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• 英文タイトル:Global Market Study on Thermosetting Moulding Materials for Electronics: Growing Need for Semiconductor Filler Materials Primarily Driving Demand

Persistence Market Researchが調査・発行した産業分析レポートです。エレクトロニクス向け熱硬化性成形材料の世界市場 / Global Market Study on Thermosetting Moulding Materials for Electronics: Growing Need for Semiconductor Filler Materials Primarily Driving Demand / C-PMR-JN012資料のイメージです。• レポートコード:C-PMR-JN012
• 出版社/出版日:Persistence Market Research / 2018年10月
• レポート形態:英文、PDF、334ページ
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• 産業分類:化学品・ナノ材料
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レポート概要

Persistence Market Research (PMR) provides an exclusive analysis of “Global Thermosetting Resin Moulding Materials for Electronics Market”. The main aim of this report is to offer exhaustive analysis and provide insights pertaining to the Thermosetting Resin Moulding Materials for Electronics market. This report offers a comprehensive analysis of the global Thermosetting Resin Moulding Materials for Electronics market in terms of volume (tons) & value (US$ Mn) and year-wise (Y-o-Y) growth in sales of Thermosetting Resin Moulding Materials for Electronics according to application and end use. For better understanding of market, report is loaded with analysis of factors such as drivers, trends, restraints, and their impact on the market dynamics. The Thermosetting Resin Moulding Materials for Electronics report is segmented into three sections viz. by base material, by application, and by region, to offer insights on the global Thermosetting Resin Moulding Materials for Electronics market.
Report Description

The report on global Thermosetting Resin Moulding Materials for Electronics market starts with executive summary and market introduction, which provide a complete view of the market. This section includes Market view point, value chain analysis and forecast factors impact analysis related to Thermosetting Resin Moulding Materials for Electronics Market. Additionally, the Thermosetting Resin Moulding Materials for Electronics report provides valuable information regarding cost of production, comparative analysis between high purity quartz and other substitute materials used as well as detailed value chain analysis of the Thermosetting Resin Moulding Materials for Electronics Market. The section that follows analyses the global Thermosetting Resin Moulding Materials for Electronics market on the basis of its segments and presents forecast for the period of 2018-2026. On the basis of composition, the global Thermosetting Resin Moulding Materials for Electronics market is segmented into;

Base Material
Application
End Use
First section include analysis of Thermosetting Resin Moulding Materials for Electronics market on the basis of Base Material and it is segmented as

High Purity Quartz (HPQ)
Lower Purity Grades
HPQ Powder
Grade I HPQ
Grade II HPQ
Grade III HPQ
Competitive Products
Fumed Silica
Spherulised Fused Silica
Synthetic Silica
Crystal Silica
Ti, Al, Zr, Ferrite Powders
Second section include analysis of Thermosetting Resin Moulding Materials for Electronics market on the basis of Application and it is segmented as

Epoxy
Polyester
Polyurethane
Polyimide
Formaldehyde, and melamine formaldehyde
Bakelite
Others
Third section include analysis of Thermosetting Resin Moulding Materials for Electronics market on the basis of End Use and it is segmented as

Consumer Electronics
Automotive
Aerospace
The following section i.e. region, includes analysis of the global Thermosetting Resin Moulding Materials for Electronics market on the basis of seven regions: North America, Latin America, South East Asia & Pacific, Mainland China, Japan, Europe and Middle East and Africa

Last section of the Thermosetting Resin Moulding Materials for Electronics report includes competitive landscape, which include market share analysis and provides information and analysis of companies based on categories of manufactures across the value chain and their presence in the global Thermosetting Resin Moulding Materials for Electronics market. Some of the market players included in this section are Unimin-Sibelco, Samsung SDI Co. Ltd., Golovach Quartz, Momentive,, The Quartz Corporation, Kyocera Chemical Corporation, Tosoh Corporation, ANZAPLAN GmbH, HPQ Silicon, Jiangsu Pacific Quartz Co.,Russian Quartz LLC –Kyshtym Mining –Sumitomo, Nordic Mining ASA, CB Minerals and others

Research Methodology

Market energy consumption is inferred through in-depth secondary research and validated from industry experts and key manufacturer/ solution providers through primary interviews. Each interview is thoroughly analyzed and average market energy consumption is deduced and reconfirmed prior to incorporating in the report. For the market analysis, we have considered 2017 as base number with estimated new Thermosetting Resin Moulding Materials for Electronics sale in 2018 and forecast is made for years 2019 to 2026. The market size is calculated with different type of Thermosetting Resin Moulding Materials for Electronics and according to their selling prices in respective regions. Further, data point such as sales split, end use and application split and regional split, along with qualitative inputs from the primary research are incorporated in order to provide precise market analysis. The forecast presented in this report estimates the total revenue that is projected to be generated across the Thermosetting Resin Moulding Materials for Electronics market over forecast period (2018–2026).

In this report, we have conducted forecasts in terms of CAGR and analyzed market on the basis of Year-on-Year (Y-o-Y) growth in order to understand the behavior of the market and identify opportunities in Thermosetting Resin Moulding Materials for Electronics market. Moreover, for better understanding of each segment growth, we have analyzed the global Thermosetting Resin Moulding Materials for Electronics market in terms of Absolute Dollar Opportunity and Basis Point Share (BPS), which provide in-depth information about potential resources and key trends involved in the Thermosetting Resin Moulding Materials for Electronics market. Along with this, PMR used market attractive index that provides information about the performance and growth of each key segment in the global Thermosetting Resin Moulding Materials for Electronics market.

レポート目次

1. Executive Summary
1.1. Overview
1.2. Market Analysis
1.3. PMR Analysis and Recommendations
1.4. Wheel of Fortune

2. Market Introduction
2.1. Market Taxonomy
2.2. Market Definition
2.3. Parent Market Overview

3. Market Viewpoint
3.1. Macro-Economic Factors
3.1.1. Global Industry Value Added
3.1.2. Global GDP Growth Outlook
3.2. Market Dynamics
3.2.1. Drivers
3.2.2. Restraints
3.2.3. Trends
3.3. Opportunity Analysis
3.4. Key Regulations

4. Global High Purity Quartz for Thermosetting Resin Moulding Based Applications Market Analysis 2013-2017 and Forecast 2018 – 2026
4.1. Introduction
4.1.1. Market Volume Projections
4.1.2. Market Size and Y-o-Y Growth
4.1.3. Absolute $ Opportunity
4.2. Global Supply Demand Scenario
4.3. Production vs. Consumption Outlook
4.4. Value Chain
4.5. Forecast Factors: Relevance and Impact

5. Global High Purity Quartz for Thermosetting Resin Moulding Based Applications Market Analysis 2013-2017 and Forecast 2018 – 2026 By Base Material
5.1. Introduction / Key Findings
5.2. Historical Market Size (US$ Mn) and Volume Analysis By Base Material, 2012 – 2016
5.3. Current Market Size (US$ Mn) and Volume Forecast By Base Material, 2018 – 2026
5.3.1. High Purity Quartz
5.3.1.1. Lower Purity Grades
5.3.1.2. HPQ Powder
5.3.1.3. Grade I HPQ
5.3.1.4. Grade II HPQ
5.3.1.5. Grade III HPQ
5.3.2. Competitive Products
5.3.2.1. Fumed Silica
5.3.2.2. Spherulised Fused Silica
5.3.2.3. Synthetic Silica
5.3.2.4. Crystal Silica
5.3.2.5. Ti, Al, Zr, Ferrite Powders
5.4. Key Trends / Developments
5.5. Market Attractiveness Analysis By Base Material

6. Global High Purity Quartz for Thermosetting Resin Moulding Based Applications Market Analysis 2013-2017 and Forecast 2018 – 2026 By Application
6.1. Introduction / Key Findings
6.2. Historical Market Size (US$ Mn) and Volume Analysis By Application, 2012 – 2016
6.3. Current Market Size (US$ Mn) and Volume Forecast By Application, 2018 – 2026
6.3.1. Epoxy
6.3.2. Polyester
6.3.3. Polyurethane
6.3.4. Polyimide
6.3.5. Formaldehyde, and melamine formaldehyde
6.3.6. Bakelite
6.3.7. Others
6.4. Key Trends / Developments
6.5. Market Attractiveness Analysis By Application

7. Global High Purity Quartz for Thermosetting Resin Moulding Based Applications Market Analysis 2013-2017 and Forecast 2018 – 2026 By End Use
7.1. Introduction / Key Findings
7.2. Historical Market Size (US$ Mn) and Volume Analysis By End Use, 2012 – 2016
7.3. Current Market Size (US$ Mn) and Volume Forecast By End Use, 2018 – 2026
7.3.1. Consumer Electronics
7.3.2. Automotive
7.3.3. Aerospace
7.4. Key Trends / Developments
7.5. Market Attractiveness Analysis By End Use

8. Global Market Analysis 2013-2017 and Forecast 2018 – 2026 By Region
8.1. Introduction / Key Findings
8.2. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Region, 2013-2017
8.3. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Region, 2018-2026
8.3.1. North America
8.3.2. Latin America
8.3.3. Europe
8.3.4. China
8.3.5. Japan
8.3.6. South East Asia and Pacific (SEAP)
8.3.7. Middle East & Africa (MEA)
8.4. Market Attractiveness Analysis By Region

9. North America Market Analysis 2013-2017 and Forecast 2018 – 2026
9.1. Introduction
9.2. Pricing Analysis
9.3. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Market Segments, 2013-2017
9.4. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Market Segments 2018-2026
9.4.1. Country
9.4.1.1. U.S.
9.4.1.2. Canada
9.4.2. By Base Material
9.4.3. By Application
9.4.4. By End Use
9.5. Drivers and Restraints: Impact Analysis
9.6. Market Attractiveness Analysis
9.6.1. By Country
9.6.2. By Base Material
9.6.3. By Application
9.6.4. By End Use
9.7. Key Representative Market Participants
9.8. Market Presence (Intensity Map)

10. Latin America Market Analysis 2013-2017 and Forecast 2018 – 2026
10.1. Introduction
10.2. Pricing Analysis
10.3. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Market Segments, 2013-2017
10.4. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Market Segments 2018-2026
10.4.1. Country
10.4.1.1. Brazil
10.4.1.2. Mexico
10.4.1.3. Rest of Latin America
10.4.2. By Base Material
10.4.3. By Application
10.4.4. By End Use
10.5. Drivers and Restraints: Impact Analysis
10.6. Market Attractiveness Analysis
10.6.1. By Country
10.6.2. By Base Material
10.6.3. By Application
10.6.4. By End Use
10.7. Key Representative Market Participants
10.8. Market Presence (Intensity Map)

11. South East Asia and Pacific Market Analysis 2013-2017 and Forecast 2018 – 2026
11.1. Introduction
11.2. Pricing Analysis
11.3. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Market Segments, 2013-2017
11.4. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Market Segments 2018-2026
11.4.1. Country
11.4.1.1. India
11.4.1.2. ASEAN
11.4.1.3. Oceania
11.4.1.4. Rest of SEAP
11.4.2. By Base Material
11.4.3. By Application
11.4.4. By End Use
11.5. Drivers and Restraints: Impact Analysis
11.6. Market Attractiveness Analysis
11.6.1. By Country
11.6.2. By Base Material
11.6.3. By Application
11.6.4. By End Use
11.7. Key Representative Market Participants
11.8. Market Presence (Intensity Map)

12. Europe Market Analysis 2013-2017 and Forecast 2018 – 2026
12.1. Introduction
12.2. Pricing Analysis
12.3. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Market Segments, 2013-2017
12.4. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Market Segments 2018-2026
12.4.1. Country
12.4.1.1. Germany
12.4.1.2. U.K.
12.4.1.3. France
12.4.1.4. Italy
12.4.1.5. Spain
12.4.1.6. BENELUX
12.4.1.7. Russia
12.4.1.8. Rest of Europe
12.4.2. By Base Material
12.4.3. By Application
12.4.4. By End Use
12.5. Drivers and Restraints: Impact Analysis
12.6. Market Attractiveness Analysis
12.6.1. By Country
12.6.2. By Base Material
12.6.3. By Application
12.6.4. By End Use
12.7. Key Representative Market Participants
12.8. Market Presence (Intensity Map)

13. Middle East and Africa Market Analysis 2013-2017 and Forecast 2018 – 2026
13.1. Introduction
13.2. Pricing Analysis
13.3. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Market Segments, 2013-2017
13.4. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Market Segments 2018-2026
13.4.1. Country
13.4.1.1. GCC Countries
13.4.1.2. South Africa
13.4.1.3. Turkey
13.4.1.4. Rest of MEA
13.4.2. By Base Material
13.4.3. By Application
13.4.4. By End Use
13.5. Drivers and Restraints: Impact Analysis
13.6. Market Attractiveness Analysis
13.6.1. By Country
13.6.2. By Base Material
13.6.3. By Application
13.6.4. By End Use
13.7. Key Representative Market Participants
13.8. Market Presence (Intensity Map)

14. China Market Analysis 2013-2017 and Forecast 2018 – 2026
14.1. Introduction
14.2. Pricing Analysis
14.3. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Market Segments, 2013-2017
14.4. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Market Segments 2018-2026
14.4.1. By Base Material
14.4.2. By Application
14.4.3. By End Use
14.5. Drivers and Restraints: Impact Analysis
14.6. Market Attractiveness Analysis
14.6.1. By Base Material
14.6.2. By Application
14.6.3. By End Use
14.7. Key Representative Market Participants
14.8. Market Presence (Intensity Map)

15. Japan Market Analysis 2013-2017 and Forecast 2018 – 2026
15.1. Introduction
15.2. Pricing Analysis
15.3. Historical Market Size (US$ Mn) and Volume (Tons) Analysis By Market Segments, 2013-2017
15.4. Current Market Size (US$ Mn) and Volume (Tons) Forecast By Market Segments 2018-2026
15.4.1. By Base Material
15.4.2. By Application
15.4.3. By End Use
15.5. Drivers and Restraints: Impact Analysis
15.6. Market Attractiveness Analysis
15.6.1. By Base Material
15.6.2. By Application
15.6.3. By End Use
15.7. Key Representative Market Participants
15.8. Market Presence (Intensity Map)

16. Market Presence (Intensity Map)Market Structure Analysis
16.1. High Purity Quartz Producers:
16.1.1. By Large, Medium and Small
16.2. Market Concentration
16.2.1. By Top 5 and by Top 10
16.3. Market Share Analysis of Top 10 Players
16.3.1. North and Latin America Market Share Analysis by Top Players
16.3.2. Europe, Middle East and Africa Market Share Analysis by Top Players
16.3.3. Asia Pacific Market Share Analysis by Top Players
16.4. Market Presence Analysis
16.4.1. By Regional Footprint of Players
16.4.2. Product Footprint by Players
16.4.3. Channel Footprint by Players
16.5. Technology Roadmap
Moulders/ Formulators:
16.5.1. By Large, Medium and Small
16.6. Market Concentration
16.6.1. By Top 5 and by Top 10
16.7. Market Share Analysis of Top 10 Players
16.7.1. North and Latin America Market Share Analysis by Top Players
16.7.2. Europe, Middle East and Africa Market Share Analysis by Top Players
16.7.3. Asia Pacific Market Share Analysis by Top Players
16.8. Technology Roadmap

17. Competition Landscape
17.1. Competition Dashboard
17.2. Competition Developments (Mergers, Acquisitions and Expansions)
17.3. HPQ Producers- Competition Deepdive
17.3.1. Unimin-Sibelco
17.3.1.1. Overview
17.3.1.2. Product Portfolio
17.3.1.3. Profitability by Market Segments (Product/Channel/Region)
17.3.1.4. Production Footprint
17.3.1.5. Sales Footprint
17.3.1.6. Channel Footprint
17.3.1.7. Strategy Overview
17.3.1.7.1. Marketing Strategy
17.3.1.7.2. Product Strategy
17.3.1.7.3. Channel Strategy
17.3.2. Golovach Quartz
17.3.3. The Quartz Corporation
17.3.4. Tosoh Corporation
17.3.5. ANZAPLAN GmbH
17.3.6. HPQ Silicon Resources Inc.
17.3.7. Jiangsu Pacific Quartz Co.
17.3.8. Russian Quartz LLC –Kyshtym Mining –Sumitomo
17.3.9. Nordic Mining ASA
17.3.10. CB Minerals
17.4. Moulders/ Formulators- Snapshot
17.4.1. Ashland Global Holding Inc.
17.4.2. BASF SE
17.4.3. Chang Chun Plastics Co. Ltd.
17.4.4. Cosmic Plastics Inc.
17.4.5. Eastman Chemical Company
17.4.6. Evonik Industries AG
17.4.7. HenkelAG & Co. KGaA
17.4.8. Hexion Inc.
17.4.9. Hitachi Chemical Company Ltd.
17.4.10. Huntsman Corporation
17.4.11. Jiangsu Tianxin Chemical Co.,
17.4.12. Kolon Industries Inc.
17.4.13. Kyocera Chemical Corporation
17.4.14. Olin Corporation
17.4.15. Momentive Performance Materials, Inc.
17.4.16. Plastics Engineering Company (Plenco)
17.4.17. Rogers Corporation
17.4.18. Saudi Basic Industries Corporation (SABIC)
17.4.19. Sumitomo Bakelite

18. Assumptions and Acronyms Used

19. Research Methodology

List of Tables

Table 01: Global High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 02: Global Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 03: Global High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 04: Global High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 05: Global Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 06: Global Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 07: Global High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 08: Global Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 09: Global High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Region, 2013 – 2026
Table 10: Global High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size (US$ Mn) Forecast by Region, 2013 – 2026
Table 11: Global Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Region, 2013 – 2026
Table 12: Global Competitive Products for Thermosetting Moulding Materials for Electronics Market Size (US$ Mn) Forecast by Region, 2013 – 2026
Table 13: North America Thermosetting Moulding Materials for Electronics Market Size (US$ Mn) and Volume (Mn Tons) Forecast by Country, 2013 – 2026
Table 14: North America High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 15: North America Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 16: North America Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 17: North America Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 18: North America Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 19: Latin America Thermosetting Moulding Materials for Electronics Market Size (US$ ‘000) and Volume (Mn Tons) Forecast by Country, 2013 – 2026
Table 20: Latin America High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ ‘000) Forecast by Base Material, 2013 – 2026
Table 21: Latin America Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 22: Latin America Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 23: Latin America Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 24: Latin America Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 25: SEA and Other APAC Thermosetting Moulding Materials for Electronics Market Size (US$ Mn) and Volume (Mn Tons) Forecast by Country, 2013 – 2026
Table 26: SEA & Other APAC High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 27: SEA & Other APAC Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 28: SEA & Other APAC Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 29: SEA & Other APAC Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 30: SEA & Other APAC Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 31: Europe Thermosetting Moulding Materials for Electronics Market Volume (Mn Tons) Forecast by Country, 2013 – 2026
Table 32: Europe Thermosetting Moulding Materials for Electronics Market Size (US$ Mn) Forecast by Country, 2013 – 2026
Table 33: Europe High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 34: Europe Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 35: Europe Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 36: Europe Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 37: Europe Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 38: MEA High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ ‘000) Forecast by Base Material, 2013 – 2026
Table 39: MEA Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 40: MEA Thermosetting Moulding Materials for Electronics Market Size (US$ Mn) and Volume (Mn Tons) Forecast by Country, 2013 – 2026
Table 41: MEA Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 42: MEA Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 43: MEA Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 44: China High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 45: China Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 46: China Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 47: China Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 48: China Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026
Table 49: Japan High Purity Quartz for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 50: Japan Competitive Products for Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by Base Material, 2013 – 2026
Table 51: Japan Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) Forecast by Application, 2013 – 2026
Table 52: Japan Thermosetting Moulding Materials for Electronics Market Size Value (US$ Mn) Forecast by Application, 2013 – 2026
Table 53: Japan Thermosetting Moulding Materials for Electronics Market Size Volume (Tons) and Value (US$ Mn) Forecast by End Use, 2013 – 2026