WORLD 201
15.5.1 BRAZIL 203
15.5.1.1 Policy-backed residential charging access expansion in multi-unit buildings to fuel growth 203
15.5.2 UAE 204
15.5.2.1 Scaling fleet-focused and destination DC fast charging networks to drive market 204
16 COMPETITIVE LANDSCAPE 207
16.1 OVERVIEW 207
16.2 KEY PLAYERS’ STRATEGIES/RIGHT TO WIN 207
16.3 MARKET SHARE ANALYSIS OF EV CHARGER POTTING COMPOUND
MANUFACTURERS, 2025 208
16.4 REVENUE ANALYSIS OF TOP LISTED/PUBLIC PLAYERS, 2020–2024 211
16.5 COMPANY VALUATION AND FINANCIAL METRICS, 2026 211
16.5.1 COMPANY VALUATION 211
16.5.2 FINANCIAL METRICS 212
16.6 BRAND/ PRODUCT COMPARISON 213
16.7 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2026 213
16.7.1 STARS 214
16.7.2 EMERGING LEADERS 214
16.7.3 PERVASIVE PLAYERS 214
16.7.4 PARTICIPANTS 214
16.7.5 COMPANY FOOTPRINT: KEY PLAYERS, 2026 216
16.7.5.1 Company footprint 216
16.7.5.2 Region footprint 217
16.7.5.3 Charger type footprint 217
16.7.5.4 Material type footprint 218
16.7.5.5 Setup type footprint 218
16.8 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2026 219
16.8.1 PROGRESSIVE COMPANIES 219
16.8.2 RESPONSIVE COMPANIES 219
16.8.3 DYNAMIC COMPANIES 219
16.8.4 STARTING BLOCKS 219
16.8.5 COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2026 221
16.8.5.1 List of startups/SMEs 221
16.8.5.2 Competitive benchmarking of startups/SMEs 221
16.9 COMPETITIVE SCENARIO 222
16.9.1 PRODUCT LAUNCHES 222
16.9.2 DEALS 223
16.9.3 EXPANSIONS 223
16.9.4 OTHER DEVELOPMENTS 224
17 COMPANY PROFILES 226
17.1 KEY PLAYERS 226
17.1.1 HENKEL CORPORATION 226
17.1.1.1 Business overview 226
17.1.1.2 Products offered 227
17.1.1.3 Recent developments 229
17.1.1.3.1 Product launches 229
17.1.1.4 MnM view 229
17.1.1.4.1 Key strengths 229
17.1.1.4.2 Strategic choices 229
17.1.1.4.3 Weaknesses and competitive threats 230
17.1.2 PARKER HANNIFIN CORP 231
17.1.2.1 Business overview 231
17.1.2.2 Product offered 232
17.1.2.3 Recent developments 233
17.1.2.3.1 Other developments 233
17.1.2.4 MnM view 233
17.1.2.4.1 Key strengths 233
17.1.2.4.2 Strategic choices 233
17.1.2.4.3 Weaknesses and competitive threats 233
17.1.3 ELANTAS 234
17.1.3.1 Business overview 234
17.1.3.2 Products offered 235
17.1.3.3 MnM view 236
17.1.3.3.1 Key strengths 236
17.1.3.3.2 Strategic choices 236
17.1.3.3.3 Weaknesses and competitive threats 236
17.1.4 DOW 237
17.1.4.1 Business overview 237
17.1.4.2 Products offered 238
17.1.4.3 Recent developments 239
17.1.4.3.1 Product launches 239
17.1.4.3.2 Other developments 240
17.1.4.4 MnM view 240
17.1.4.4.1 Key strengths 240
17.1.4.4.2 Strategic choices 240
17.1.4.4.3 Weaknesses and competitive threats 240
17.1.5 MOMENTIVE 241
17.1.5.1 Business overview 241
17.1.5.2 Products offered 241
17.1.5.3 MnM view 241
17.1.5.3.1 Key strengths 241
17.1.5.3.2 Strategic choices 242
17.1.5.3.3 Weaknesses and competitive threats 242
17.1.6 ELECTROLUBE 243
17.1.6.1 Business overview 243
17.1.6.2 Products offered 243
17.1.6.3 Recent developments 243
17.1.6.3.1 Other developments 243
17.1.7 DEMAK GROUP 244
17.1.7.1 Business overview 244
17.1.7.2 Products offered 244
17.1.8 WEVO-CHEMIE GMBH 246
17.1.8.1 Business overview 246
17.1.8.2 Products offered 246
17.1.8.3 Recent developments 247
17.1.8.3.1 Product launches 247
17.1.9 EPOXIES, ETC. 248
17.1.9.1 Business overview 248
17.1.9.2 Products offered 248
17.1.10 RAMPF 250
17.1.10.1 Business overview 250
17.1.10.2 Products offered 250
17.1.10.3 Recent developments 251
17.1.10.3.1 Expansions 251
17.1.10.3.2 Other developments 251
17.1.11 KISLING 252
17.1.11.1 Business overview 252
17.1.11.2 Products offered 252
17.1.11.3 Recent developments 253
17.1.11.3.1 Deals 253
17.1.12 SIKA AUTOMOTIVE 254
17.1.12.1 Business overview 254
17.1.12.2 Products offered 254
17.2 OTHER PLAYERS 255
17.2.1 MASTER BOND 255
17.2.2 PERMABOND 256
17.2.3 DOPAG 256
17.2.4 FINEFINISH 257
17.2.5 MG CHEMICALS 258
17.2.6 3M 259
17.2.7 VEEYOR POLYMERS 260
17.2.8 NAGASE & CO., LTD. 261
17.2.9 WACKER CHEMIE AG 262
17.2.10 PROSTECH 263
17.2.11 MB ENTERPRISES 264
17.2.12 ELKEM ASA 265
17.2.13 ITW PERFORMANCE POLYMERS 266
18 RESEARCH METHODOLOGY 267
18.1 RESEARCH DATA 267
18.1.1 SECONDARY DATA 268
18.1.1.1 List of key secondary sources 269
18.1.1.2 Key data from secondary sources 270
18.1.2 PRIMARY DATA 270
18.1.2.1 Primary interview participants 271
18.1.2.2 Key industry insights and breakdown of primary interviews 271
18.1.2.3 List of primary interview participants 272
18.2 MARKET SIZE ESTIMATION 272
18.2.1 BOTTOM-UP APPROACH 273
18.2.2 TOP-DOWN APPROACH 275
18.3 DATA TRIANGULATION 276
18.4 FACTOR ANALYSIS 278
18.4.1 DEMAND- AND SUPPLY-SIDE FACTOR ANALYSIS 278
18.5 RESEARCH ASSUMPTIONS 278
18.6 RESEARCH LIMITATIONS 279
18.7 RISK ASSESSMENT 279
19 APPENDIX 281
19.1 DISCUSSION GUIDE 281
19.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 284
19.3 CUSTOMIZATION OPTIONS 286
19.3.1 BREAKDOWN OF ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY SETUP TYPE, AT COUNTRY LEVEL (FOR COUNTRIES
COVERED IN REPORT) 286
19.3.2 COMPANY INFORMATION: 286
19.3.2.1 Profiling of additional market players (up to 5) 286
19.4 RELATED REPORTS 286
19.5 AUTHOR DETAILS 287
LIST OF TABLES
TABLE 1 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
DEFINITION OF CHARGER TYPES 28
TABLE 2 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
DEFINITION OF SETUP TYPES 28
TABLE 3 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
DEFINITION OF MATERIAL TYPES 29
TABLE 4 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
DEFINITION OF CURING TECHNOLOGIES 29
TABLE 5 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
DEFINITION OF EV COMPONENTS 30
TABLE 6 USD EXCHANGE RATES, 2021–2025 33
TABLE 7 EV CHARGER TYPES AND UTILIZATION TRENDS, 2026–2032 45
TABLE 8 ELECTRIC VEHICLE CHARGING INCENTIVES, BY COUNTRY 48
TABLE 9 IMPACT OF MARKET DYNAMICS ON ELECTRONIC POTTING
COMPOUND MARKET FOR EV CHARGER 50
TABLE 10 GDP PERCENTAGE CHANGE, BY KEY COUNTRY, 2021–2030 57
TABLE 11 INDICATIVE PRICING ANALYSIS, BY CHARGER TYPE, 2024–2026 (USD/TON) 61
TABLE 12 AVERAGE SELLING PRICE TREND FOR AC CHARGERS, BY REGION,
2024–2026 (USD/TON) 63
TABLE 13 AVERAGE SELLING PRICE TREND FOR DC CHARGERS, BY REGION,
2024–2026 (USD/TON) 63
TABLE 14 ELECTRONIC COMPOUND MARKET FOR EV CHARGER:
ROLE OF COMPANIES IN MARKET ECOSYSTEM 66
TABLE 15 IMPORT DATA FOR HS CODE 3910, BY COUNTRY, 2021–2024 (USD MILLION) 72
TABLE 16 EXPORT DATA FOR HS CODE 3910, BY COUNTRY, 2021–2024 (USD MILLION) 74
TABLE 17 IMPORT DATA FOR HS CODE 390730, BY COUNTRY, 2021–2024 (USD MILLION) 75
TABLE 18 EXPORT DATA FOR HS CODE 390730, BY COUNTRY, 2021–2024 (USD MILLION) 76
TABLE 19 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER: KEY CONFERENCES AND EVENTS, 2026 77
TABLE 20 POTTING COMPOUND CONSUMPTION PER CHARGER ARCHITECTURE (IN GRAMS) 79
TABLE 21 AC CHARGER SETUP, BY KEY COUNTRIES, 2025 82
TABLE 22 DC CHARGER SETUP, BY KEY COUNTRIES, 2025 83
TABLE 23 PATENT ANALYSIS, 2025 85
TABLE 24 POTTING MATERIAL COMPARISON 91
TABLE 25 NORTH AMERICA: REGULATORY BODIES, GOVERNMENT AGENCIES,
AND OTHER ORGANIZATIONS 98
TABLE 26 EUROPE: REGULATORY BODIES, GOVERNMENT AGENCIES,
AND OTHER ORGANIZATIONS 100
TABLE 27 ASIA PACIFIC: REGULATORY BODIES, GOVERNMENT AGENCIES,
AND OTHER ORGANIZATIONS 102
TABLE 28 GLOBAL INDUSTRY STANDARDS, BY COUNTRY/REGION 103
TABLE 29 INFLUENCE OF STAKEHOLDERS ON BUYING PROCESS OF
POTTING COMPOUND IN EV CHARGERS, BY CHARGER TYPE (%) 110
TABLE 30 KEY BUYING CRITERIA FOR POTTING COMPOUND IN EV CHARGERS,
BY CHARGER TYPE 111
TABLE 31 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 114
TABLE 32 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 115
TABLE 33 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 115
TABLE 34 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 115
TABLE 35 AC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2021–2024 (TONS) 116
TABLE 36 AC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2025–2032 (TONS) 116
TABLE 37 AC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2021–2024 (USD MILLION) 117
TABLE 38 AC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2025–2032 (USD MILLION) 117
TABLE 39 DC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2021–2024 (TONS) 118
TABLE 40 DC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2025–2032 (TONS) 118
TABLE 41 DC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2021–2024 (USD MILLION) 119
TABLE 42 DC CHARGER: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2025–2032 (USD MILLION) 119
TABLE 43 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY SETUP TYPE, 2021–2024 (TONS) 122
TABLE 44 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY SETUP TYPE, 2025–2032 (TONS) 123
TABLE 45 WALL MOUNT (PRIVATE): ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2021–2024 (TONS) 124
TABLE 46 WALL MOUNT (PRIVATE): ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2025–2032 (TONS) 124
TABLE 47 STATIONARY (PUBLIC): ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2021–2024 (TONS) 125
TABLE 48 STATIONARY (PUBLIC): ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2025–2032 (TONS) 125
TABLE 49 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY MATERIAL TYPE, 2021–2024 (TONS) 130
TABLE 50 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY MATERIAL TYPE, 2025–2032 (TONS) 130
TABLE 51 POLYURETHANE: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2021–2024 (TONS) 131
TABLE 52 POLYURETHANE: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2025–2032 (TONS) 132
TABLE 53 SILICONE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY REGION, 2021–2024 (TONS) 133
TABLE 54 SILICONE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY REGION, 2025–2032 (TONS) 133
TABLE 55 EPOXY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY REGION, 2021–2024 (TONS) 134
TABLE 56 EPOXY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY REGION, 2025–2032 (TONS) 134
TABLE 57 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CURING TECHNOLOGY, 2021–2024 (TONS) 138
TABLE 58 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CURING TECHNOLOGY, 2025–2032 (TONS) 138
TABLE 59 ROOM TEMPERATURE CURED: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2021–2024 (TONS) 139
TABLE 60 ROOM TEMPERATURE CURED: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2025–2032 (TONS) 139
TABLE 61 THERMAL CURED: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2021–2024 (TONS) 140
TABLE 62 THERMAL CURED: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY REGION, 2025–2032 (TONS) 141
TABLE 63 UV CURED: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2021–2024 (TONS) 142
TABLE 64 UV CURED: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY REGION, 2025–2032 (TONS) 142
TABLE 65 ELECTRONIC POTTING COMPOUND MARKET, BY EV COMPONENT,
2021–2024 (TONS) 146
TABLE 66 ELECTRONIC POTTING COMPOUND MARKET, BY EV COMPONENT,
2025–2032 (TONS) 146
TABLE 67 ELECTRIC MOTOR STATOR: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2021–2024 (KILOS) 148
TABLE 68 ELECTRIC MOTOR STATOR: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2025–2032 (KILOS) 148
TABLE 69 EV BATTERY CELL: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2021–2024 (KILOS) 149
TABLE 70 EV BATTERY CELL: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2025–2032 (KILOS) 149
TABLE 71 EV BATTERY COOLING SYSTEM: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2021–2024 (KILOS) 150
TABLE 72 EV BATTERY COOLING SYSTEM: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2025–2032 (KILOS) 150
TABLE 73 ON-BOARD CHARGER: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2021–2024 (KILOS) 151
TABLE 74 ON-BOARD CHARGER: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2025–2032 (KILOS) 152
TABLE 75 IN-VEHICLE CHARGING CONNECTOR: ELECTRONIC POTTING COMPOUND MARKET, BY REGION, 2021–2024 (KILOS) 153
TABLE 76 IN-VEHICLE CHARGING CONNECTOR: ELECTRONIC POTTING COMPOUND MARKET, BY REGION, 2025–2032 (KILOS) 153
TABLE 77 IN-VEHICLE POWER CONVERTER: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2021–2024 (KILOS) 154
TABLE 78 IN-VEHICLE POWER CONVERTER: ELECTRONIC POTTING COMPOUND MARKET,
BY REGION, 2025–2032 (KILOS) 154
TABLE 79 OTHERS: ELECTRONIC POTTING COMPOUND MARKET, BY REGION,
2021–2024 (KILOS) 155
TABLE 80 OTHERS: ELECTRONIC POTTING COMPOUND MARKET, BY REGION,
2025–2032 (KILOS) 155
TABLE 81 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY REGION,
2021–2024 (TONS) 160
TABLE 82 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY REGION,
2025–2032 (TONS) 160
TABLE 83 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY REGION,
2021–2024 (USD MILLION) 160
TABLE 84 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY REGION,
2025–2032 (USD MILLION) 161
TABLE 85 ASIA PACIFIC: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2021–2024 (TONS) 162
TABLE 86 ASIA PACIFIC: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2025–2032 (TONS) 163
TABLE 87 ASIA PACIFIC: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2021–2024 (USD MILLION) 163
TABLE 88 ASIA PACIFIC: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2025–2032 (USD MILLION) 164
TABLE 89 CHINA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 165
TABLE 90 CHINA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 165
TABLE 91 CHINA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 165
TABLE 92 CHINA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 166
TABLE 93 INDIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 167
TABLE 94 INDIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 167
TABLE 95 INDIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 167
TABLE 96 INDIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 167
TABLE 97 JAPAN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 168
TABLE 98 JAPAN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 169
TABLE 99 JAPAN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 169
TABLE 100 JAPAN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 169
TABLE 101 SOUTH KOREA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 170
TABLE 102 SOUTH KOREA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 170
TABLE 103 SOUTH KOREA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 171
TABLE 104 SOUTH KOREA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 171
TABLE 105 THAILAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 172
TABLE 106 THAILAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 172
TABLE 107 THAILAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 172
TABLE 108 THAILAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 173
TABLE 109 INDONESIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 173
TABLE 110 INDONESIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 174
TABLE 111 INDONESIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 174
TABLE 112 INDONESIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 174
TABLE 113 SINGAPORE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 175
TABLE 114 SINGAPORE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 175
TABLE 115 SINGAPORE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 175
TABLE 116 SINGAPORE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 176
TABLE 117 EUROPE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2021–2024 (TONS) 177
TABLE 118 EUROPE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2025–2032 (TONS) 178
TABLE 119 EUROPE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2021–2024 (USD MILLION) 178
TABLE 120 EUROPE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY COUNTRY, 2025–2032 (USD MILLION) 179
TABLE 121 AUSTRIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 180
TABLE 122 AUSTRIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 180
TABLE 123 AUSTRIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 180
TABLE 124 AUSTRIA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 180
TABLE 125 DENMARK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 181
TABLE 126 DENMARK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 181
TABLE 127 DENMARK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 182
TABLE 128 DENMARK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 182
TABLE 129 FRANCE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 183
TABLE 130 FRANCE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 183
TABLE 131 FRANCE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 183
TABLE 132 FRANCE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 183
TABLE 133 GERMANY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 184
TABLE 134 GERMANY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 184
TABLE 135 GERMANY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 185
TABLE 136 GERMANY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 185
TABLE 137 NETHERLANDS: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 186
TABLE 138 NETHERLANDS: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 186
TABLE 139 NETHERLANDS: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 186
TABLE 140 NETHERLANDS: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 186
TABLE 141 NORWAY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 187
TABLE 142 NORWAY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 187
TABLE 143 NORWAY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 187
TABLE 144 NORWAY: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 188
TABLE 145 SPAIN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 188
TABLE 146 SPAIN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 189
TABLE 147 SPAIN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 189
TABLE 148 SPAIN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 189
TABLE 149 SWEDEN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 190
TABLE 150 SWEDEN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 190
TABLE 151 SWEDEN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 190
TABLE 152 SWEDEN: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 191
TABLE 153 SWITZERLAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 191
TABLE 154 SWITZERLAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 192
TABLE 155 SWITZERLAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 192
TABLE 156 SWITZERLAND: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 192
TABLE 157 UK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2021–2024 (TONS) 193
TABLE 158 UK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2025–2032 (TONS) 193
TABLE 159 UK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2021–2024 (USD MILLION) 193
TABLE 160 UK: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2025–2032 (USD MILLION) 194
TABLE 161 NORTH AMERICA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY COUNTRY, 2021–2024 (TONS) 195
TABLE 162 NORTH AMERICA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY COUNTRY, 2025–2032 (TONS) 195
TABLE 163 NORTH AMERICA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY COUNTRY, 2021–2024 (USD MILLION) 196
TABLE 164 NORTH AMERICA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY COUNTRY, 2025–2032 (USD MILLION) 196
TABLE 165 US: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2021–2024 (TONS) 197
TABLE 166 US: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2025–2032 (TONS) 197
TABLE 167 US: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2021–2024 (USD MILLION) 197
TABLE 168 US: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2025–2032 (USD MILLION) 198
TABLE 169 CANADA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 198
TABLE 170 CANADA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 199
TABLE 171 CANADA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 199
TABLE 172 CANADA: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 199
TABLE 173 MEXICO: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 200
TABLE 174 MEXICO: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 200
TABLE 175 MEXICO: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 200
TABLE 176 MEXICO: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 201
TABLE 177 REST OF THE WORLD: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY COUNTRY, 2021–2024 (TONS) 202
TABLE 178 REST OF THE WORLD: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY COUNTRY, 2025–2032 (TONS) 202
TABLE 179 REST OF THE WORLD: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY COUNTRY, 2021–2024 (USD MILLION) 202
TABLE 180 REST OF THE WORLD: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY COUNTRY, 2025–2032 (USD MILLION) 202
TABLE 181 BRAZIL: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 203
TABLE 182 BRAZIL: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 203
TABLE 183 BRAZIL: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 204
TABLE 184 BRAZIL: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 204
TABLE 185 UAE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (TONS) 205
TABLE 186 UAE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (TONS) 205
TABLE 187 UAE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2021–2024 (USD MILLION) 205
TABLE 188 UAE: ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CHARGER TYPE, 2025–2032 (USD MILLION) 205
TABLE 189 KEY PLAYER STRATEGIES/RIGHT TO WIN, 2021–2026 207
TABLE 190 MARKET SHARE ANALYSIS OF TOP 5 PLAYERS, 2025 208
TABLE 191 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
REGION FOOTPRINT, 2026 217
TABLE 192 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
CHARGER TYPE FOOTPRINT, 2026 217
TABLE 193 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
MATERIAL TYPE FOOTPRINT, 2026 218
TABLE 194 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
SETUP TYPE FOOTPRINT, 2026 218
TABLE 195 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
LIST OF KEY STARTUPS/SMES 221
TABLE 196 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES 221
TABLE 197 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER: PRODUCT LAUNCHES, JANUARY 2021–FEBRUARY 2026 222
TABLE 198 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
DEALS, JANUARY 2021–FEBRUARY 2026 223
TABLE 199 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
EXPANSIONS, JANUARY 2021–FEBRUARY 2026 224
TABLE 200 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER: OTHER DEVELOPMENTS, JANUARY 2021– FEBRUARY 2026 224
TABLE 201 HENKEL CORPORATION: COMPANY OVERVIEW 226
TABLE 202 HENKEL CORPORATION: PRODUCTS OFFERED 228
TABLE 203 HENKEL CORPORATION: POTTING PRODUCT PORTFOLIO 228
TABLE 204 HENKEL CORPORATION: PRODUCT LAUNCHES 229
TABLE 205 PARKER HANNIFIN CORP: COMPANY OVERVIEW 231
TABLE 206 PARKER HANNIFIN CORP: PRODUCTS OFFERED 232
TABLE 207 PARKER HANNIFIN CORP: POTTING & ENCAPSULANTS PORTFOLIO 233
TABLE 208 PARKER HANNIFIN CORP: OTHER DEVELOPMENTS 233
TABLE 209 ELANTAS: COMPANY OVERVIEW 234
TABLE 210 ELANTAS: PRODUCTS OFFERED 235
TABLE 211 DOW: COMPANY OVERVIEW 237
TABLE 212 DOW: PRODUCTS OFFERED 238
TABLE 213 DOW: PRODUCT LAUNCHES 239
TABLE 214 DOW: OTHER DEVELOPMENTS 240
TABLE 215 MOMENTIVE: COMPANY OVERVIEW 241
TABLE 216 MOMENTIVE: PRODUCTS OFFERED 241
TABLE 217 ELECTROLUBE: COMPANY OVERVIEW 243
TABLE 218 ELECTROLUBE: PRODUCTS OFFERED 243
TABLE 219 ELECTROLUBE: OTHER DEVELOPMENTS 243
TABLE 220 DEMAK GROUP: COMPANY OVERVIEW 244
TABLE 221 DEMAK GROUP: PRODUCTS OFFERED 244
TABLE 222 WEVO-CHEMIE GMBH: COMPANY OVERVIEW 246
TABLE 223 WEVO-CHEMIE GMBH: PRODUCTS OFFERED 246
TABLE 224 WEVO-CHEMIE GMBH: SOLUTIONS FOR EV CHARGING 247
TABLE 225 WEVO-CHEMIE GMBH: PRODUCT LAUNCHES 247
TABLE 226 EPOXIES, ETC.: COMPANY OVERVIEW 248
TABLE 227 EPOXIES, ETC.: PRODUCTS OFFERED 248
TABLE 228 RAMPF: COMPANY OVERVIEW 250
TABLE 229 RAMPF: PRODUCTS OFFERED 250
TABLE 230 RAMPF: EXPANSIONS 251
TABLE 231 RAMPF: OTHER DEVELOPMENTS 251
TABLE 232 KISLING: COMPANY OVERVIEW 252
TABLE 233 KISLING: PRODUCTS OFFERED 252
TABLE 234 KISLING: DEALS 253
TABLE 235 SIKA AUTOMOTIVE: COMPANY OVERVIEW 254
TABLE 236 SIKA AUTOMOTIVE: PRODUCTS OFFERED 254
LIST OF FIGURES
FIGURE 1 MARKET SCENARIO 34
FIGURE 2 GLOBAL ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, 2021–2032 35
FIGURE 3 MAJOR STRATEGIES ADOPTED BY KEY PLAYERS IN ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, 2021–2025 35
FIGURE 4 DISRUPTIONS INFLUENCING GROWTH OF ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER 36
FIGURE 5 HIGH-GROWTH SEGMENTS IN ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, 2025-2032 37
FIGURE 6 ASIA PACIFIC TO REGISTER HIGHEST GROWTH DURING FORECAST PERIOD 38
FIGURE 7 GROWTH IN HIGH-POWER EV CHARGER INSTALLATIONS REQUIRING INSULATION AND THERMAL PROTECTION TO DRIVE MARKET 39
FIGURE 8 ASIA PACIFIC ACCOUNTED FOR LARGEST MARKET SHARE IN 2025 40
FIGURE 9 STATIONARY TO BE FASTER-GROWING SEGMENT THAN WALL MOUNT DURING FORECAST PERIOD 40
FIGURE 10 DC CHARGER SEGMENT TO LEAD MARKET IN 2032 41
FIGURE 11 EPOXY SEGMENT TO BE FASTEST-GROWING SEGMENT DURING FORECAST PERIOD 41
FIGURE 12 THERMAL CURED SEGMENT TO ACCOUNT FOR LARGEST MARKET SHARE IN 2032 42
FIGURE 13 EV BATTERY CELL SEGMENT TO ACCOUNT FOR LARGEST MARKET SHARE IN 2032 42
FIGURE 14 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER: DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES 44
FIGURE 15 TRENDS & DISRUPTIONS IMPACTING CUSTOMER BUSINESS 60
FIGURE 16 INDICATIVE PRICING ANALYSIS, BY CHARGER TYPE, 2024–2026 (USD/TON) 62
FIGURE 17 AVERAGE SELLING PRICE TREND FOR AC CHARGERS, BY REGION,
2024–2026 (USD/TON) 63
FIGURE 18 AVERAGE SELLING PRICE TREND FOR DC CHARGERS, BY REGION,
2024–2026 (USD/TON) 64
FIGURE 19 ELECTRONIC COMPOUND MARKET FOR EV CHARGER ECOSYSTEM 65
FIGURE 20 SUPPLY CHAIN ANALYSIS 67
FIGURE 21 INVESTMENT AND FUNDING SCENARIO, 2022–2025 72
FIGURE 22 IMPORT DATA FOR HS CODE 3910, BY COUNTRY, 2021–2024 (USD MILLION) 73
FIGURE 23 EXPORT DATA FOR HS CODE 3910, BY COUNTRY, 2021–2024 (USD MILLION) 75
FIGURE 24 IMPORT DATA FOR HS CODE 390730, BY COUNTRY, 2021–2024 (USD MILLION) 76
FIGURE 25 EXPORT DATA FOR HS CODE 390730, BY COUNTRY, 2021–2024 (USD MILLION) 77
FIGURE 26 PATENT ANALYSIS, 2016-2025 84
FIGURE 27 LEGAL STATUS OF PATENTS, 2016–2025 85
FIGURE 28 INFLUENCE OF STAKEHOLDERS ON BUYING PROCESS OF POTTING COMPOUND IN EV CHARGER, BY CHARGER TYPE 109
FIGURE 29 KEY BUYING CRITERIA FOR POTTING COMPOUND IN EV CHARGER,
BY CHARGER TYPE 111
FIGURE 30 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY CHARGER TYPE, 2025 VS. 2032 (USD MILLION) 114
FIGURE 31 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY SETUP TYPE, 2025 VS. 2032 (TONS) 122
FIGURE 32 EV POTTING COMPOUND MATERIAL, BY TEMPERATURE RESISTANCE 128
FIGURE 33 EV POTTING COMPOUND MATERIAL, BY FLEXIBILITY AND MECHANICAL STRENGTH 129
FIGURE 34 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER, BY MATERIAL TYPE, 2025 VS. 2032 (TONS) 130
FIGURE 35 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY CURING TECHNOLOGY, 2025 VS. 2032 (TONS) 137
FIGURE 36 ELECTRONIC POTTING COMPOUND MARKET, BY EV COMPONENT,
2025 VS. 2032 (TONS) 145
FIGURE 37 EV MOTOR POTTING COMPOUND, THERMALLY CONDUCTIVE 147
FIGURE 38 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER,
BY REGION, 2025 VS. 2032 (USD MILLION) 159
FIGURE 39 ASIA PACIFIC: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER SNAPSHOT 162
FIGURE 40 EUROPE: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER, BY COUNTRY, 2025 VS. 2032 (USD MILLION) 177
FIGURE 41 NORTH AMERICA: ELECTRONIC POTTING COMPOUND MARKET FOR
EV CHARGER SNAPSHOT 195
FIGURE 42 REST OF THE WORLD: ELECTRONIC POTTING COMPOUND MARKET
FOR EV CHARGER, BY COUNTRY, 2025 VS. 2032 (USD MILLION) 201
FIGURE 43 MARKET SHARE ANALYSIS OF TOP EV CHARGER POTTING COMPOUND MANUFACTURERS, 2025 209
FIGURE 44 REVENUE ANALYSIS OF TOP LISTED MARKET PLAYERS, 2020–2024 211
FIGURE 45 COMPANY VALUATION OF TOP LISTED PLAYERS, 2026 (USD BILLION) 212
FIGURE 46 FINANCIAL METRICS OF TOP-LISTED PLAYERS, 2026 212
FIGURE 47 BRAND COMPARISON OF TOP 5 PLAYERS 213
FIGURE 48 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
COMPANY EVALUATION MATRIX (KEY PLAYERS), 2026 215
FIGURE 49 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
COMPANY FOOTPRINT, 2026 216
FIGURE 50 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
STARTUP/SME EVALUATION MATRIX, 2026 220
FIGURE 51 HENKEL CORPORATION: COMPANY SNAPSHOT 227
FIGURE 52 HENKEL CORPORATION: APPLICATION OF POTTING IN CHARGING CONNECTORS 227
FIGURE 53 PARKER HANNIFIN CORP: COMPANY SNAPSHOT 232
FIGURE 54 ELANTAS: COMPANY SNAPSHOT 234
FIGURE 55 DOW: COMPANY SNAPSHOT 238
FIGURE 56 RESEARCH DESIGN 267
FIGURE 57 RESEARCH PROCESS FLOW 268
FIGURE 58 KEY INSIGHTS FROM INDUSTRY EXPERTS 271
FIGURE 59 BREAKDOWN OF PRIMARY INTERVIEWS 271
FIGURE 60 RESEARCH METHODOLOGY: HYPOTHESIS BUILDING 273
FIGURE 61 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
BOTTOM-UP APPROACH 274
FIGURE 62 ELECTRONIC POTTING COMPOUND MARKET FOR EV CHARGER:
TOP-DOWN APPROACH 275
FIGURE 63 DATA TRIANGULATION 276
FIGURE 64 MARKET GROWTH PROJECTIONS FROM DEMAND-SIDE
DRIVERS AND OPPORTUNITIES 277