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Solder Materials for New Energy Vehicles Market - Global Forecast to 2030- Product Image
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Solder Materials for New Energy Vehicles Market - Global Forecast to 2030

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    Report

  • 180 Pages
  • May 2025
  • Region: Global, United States
  • 360iResearch™
  • ID: 6080864
1h Free Analyst Time
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New energy vehicles (NEVs) are redefining the automotive industry by integrating sophisticated electronic systems to optimize efficiency, safety, and performance. At the heart of these systems lies solder materials, whose reliability and conductivity determine the longevity of battery connections, powertrain assemblies, and control modules. Over the past decade, stringent environmental regulations and the imperative for enhanced thermal management have driven a shift away from traditional lead-based solders toward advanced lead-free alloys. This transition, coupled with rising operational demands in high-voltage and high-cycle fatigue environments, underscores the critical role of solder selection in ensuring vehicle uptime and passenger safety.

Against this backdrop, this executive summary provides a concise yet thorough exploration of key industry developments, emerging challenges, and strategic imperatives. It highlights transformative shifts in alloy composition, advanced manufacturing techniques, and tariff-induced supply-chain dynamics. In addition, it distills segmentation insights across alloy types, material compositions, production processes, application scenarios, bonding requirements, form factors, end-user segments, thermal fatigue performance, and intermetallic behavior. By synthesizing regional trends and profiling leading innovators, this analysis equips decision-makers with the intelligence needed to navigate complexity and capitalize on growth opportunities in the NEV solder materials arena.

Transformative Shifts Shaping the Solder Materials Landscape

Electrification of mobility has triggered profound changes in solder materials development, driven by evolving performance criteria and regulatory mandates. As compliance with RoHS and REACH directives intensified, manufacturers accelerated the adoption of lead-free alloys, ranging from bismuth and silver-free blends to tin-silver-copper compositions, to reduce environmental footprint without compromising conductivity. Simultaneously, the rise of high-precision battery modules and compact inverters compelled suppliers to explore micro-laser and ultrasonic soldering over conventional reflow and wave methods, markedly enhancing joint integrity and repeatability.

Furthermore, the growing emphasis on thermal management has elevated research into heat-dissipating additives and optimized wetting agents, balancing mechanical strength with efficient heat transfer. Collaborative ventures between automotive OEMs and materials innovators have fostered co-development of tailor-made solder powders and preforms designed to withstand high-voltage scenarios and severe vibration profiles. In tandem, digital process control and real-time defect detection are reshaping quality assurance, enabling manufacturers to minimize scrap rates and meet the exacting reliability standards of tomorrow’s NEVs.

Cumulative Impact of United States Tariffs 2025 on Solder Supply Chains

The imposition of new tariffs on key solder raw materials and intermediate goods by the United States in 2025 has reverberated across global supply chains. Import duties on refined tin, silver, and specialized fluxes have elevated procurement costs, prompting many suppliers to reevaluate sourcing strategies. In response, some manufacturers have diversified their vendor base, forging partnerships with producers in Asia-Pacific and Europe, Middle East & Africa to mitigate exposure to single-source dependencies.

Meanwhile, reshoring initiatives have gained momentum as companies seek greater control over quality and logistics, reducing lead times for high-precision components. Yet this pivot carries its own challenges, including the need to invest in advanced equipment for induction and laser soldering and to upskill the workforce. Ultimately, these tariffs underscore the necessity of agile supply-chain planning and proactive risk management to sustain operational continuity in a rapidly evolving regulatory environment.

Key Segmentation Insights for Solder Materials Market

Segmentation by solder type reveals a bifurcation between traditional lead-based offerings-encompassing high-lead alloys valued for robustness and tin-lead blends prized for cost efficiency-and advanced lead-free alternatives including bismuth, silver-free, and tin-silver-copper formulations engineered for superior thermal fatigue resistance. In parallel, analysis based on material composition distinguishes electroplated finishes characterized by controlled impurity profiles and precise major and minor element distributions from solders with additives that leverage grain refiners and specialized wetting agents to optimize joint strength and solder spread.

From a manufacturing perspective, advanced techniques such as induction, laser, and ultrasonic soldering are rapidly gaining ground over conventional reflow and wave soldering, delivering enhanced process repeatability and minimal thermal impact on sensitive components. Application-based segmentation highlights the divergent needs of battery connections, which demand high-voltage insulation and low-voltage stability, versus powertrain components where inverters and electric motors demand joints resilient to mechanical stress and thermal cycling.

Bonding requirements further stratify the market into solutions emphasizing mechanical strength for impact and vibration resistance, and those prioritizing thermal management optimization through innovative heat-dissipation approaches. Form factor analysis underscores the versatility of solder paste classified by activity level and vapor pressure, the precision dosing advantages of pellets, the geometric flexibility offered by preforms, and the handling simplicity of wire formats in rosin and solid core variations.

End-user segmentation illuminates the diverse end markets served by aftermarket services focused on maintenance and repair, by original equipment manufacturers collaborating closely with automakers and battery suppliers, and by research and development entities operating in material testing and prototyping labs. Specialized performance categories based on thermal fatigue resistance differentiate high-cycle fatigue alloys tested for temperature variance tolerance from low-cycle counterparts undergoing rigorous thermomechanical analysis. Finally, intermetallic compound formation is scrutinized via growth-rate studies influenced by temperature and phase-identification protocols leveraging microscopic analysis to ensure joint reliability at the atomic level.

Key Regional Insights into Global Solder Materials Trends

In the Americas, an established electronics manufacturing infrastructure coupled with strong automotive OEM presence continues to drive demand for both lead-based and lead-free solder solutions. Local policies incentivizing reshoring have prompted greater investment in advanced soldering equipment and workforce training, enhancing production agility. Conversely, Europe, Middle East & Africa exhibits a growing emphasis on sustainability and circular economy principles, resulting in accelerated phase-out of toxic flux components and heightened adoption of eco-friendly solder formulations developed in compliance with regional environmental directives.

Meanwhile, Asia-Pacific remains the largest hub for solder materials production and consumption, propelled by extensive battery manufacturing ecosystems and significant R&D investment in next-generation alloys. Strategic partnerships between East Asian materials suppliers and global automotive players have yielded innovative solder compositions tailored for ultra-high-voltage systems. Across all regions, shifting trade dynamics and geopolitical considerations continue to reshape supply-chain alignments, driving manufacturers to pursue multi-regional sourcing and local assembly strategies.

Key Companies Driving Innovation in Solder Materials

Leading innovators such as AIM Solder have demonstrated expertise in formulating flux-enhanced pastes for demanding high-voltage connections, while Alpha Assembly Solutions has pioneered silver-free solder alloys that balance conductivity with cost efficiency. Balver Zinn Josef Jost GmbH & Co. KG and Cookson Electronics - Assembly Materials have further contributed by developing proprietary electroplating techniques for precision element control, and Henkel AG & Co. KGaA has leveraged its adhesives portfolio to introduce hybrid bonding solutions combining solder and polymer interconnects.

Heraeus Holding GmbH and Indium Corporation have been at the forefront of high-reliability tin-silver-copper blends optimized for thermal cycling, whereas Kester and Nihon Superior Co., Ltd. have focused on wetting agent innovation to improve joint uniformity. Qualitek International, Inc. and Senju Metal Industry Co., Ltd. continue to expand production capacity for solder wire with advanced core formulations, while Shenzhen Vital New Material Co., Ltd. and Tamura Corporation enhance their offerings with specialized preforms tailored for compact battery modules. Finally, Zhejiang Brother Electronics Technology Co., Ltd. rounds out this ecosystem by integrating advanced testing protocols to ensure intermetallic consistency and microstructure stability.

Actionable Recommendations for Industry Leaders

Industry leaders should prioritize development of next-generation lead-free alloys by collaborating with battery and powertrain OEMs to align alloy properties with evolving electrical and mechanical demands. Investment in hybrid manufacturing lines that integrate laser, induction, and ultrasonic soldering will enable rapid changeover between high-precision and high-volume processes, reducing downtime and enhancing throughput.

Moreover, firms must diversify supply-chain channels to mitigate exposure to regional tariff fluctuations, establishing secondary partnerships in low-tariff zones and co-investing in local capacity to secure critical raw materials. Strengthening R&D capabilities through dedicated material testing facilities and prototyping labs will accelerate formulation cycles, enabling faster response to emerging performance challenges such as high-cycle fatigue and intermetallic suppression.

Adoption of digital process control systems, including in-line X-ray inspection and AI-driven defect detection, will yield real-time insights that drive continuous improvement and lower scrap rates. Finally, aligning sustainability goals with product roadmaps by incorporating recyclable flux formulations and reducing hazardous byproducts will not only enhance brand reputation but also ensure compliance with tightening global environmental regulations.

Conclusion and Strategic Outlook

The solder materials sector stands at a pivotal juncture, as the confluence of electrification, regulatory pressure, and advanced manufacturing reshapes demand dynamics. Manufacturers that embrace a holistic approach-integrating alloy innovation, digital process control, and supply-chain diversification-will secure competitive advantage and future-proof their businesses.

By leveraging segmentation insights to tailor offerings across application types, bonding requirements, and form factors, companies can address the nuanced needs of battery connections, powertrain modules, and specialized R&D applications. Meanwhile, regional agility and strategic partnerships with leading innovators will ensure access to cutting-edge technologies and emerging markets.

Ultimately, proactive investment in talent development, advanced equipment, and collaborative R&D will define the next generation of solder solutions, empowering OEMs and aftermarket providers to meet the reliability, sustainability, and performance benchmarks of tomorrow’s new energy vehicles.

Market Segmentation & Coverage

This research report categorizes the Solder Materials for New Energy Vehicles Market to forecast the revenues and analyze trends in each of the following sub-segmentations:

  • Lead-Based
    • High-Lead Alloys
    • Tin-Lead Alloys
  • Lead-Free
    • Bismuth Alloys
    • Silver-Free Alloys
    • Tin-Silver-Copper Alloys
  • Electroplated
    • Impurities
    • Major Elements
    • Minor Elements
  • Solders With Additives
    • With Grain Refiners
    • With Wetting Agents
  • Advanced Techniques
    • Induction Soldering
    • Laser Soldering
    • Ultrasonic Soldering
  • Traditional Methods
    • Reflow Soldering
    • Wave Soldering
  • Battery Connections
    • High Voltage Applications
    • Low Voltage Applications
  • Powertrain Components
    • Electric Motors
    • Inverters
  • Mechanical Strength Emphasis
    • Impact Resistance
    • Vibration Resistance
  • Thermal Management Optimization
    • Heat Dissipation Techniques
  • Paste
    • High-Activity Levels
    • Low Vapor Pressure
  • Pellets
    • Bulk Applications
    • Precise Dosage
  • Preforms
    • Complex Geometries
    • High-Precision
  • Wire
    • Rosin Core
    • Solid Core
  • Aftermarket Services
    • Maintenance Services
    • Repair Shops
  • Original Equipment Manufacturers
    • Automakers
    • Battery Manufacturers
  • Research And Development
    • Material Testing Facilities
    • Prototyping Labs
  • High-Cycle Fatigue Resistance
    • Temperature Variance Tolerance
  • Low-Cycle Fatigue Resistance
    • Thermomechanical Analysis
  • Growth Rate
    • Temperature Influence
  • Phase Identification
    • Microscopic Analysis

This research report categorizes the Solder Materials for New Energy Vehicles Market to forecast the revenues and analyze trends in each of the following sub-regions:

  • Americas
    • Argentina
    • Brazil
    • Canada
    • Mexico
    • United States
      • California
      • Florida
      • Illinois
      • New York
      • Ohio
      • Pennsylvania
      • Texas
  • Asia-Pacific
    • Australia
    • China
    • India
    • Indonesia
    • Japan
    • Malaysia
    • Philippines
    • Singapore
    • South Korea
    • Taiwan
    • Thailand
    • Vietnam
  • Europe, Middle East & Africa
    • Denmark
    • Egypt
    • Finland
    • France
    • Germany
    • Israel
    • Italy
    • Netherlands
    • Nigeria
    • Norway
    • Poland
    • Qatar
    • Russia
    • Saudi Arabia
    • South Africa
    • Spain
    • Sweden
    • Switzerland
    • Turkey
    • United Arab Emirates
    • United Kingdom

This research report categorizes the Solder Materials for New Energy Vehicles Market to delves into recent significant developments and analyze trends in each of the following companies:

  • AIM Solder
  • Alpha Assembly Solutions
  • Balver Zinn Josef Jost GmbH & Co. KG
  • Cookson Electronics - Assembly Materials
  • Henkel AG & Co. KGaA
  • Heraeus Holding GmbH
  • Indium Corporation
  • Kester
  • Nihon Superior Co., Ltd.
  • Qualitek International, Inc.
  • Senju Metal Industry Co., Ltd.
  • Shenzhen Vital New Material Co., Ltd.
  • Tamura Corporation
  • Zhejiang Brother Electronics Technology Co., Ltd.

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Table of Contents

1. Preface
1.1. Objectives of the Study
1.2. Market Segmentation & Coverage
1.3. Years Considered for the Study
1.4. Currency & Pricing
1.5. Language
1.6. Stakeholders
2. Research Methodology
2.1. Define: Research Objective
2.2. Determine: Research Design
2.3. Prepare: Research Instrument
2.4. Collect: Data Source
2.5. Analyze: Data Interpretation
2.6. Formulate: Data Verification
2.7. Publish: Research Report
2.8. Repeat: Report Update
3. Executive Summary
4. Market Overview
4.1. Introduction
4.2. Market Sizing & Forecasting
5. Market Dynamics
6. Market Insights
6.1. Porter’s Five Forces Analysis
6.2. PESTLE Analysis
7. Cumulative Impact of United States Tariffs 2025
8. Solder Materials for New Energy Vehicles Market, by Solder Type
8.1. Introduction
8.2. Lead-Based
8.2.1. High-Lead Alloys
8.2.2. Tin-Lead Alloys
8.3. Lead-Free
8.3.1. Bismuth Alloys
8.3.2. Silver-Free Alloys
8.3.3. Tin-Silver-Copper Alloys
9. Solder Materials for New Energy Vehicles Market, by Material Composition
9.1. Introduction
9.2. Electroplated
9.2.1. Impurities
9.2.2. Major Elements
9.2.3. Minor Elements
9.3. Solders With Additives
9.3.1. With Grain Refiners
9.3.2. With Wetting Agents
10. Solder Materials for New Energy Vehicles Market, by Manufacturing Process
10.1. Introduction
10.2. Advanced Techniques
10.2.1. Induction Soldering
10.2.2. Laser Soldering
10.2.3. Ultrasonic Soldering
10.3. Traditional Methods
10.3.1. Reflow Soldering
10.3.2. Wave Soldering
11. Solder Materials for New Energy Vehicles Market, by Application Type
11.1. Introduction
11.2. Battery Connections
11.2.1. High Voltage Applications
11.2.2. Low Voltage Applications
11.3. Powertrain Components
11.3.1. Electric Motors
11.3.2. Inverters
12. Solder Materials for New Energy Vehicles Market, by Bonding Requirements
12.1. Introduction
12.2. Mechanical Strength Emphasis
12.2.1. Impact Resistance
12.2.2. Vibration Resistance
12.3. Thermal Management Optimization
12.3.1. Heat Dissipation Techniques
13. Solder Materials for New Energy Vehicles Market, by Solder Form Factor
13.1. Introduction
13.2. Paste
13.2.1. High-Activity Levels
13.2.2. Low Vapor Pressure
13.3. Pellets
13.3.1. Bulk Applications
13.3.2. Precise Dosage
13.4. Preforms
13.4.1. Complex Geometries
13.4.2. High-Precision
13.5. Wire
13.5.1. Rosin Core
13.5.2. Solid Core
14. Solder Materials for New Energy Vehicles Market, by End-User Application
14.1. Introduction
14.2. Aftermarket Services
14.2.1. Maintenance Services
14.2.2. Repair Shops
14.3. Original Equipment Manufacturers
14.3.1. Automakers
14.3.2. Battery Manufacturers
14.4. Research And Development
14.4.1. Material Testing Facilities
14.4.2. Prototyping Labs
15. Solder Materials for New Energy Vehicles Market, by Thermal Fatigue Resistance
15.1. Introduction
15.2. High-Cycle Fatigue Resistance
15.2.1. Temperature Variance Tolerance
15.3. Low-Cycle Fatigue Resistance
15.3.1. Thermomechanical Analysis
16. Solder Materials for New Energy Vehicles Market, by Intermetallic Compound Formation
16.1. Introduction
16.2. Growth Rate
16.2.1. Temperature Influence
16.3. Phase Identification
16.3.1. Microscopic Analysis
17. Americas Solder Materials for New Energy Vehicles Market
17.1. Introduction
17.2. Argentina
17.3. Brazil
17.4. Canada
17.5. Mexico
17.6. United States
18. Asia-Pacific Solder Materials for New Energy Vehicles Market
18.1. Introduction
18.2. Australia
18.3. China
18.4. India
18.5. Indonesia
18.6. Japan
18.7. Malaysia
18.8. Philippines
18.9. Singapore
18.10. South Korea
18.11. Taiwan
18.12. Thailand
18.13. Vietnam
19. Europe, Middle East & Africa Solder Materials for New Energy Vehicles Market
19.1. Introduction
19.2. Denmark
19.3. Egypt
19.4. Finland
19.5. France
19.6. Germany
19.7. Israel
19.8. Italy
19.9. Netherlands
19.10. Nigeria
19.11. Norway
19.12. Poland
19.13. Qatar
19.14. Russia
19.15. Saudi Arabia
19.16. South Africa
19.17. Spain
19.18. Sweden
19.19. Switzerland
19.20. Turkey
19.21. United Arab Emirates
19.22. United Kingdom
20. Competitive Landscape
20.1. Market Share Analysis, 2024
20.2. FPNV Positioning Matrix, 2024
20.3. Competitive Analysis
20.3.1. AIM Solder
20.3.2. Alpha Assembly Solutions
20.3.3. Balver Zinn Josef Jost GmbH & Co. KG
20.3.4. Cookson Electronics - Assembly Materials
20.3.5. Henkel AG & Co. KGaA
20.3.6. Heraeus Holding GmbH
20.3.7. Indium Corporation
20.3.8. Kester
20.3.9. Nihon Superior Co., Ltd.
20.3.10. Qualitek International, Inc.
20.3.11. Senju Metal Industry Co., Ltd.
20.3.12. Shenzhen Vital New Material Co., Ltd.
20.3.13. Tamura Corporation
20.3.14. Zhejiang Brother Electronics Technology Co., Ltd.
21. ResearchAI
22. ResearchStatistics
23. ResearchContacts
24. ResearchArticles
25. Appendix
List of Figures
FIGURE 1. SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET MULTI-CURRENCY
FIGURE 2. SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET MULTI-LANGUAGE
FIGURE 3. SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET RESEARCH PROCESS
FIGURE 4. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, 2018-2030 (USD MILLION)
FIGURE 5. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY REGION, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 6. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 7. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2024 VS 2030 (%)
FIGURE 8. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 9. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2024 VS 2030 (%)
FIGURE 10. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 11. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2024 VS 2030 (%)
FIGURE 12. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 13. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2024 VS 2030 (%)
FIGURE 14. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 15. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2024 VS 2030 (%)
FIGURE 16. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 17. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2024 VS 2030 (%)
FIGURE 18. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 19. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2024 VS 2030 (%)
FIGURE 20. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 21. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2024 VS 2030 (%)
FIGURE 22. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 23. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2024 VS 2030 (%)
FIGURE 24. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 25. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2024 VS 2030 (%)
FIGURE 26. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 27. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY STATE, 2024 VS 2030 (%)
FIGURE 28. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY STATE, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 29. ASIA-PACIFIC SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2024 VS 2030 (%)
FIGURE 30. ASIA-PACIFIC SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 31. EUROPE, MIDDLE EAST & AFRICA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2024 VS 2030 (%)
FIGURE 32. EUROPE, MIDDLE EAST & AFRICA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2024 VS 2025 VS 2030 (USD MILLION)
FIGURE 33. SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SHARE, BY KEY PLAYER, 2024
FIGURE 34. SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET, FPNV POSITIONING MATRIX, 2024
List of Tables
TABLE 1. SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SEGMENTATION & COVERAGE
TABLE 2. UNITED STATES DOLLAR EXCHANGE RATE, 2018-2024
TABLE 3. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, 2018-2030 (USD MILLION)
TABLE 4. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY REGION, 2018-2030 (USD MILLION)
TABLE 5. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2018-2030 (USD MILLION)
TABLE 6. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2018-2030 (USD MILLION)
TABLE 7. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, BY REGION, 2018-2030 (USD MILLION)
TABLE 8. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-LEAD ALLOYS, BY REGION, 2018-2030 (USD MILLION)
TABLE 9. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TIN-LEAD ALLOYS, BY REGION, 2018-2030 (USD MILLION)
TABLE 10. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, 2018-2030 (USD MILLION)
TABLE 11. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, BY REGION, 2018-2030 (USD MILLION)
TABLE 12. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BISMUTH ALLOYS, BY REGION, 2018-2030 (USD MILLION)
TABLE 13. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SILVER-FREE ALLOYS, BY REGION, 2018-2030 (USD MILLION)
TABLE 14. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TIN-SILVER-COPPER ALLOYS, BY REGION, 2018-2030 (USD MILLION)
TABLE 15. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, 2018-2030 (USD MILLION)
TABLE 16. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2018-2030 (USD MILLION)
TABLE 17. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, BY REGION, 2018-2030 (USD MILLION)
TABLE 18. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY IMPURITIES, BY REGION, 2018-2030 (USD MILLION)
TABLE 19. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MAJOR ELEMENTS, BY REGION, 2018-2030 (USD MILLION)
TABLE 20. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MINOR ELEMENTS, BY REGION, 2018-2030 (USD MILLION)
TABLE 21. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, 2018-2030 (USD MILLION)
TABLE 22. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, BY REGION, 2018-2030 (USD MILLION)
TABLE 23. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WITH GRAIN REFINERS, BY REGION, 2018-2030 (USD MILLION)
TABLE 24. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WITH WETTING AGENTS, BY REGION, 2018-2030 (USD MILLION)
TABLE 25. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, 2018-2030 (USD MILLION)
TABLE 26. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2018-2030 (USD MILLION)
TABLE 27. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, BY REGION, 2018-2030 (USD MILLION)
TABLE 28. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INDUCTION SOLDERING, BY REGION, 2018-2030 (USD MILLION)
TABLE 29. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LASER SOLDERING, BY REGION, 2018-2030 (USD MILLION)
TABLE 30. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ULTRASONIC SOLDERING, BY REGION, 2018-2030 (USD MILLION)
TABLE 31. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, 2018-2030 (USD MILLION)
TABLE 32. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, BY REGION, 2018-2030 (USD MILLION)
TABLE 33. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY REFLOW SOLDERING, BY REGION, 2018-2030 (USD MILLION)
TABLE 34. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WAVE SOLDERING, BY REGION, 2018-2030 (USD MILLION)
TABLE 35. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, 2018-2030 (USD MILLION)
TABLE 36. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2018-2030 (USD MILLION)
TABLE 37. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, BY REGION, 2018-2030 (USD MILLION)
TABLE 38. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH VOLTAGE APPLICATIONS, BY REGION, 2018-2030 (USD MILLION)
TABLE 39. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW VOLTAGE APPLICATIONS, BY REGION, 2018-2030 (USD MILLION)
TABLE 40. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, 2018-2030 (USD MILLION)
TABLE 41. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, BY REGION, 2018-2030 (USD MILLION)
TABLE 42. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTRIC MOTORS, BY REGION, 2018-2030 (USD MILLION)
TABLE 43. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INVERTERS, BY REGION, 2018-2030 (USD MILLION)
TABLE 44. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, 2018-2030 (USD MILLION)
TABLE 45. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2018-2030 (USD MILLION)
TABLE 46. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, BY REGION, 2018-2030 (USD MILLION)
TABLE 47. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY IMPACT RESISTANCE, BY REGION, 2018-2030 (USD MILLION)
TABLE 48. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY VIBRATION RESISTANCE, BY REGION, 2018-2030 (USD MILLION)
TABLE 49. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, 2018-2030 (USD MILLION)
TABLE 50. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, BY REGION, 2018-2030 (USD MILLION)
TABLE 51. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HEAT DISSIPATION TECHNIQUES, BY REGION, 2018-2030 (USD MILLION)
TABLE 52. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, 2018-2030 (USD MILLION)
TABLE 53. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2018-2030 (USD MILLION)
TABLE 54. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, BY REGION, 2018-2030 (USD MILLION)
TABLE 55. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-ACTIVITY LEVELS, BY REGION, 2018-2030 (USD MILLION)
TABLE 56. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW VAPOR PRESSURE, BY REGION, 2018-2030 (USD MILLION)
TABLE 57. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, 2018-2030 (USD MILLION)
TABLE 58. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, BY REGION, 2018-2030 (USD MILLION)
TABLE 59. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BULK APPLICATIONS, BY REGION, 2018-2030 (USD MILLION)
TABLE 60. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PRECISE DOSAGE, BY REGION, 2018-2030 (USD MILLION)
TABLE 61. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, 2018-2030 (USD MILLION)
TABLE 62. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, BY REGION, 2018-2030 (USD MILLION)
TABLE 63. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COMPLEX GEOMETRIES, BY REGION, 2018-2030 (USD MILLION)
TABLE 64. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-PRECISION, BY REGION, 2018-2030 (USD MILLION)
TABLE 65. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, 2018-2030 (USD MILLION)
TABLE 66. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, BY REGION, 2018-2030 (USD MILLION)
TABLE 67. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ROSIN CORE, BY REGION, 2018-2030 (USD MILLION)
TABLE 68. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLID CORE, BY REGION, 2018-2030 (USD MILLION)
TABLE 69. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, 2018-2030 (USD MILLION)
TABLE 70. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2018-2030 (USD MILLION)
TABLE 71. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AFTERMARKET SERVICES, BY REGION, 2018-2030 (USD MILLION)
TABLE 72. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MAINTENANCE SERVICES, BY REGION, 2018-2030 (USD MILLION)
TABLE 73. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY REPAIR SHOPS, BY REGION, 2018-2030 (USD MILLION)
TABLE 74. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AFTERMARKET SERVICES, 2018-2030 (USD MILLION)
TABLE 75. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ORIGINAL EQUIPMENT MANUFACTURERS, BY REGION, 2018-2030 (USD MILLION)
TABLE 76. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AUTOMAKERS, BY REGION, 2018-2030 (USD MILLION)
TABLE 77. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY MANUFACTURERS, BY REGION, 2018-2030 (USD MILLION)
TABLE 78. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ORIGINAL EQUIPMENT MANUFACTURERS, 2018-2030 (USD MILLION)
TABLE 79. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY RESEARCH AND DEVELOPMENT, BY REGION, 2018-2030 (USD MILLION)
TABLE 80. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL TESTING FACILITIES, BY REGION, 2018-2030 (USD MILLION)
TABLE 81. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PROTOTYPING LABS, BY REGION, 2018-2030 (USD MILLION)
TABLE 82. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY RESEARCH AND DEVELOPMENT, 2018-2030 (USD MILLION)
TABLE 83. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 84. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-CYCLE FATIGUE RESISTANCE, BY REGION, 2018-2030 (USD MILLION)
TABLE 85. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TEMPERATURE VARIANCE TOLERANCE, BY REGION, 2018-2030 (USD MILLION)
TABLE 86. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 87. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW-CYCLE FATIGUE RESISTANCE, BY REGION, 2018-2030 (USD MILLION)
TABLE 88. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMOMECHANICAL ANALYSIS, BY REGION, 2018-2030 (USD MILLION)
TABLE 89. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 90. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2018-2030 (USD MILLION)
TABLE 91. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY GROWTH RATE, BY REGION, 2018-2030 (USD MILLION)
TABLE 92. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TEMPERATURE INFLUENCE, BY REGION, 2018-2030 (USD MILLION)
TABLE 93. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY GROWTH RATE, 2018-2030 (USD MILLION)
TABLE 94. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PHASE IDENTIFICATION, BY REGION, 2018-2030 (USD MILLION)
TABLE 95. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MICROSCOPIC ANALYSIS, BY REGION, 2018-2030 (USD MILLION)
TABLE 96. GLOBAL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PHASE IDENTIFICATION, 2018-2030 (USD MILLION)
TABLE 97. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2018-2030 (USD MILLION)
TABLE 98. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, 2018-2030 (USD MILLION)
TABLE 99. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, 2018-2030 (USD MILLION)
TABLE 100. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2018-2030 (USD MILLION)
TABLE 101. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, 2018-2030 (USD MILLION)
TABLE 102. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, 2018-2030 (USD MILLION)
TABLE 103. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2018-2030 (USD MILLION)
TABLE 104. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, 2018-2030 (USD MILLION)
TABLE 105. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, 2018-2030 (USD MILLION)
TABLE 106. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2018-2030 (USD MILLION)
TABLE 107. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, 2018-2030 (USD MILLION)
TABLE 108. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, 2018-2030 (USD MILLION)
TABLE 109. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2018-2030 (USD MILLION)
TABLE 110. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, 2018-2030 (USD MILLION)
TABLE 111. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, 2018-2030 (USD MILLION)
TABLE 112. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2018-2030 (USD MILLION)
TABLE 113. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, 2018-2030 (USD MILLION)
TABLE 114. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, 2018-2030 (USD MILLION)
TABLE 115. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, 2018-2030 (USD MILLION)
TABLE 116. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, 2018-2030 (USD MILLION)
TABLE 117. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2018-2030 (USD MILLION)
TABLE 118. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AFTERMARKET SERVICES, 2018-2030 (USD MILLION)
TABLE 119. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ORIGINAL EQUIPMENT MANUFACTURERS, 2018-2030 (USD MILLION)
TABLE 120. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY RESEARCH AND DEVELOPMENT, 2018-2030 (USD MILLION)
TABLE 121. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 122. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 123. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 124. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2018-2030 (USD MILLION)
TABLE 125. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY GROWTH RATE, 2018-2030 (USD MILLION)
TABLE 126. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PHASE IDENTIFICATION, 2018-2030 (USD MILLION)
TABLE 127. AMERICAS SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY COUNTRY, 2018-2030 (USD MILLION)
TABLE 128. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2018-2030 (USD MILLION)
TABLE 129. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, 2018-2030 (USD MILLION)
TABLE 130. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, 2018-2030 (USD MILLION)
TABLE 131. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2018-2030 (USD MILLION)
TABLE 132. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, 2018-2030 (USD MILLION)
TABLE 133. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, 2018-2030 (USD MILLION)
TABLE 134. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2018-2030 (USD MILLION)
TABLE 135. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, 2018-2030 (USD MILLION)
TABLE 136. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, 2018-2030 (USD MILLION)
TABLE 137. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2018-2030 (USD MILLION)
TABLE 138. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, 2018-2030 (USD MILLION)
TABLE 139. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, 2018-2030 (USD MILLION)
TABLE 140. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2018-2030 (USD MILLION)
TABLE 141. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, 2018-2030 (USD MILLION)
TABLE 142. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, 2018-2030 (USD MILLION)
TABLE 143. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2018-2030 (USD MILLION)
TABLE 144. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, 2018-2030 (USD MILLION)
TABLE 145. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, 2018-2030 (USD MILLION)
TABLE 146. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, 2018-2030 (USD MILLION)
TABLE 147. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, 2018-2030 (USD MILLION)
TABLE 148. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2018-2030 (USD MILLION)
TABLE 149. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AFTERMARKET SERVICES, 2018-2030 (USD MILLION)
TABLE 150. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ORIGINAL EQUIPMENT MANUFACTURERS, 2018-2030 (USD MILLION)
TABLE 151. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY RESEARCH AND DEVELOPMENT, 2018-2030 (USD MILLION)
TABLE 152. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 153. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 154. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 155. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2018-2030 (USD MILLION)
TABLE 156. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY GROWTH RATE, 2018-2030 (USD MILLION)
TABLE 157. ARGENTINA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PHASE IDENTIFICATION, 2018-2030 (USD MILLION)
TABLE 158. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2018-2030 (USD MILLION)
TABLE 159. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, 2018-2030 (USD MILLION)
TABLE 160. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, 2018-2030 (USD MILLION)
TABLE 161. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2018-2030 (USD MILLION)
TABLE 162. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, 2018-2030 (USD MILLION)
TABLE 163. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, 2018-2030 (USD MILLION)
TABLE 164. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2018-2030 (USD MILLION)
TABLE 165. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, 2018-2030 (USD MILLION)
TABLE 166. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, 2018-2030 (USD MILLION)
TABLE 167. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2018-2030 (USD MILLION)
TABLE 168. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, 2018-2030 (USD MILLION)
TABLE 169. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, 2018-2030 (USD MILLION)
TABLE 170. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2018-2030 (USD MILLION)
TABLE 171. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, 2018-2030 (USD MILLION)
TABLE 172. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, 2018-2030 (USD MILLION)
TABLE 173. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2018-2030 (USD MILLION)
TABLE 174. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, 2018-2030 (USD MILLION)
TABLE 175. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, 2018-2030 (USD MILLION)
TABLE 176. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, 2018-2030 (USD MILLION)
TABLE 177. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, 2018-2030 (USD MILLION)
TABLE 178. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2018-2030 (USD MILLION)
TABLE 179. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AFTERMARKET SERVICES, 2018-2030 (USD MILLION)
TABLE 180. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ORIGINAL EQUIPMENT MANUFACTURERS, 2018-2030 (USD MILLION)
TABLE 181. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY RESEARCH AND DEVELOPMENT, 2018-2030 (USD MILLION)
TABLE 182. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 183. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 184. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 185. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2018-2030 (USD MILLION)
TABLE 186. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY GROWTH RATE, 2018-2030 (USD MILLION)
TABLE 187. BRAZIL SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PHASE IDENTIFICATION, 2018-2030 (USD MILLION)
TABLE 188. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2018-2030 (USD MILLION)
TABLE 189. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, 2018-2030 (USD MILLION)
TABLE 190. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, 2018-2030 (USD MILLION)
TABLE 191. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2018-2030 (USD MILLION)
TABLE 192. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, 2018-2030 (USD MILLION)
TABLE 193. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, 2018-2030 (USD MILLION)
TABLE 194. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2018-2030 (USD MILLION)
TABLE 195. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, 2018-2030 (USD MILLION)
TABLE 196. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, 2018-2030 (USD MILLION)
TABLE 197. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2018-2030 (USD MILLION)
TABLE 198. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, 2018-2030 (USD MILLION)
TABLE 199. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, 2018-2030 (USD MILLION)
TABLE 200. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2018-2030 (USD MILLION)
TABLE 201. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, 2018-2030 (USD MILLION)
TABLE 202. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, 2018-2030 (USD MILLION)
TABLE 203. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2018-2030 (USD MILLION)
TABLE 204. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, 2018-2030 (USD MILLION)
TABLE 205. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, 2018-2030 (USD MILLION)
TABLE 206. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, 2018-2030 (USD MILLION)
TABLE 207. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, 2018-2030 (USD MILLION)
TABLE 208. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2018-2030 (USD MILLION)
TABLE 209. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AFTERMARKET SERVICES, 2018-2030 (USD MILLION)
TABLE 210. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ORIGINAL EQUIPMENT MANUFACTURERS, 2018-2030 (USD MILLION)
TABLE 211. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY RESEARCH AND DEVELOPMENT, 2018-2030 (USD MILLION)
TABLE 212. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 213. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 214. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 215. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2018-2030 (USD MILLION)
TABLE 216. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY GROWTH RATE, 2018-2030 (USD MILLION)
TABLE 217. CANADA SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PHASE IDENTIFICATION, 2018-2030 (USD MILLION)
TABLE 218. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2018-2030 (USD MILLION)
TABLE 219. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, 2018-2030 (USD MILLION)
TABLE 220. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, 2018-2030 (USD MILLION)
TABLE 221. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2018-2030 (USD MILLION)
TABLE 222. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, 2018-2030 (USD MILLION)
TABLE 223. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, 2018-2030 (USD MILLION)
TABLE 224. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2018-2030 (USD MILLION)
TABLE 225. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, 2018-2030 (USD MILLION)
TABLE 226. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, 2018-2030 (USD MILLION)
TABLE 227. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2018-2030 (USD MILLION)
TABLE 228. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, 2018-2030 (USD MILLION)
TABLE 229. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, 2018-2030 (USD MILLION)
TABLE 230. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2018-2030 (USD MILLION)
TABLE 231. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, 2018-2030 (USD MILLION)
TABLE 232. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, 2018-2030 (USD MILLION)
TABLE 233. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2018-2030 (USD MILLION)
TABLE 234. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, 2018-2030 (USD MILLION)
TABLE 235. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, 2018-2030 (USD MILLION)
TABLE 236. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, 2018-2030 (USD MILLION)
TABLE 237. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, 2018-2030 (USD MILLION)
TABLE 238. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2018-2030 (USD MILLION)
TABLE 239. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY AFTERMARKET SERVICES, 2018-2030 (USD MILLION)
TABLE 240. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ORIGINAL EQUIPMENT MANUFACTURERS, 2018-2030 (USD MILLION)
TABLE 241. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY RESEARCH AND DEVELOPMENT, 2018-2030 (USD MILLION)
TABLE 242. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 243. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY HIGH-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 244. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LOW-CYCLE FATIGUE RESISTANCE, 2018-2030 (USD MILLION)
TABLE 245. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY INTERMETALLIC COMPOUND FORMATION, 2018-2030 (USD MILLION)
TABLE 246. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY GROWTH RATE, 2018-2030 (USD MILLION)
TABLE 247. MEXICO SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PHASE IDENTIFICATION, 2018-2030 (USD MILLION)
TABLE 248. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER TYPE, 2018-2030 (USD MILLION)
TABLE 249. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-BASED, 2018-2030 (USD MILLION)
TABLE 250. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY LEAD-FREE, 2018-2030 (USD MILLION)
TABLE 251. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MATERIAL COMPOSITION, 2018-2030 (USD MILLION)
TABLE 252. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ELECTROPLATED, 2018-2030 (USD MILLION)
TABLE 253. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDERS WITH ADDITIVES, 2018-2030 (USD MILLION)
TABLE 254. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MANUFACTURING PROCESS, 2018-2030 (USD MILLION)
TABLE 255. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY ADVANCED TECHNIQUES, 2018-2030 (USD MILLION)
TABLE 256. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY TRADITIONAL METHODS, 2018-2030 (USD MILLION)
TABLE 257. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY APPLICATION TYPE, 2018-2030 (USD MILLION)
TABLE 258. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BATTERY CONNECTIONS, 2018-2030 (USD MILLION)
TABLE 259. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY POWERTRAIN COMPONENTS, 2018-2030 (USD MILLION)
TABLE 260. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY BONDING REQUIREMENTS, 2018-2030 (USD MILLION)
TABLE 261. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY MECHANICAL STRENGTH EMPHASIS, 2018-2030 (USD MILLION)
TABLE 262. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY THERMAL MANAGEMENT OPTIMIZATION, 2018-2030 (USD MILLION)
TABLE 263. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY SOLDER FORM FACTOR, 2018-2030 (USD MILLION)
TABLE 264. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PASTE, 2018-2030 (USD MILLION)
TABLE 265. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PELLETS, 2018-2030 (USD MILLION)
TABLE 266. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY PREFORMS, 2018-2030 (USD MILLION)
TABLE 267. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY WIRE, 2018-2030 (USD MILLION)
TABLE 268. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE, BY END-USER APPLICATION, 2018-2030 (USD MILLION)
TABLE 269. UNITED STATES SOLDER MATERIALS FOR NEW ENERGY VEHICLES MARKET SIZE

Companies Mentioned

  • AIM Solder
  • Alpha Assembly Solutions
  • Balver Zinn Josef Jost GmbH & Co. KG
  • Cookson Electronics – Assembly Materials
  • Henkel AG & Co. KGaA
  • Heraeus Holding GmbH
  • Indium Corporation
  • Kester
  • Nihon Superior Co., Ltd.
  • Qualitek International, Inc.
  • Senju Metal Industry Co., Ltd.
  • Shenzhen Vital New Material Co., Ltd.
  • Tamura Corporation
  • Zhejiang Brother Electronics Technology Co., Ltd.

Methodology

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