Supply Demand Market Research estimates that the Global Alkylene Silicone Fluids market demand is 29.9 ktpa in the year 2019 and it is expected to grow at the rate of 3.6% from the year 2020 to 2025.
Highlighted with 59 tables and 74 figures, this 208-page report “Global Silicone Fluids (Fluids, Elastomers & Resins) Market Trends, Forecast and Opportunity Analysis – 2020 to 2025" and Region” is based on a comprehensive research of the entire global Silicone Fluids market and all its sub-segments through extensively detailed classifications. Profound analysis and assessment are generated from premium primary and secondary information sources with inputs derived from industry professionals across the value chain. The report provides historical market data for 2015-2019, revenue estimates for 2020, and forecasts from 2021 till 2026. (Please note: The report will be updated before delivery so that the latest historical year is the base year and the forecast covers at least 5 years over the base year.)
In-depth qualitative analyses include identification and investigation of the following aspects:
• Market Structure
• Growth Drivers
• Restraints and Challenges
• Emerging Product Trends & Market Opportunities
• Porter’s Fiver Forces
The trend and outlook of global market is forecast in optimistic, balanced, and conservative view by taking into account of COVID-19. The balanced (most likely) projection is used to quantify global Silicone Fluids market in every aspect of the classification from perspectives of Type, Application, and Region.
Report Scope
1.1. Introduction
1.2. Market analysis by segments
1.2.1. Construction
1.2.1.1. Methyl Fluids
1.2.1.2. Silanol Fluids
1.2.1.3. Vinyl Fluids
1.2.2. Automotive & Transportation
1.2.2.1. Cyclics
1.2.2.2. Methyl fluids
1.2.2.3. Silanol fluids
1.2.2.4. Vinyl fluids
1.2.2.5. Aminopropyl fluids
1.2.2.6. Phenyl fluids
1.2.2.7. Trifluoropropyl fluids
1.2.2.8. Others
1.2.3. Electrical & Electronics
1.2.3.1. Cyclics
1.2.3.2. Methyl fluids
1.2.3.3. Silanol fluids
1.2.3.4. Vinyl fluids
1.2.3.5. Hydride fluids
1.2.3.6. Phenyl fluids
1.2.3.7. Trifluoropropyl fluids
1.2.3.8. Others
1.2.4. Healthcare
1.2.4.1. Cyclics
1.2.4.2. Methyl fluids
1.2.4.3. Silanol fluids
1.2.4.4. Vinyl fluids
1.2.4.5. Hydride fluids
1.2.4.6. Trifluoropropyl fluids
1.2.5. Industrial
1.2.5.1. Cyclics
1.2.5.2. Methyl fluids
1.2.5.3. Silanol fluids
1.2.5.4. Vinyl fluids
1.2.5.5. Hydride fluids
1.2.5.6. Aminopropyl fluids
1.2.5.7. Trifluoropropyl fluids
1.2.5.8. Others
1.2.6. Consumer goods
1.2.6.1. Cyclics
1.2.6.2. Methyl fluids
1.2.6.3. Silanol fluids
1.2.6.4. Vinyl fluids
1.2.6.5. Hydride fluids
1.2.6.6. Aminopropyl fluids
1.2.6.7. Phenyl fluids
1.2.6.8. Others
1.3. Market analysis by region
1.3.1. Asia
1.3.1.1. Cyclics
1.3.1.2. Methyl fluids
1.3.1.3. Silanol fluids
1.3.1.4. Vinyl fluids
1.3.1.5. Hydride fluids
1.3.1.6. Aminopropyl fluids
1.3.1.7. Phenyl fluids
1.3.1.8. Trifluoropropyl fluids
1.3.1.9. Others
1.3.2. Europe
1.3.2.1. Cyclics
1.3.2.2. Methyl fluids
1.3.2.3. Silanol fluids
1.3.2.4. Vinyl fluids
1.3.2.5. Hydride fluids
1.3.2.6. Aminopropyl fluids
1.3.2.7. Phenyl fluids
1.3.2.8. Trifluoropropyl fluids
1.3.2.9. Others
1.3.3. North America
1.3.3.1. Cyclics
1.3.3.2. Methyl fluids
1.3.3.3. Silanol fluids
1.3.3.4. Vinyl fluids
1.3.3.5. Hydride fluids
1.3.3.6. Aminopropyl fluids
1.3.3.7. Phenyl fluids
1.3.3.8. Trifluoropropyl fluids
1.3.3.9. Others
1.3.4. RoW
1.3.4.1. Cyclics
1.3.4.2. Methyl fluids
1.3.4.3. Silanol fluids
1.3.4.4. Vinyl fluids
1.3.4.5. Hydride fluids
1.3.4.6. Aminopropyl fluids
1.3.4.7. Phenyl fluids
1.3.4.8. Trifluoropropyl fluids
1.3.4.9. Others
2. Silicone Fluids Market Analysis for 2019 & Forecast from 2020 to 2025 in USD million and KT
2.1. Introduction
2.2. By market segments
2.2.1. Industrial
2.2.1.1. Cyclics
2.2.1.2. Methyl fluids
2.2.1.3. Silanol fluids
2.2.1.4. Vinyl fluids
2.2.1.5. Hydride fluids
2.2.1.6. Aminopropyl fluids
2.2.1.7. Polyether fluids
2.2.1.8. Phenyl fluids
2.2.1.9. Trifluoropropyl fluids
2.2.1.10. Phenylmethyl fluids
2.2.1.11. Alkyl fluids
2.2.1.12. Alkylene fluids
2.2.1.13. Others
2.2.2. Personal care
2.2.2.1. Cyclics
2.2.2.2. Methyl fluids
2.2.2.3. Silanol fluids
2.2.2.4. Vinyl fluids
2.2.2.5. Hydride fluids
2.2.2.6. Aminopropyl fluids
2.2.2.7. Polyether fluids
2.2.2.8. Phenyl fluids
2.2.2.9. Trifluoropropyl fluids
2.2.2.10. Phenylmethyl fluids
2.2.2.11. Alkyl fluids
2.2.2.12. Alkylene fluids
2.2.2.13. Others
2.2.3. Textiles
2.2.3.1. Methyl fluids
2.2.3.2. Silanol fluids
2.2.3.3. Hydride fluids
2.2.3.4. Aminopropyl fluids
2.2.3.5. Polyether fluids
2.2.3.6. Phenyl fluids
2.2.3.7. Trifluoropropyl fluids
2.2.3.8. Alkyl fluids
2.2.3.9. Other
2.2.4. Energy
2.2.4.1. Cyclics
2.2.4.2. Methyl fluids
2.2.4.3. Polyether fluids
2.2.4.4. Phenyl fluids
2.2.4.5. Trifluoropropyl fluids
2.2.4.6. Phenylmethyl fluids
2.2.4.7. Alkyl fluids
2.2.4.8. Others
2.2.5. Homecare
2.2.5.1. Cyclics
2.2.5.2. Methyl fluids
2.2.5.3. Aminopropyl fluids
2.2.5.4. Others
2.2.6. Automotive & Transportation
2.2.6.1. Methyl fluids
2.2.6.2. Silanol fluids
2.2.6.3. Aminopropyl fluids
2.2.6.4. Polyether fluids
2.2.6.5. Phenylmethyl fluids
2.2.6.6. Alkyl fluids
2.2.6.7. Others
2.2.7. Agriculture
2.2.7.1. Methyl fluids
2.2.7.2. Hydride fluids
2.2.7.3. Polyether fluids
2.2.7.4. Alkylene fluids
2.2.7.5. Others
2.2.8. Others
2.2.8.1. Methyl fluids
2.2.8.2. Aminopropyl fluids
2.2.8.3. Polyether fluids
2.2.8.4. Alkyl fluids
2.2.8.5. Others
2.3. By Region across Asia, Europe, North America &RoW
2.3.1. Cyclics
2.3.2. Methyl fluids
2.3.3. Silanol fluids
2.3.4. Vinyl fluids
2.3.5. Hydride fluids
2.3.6. Aminopropyl fluids
2.3.7. Polyether fluids
2.3.8. Phenyl fluids
2.3.9. Trifluoropropyl fluids
2.3.10. Phenylmethyl fluids
2.3.11. Alkyl fluids
2.3.12. Alkylene fluids
2.3.13. Other fluids
3. Silicone Resins Market Analysis for 2019 & Forecast from 2020 to 2025in USD million and KT
3.1. Introduction
3.2. By market segments
3.2.1. Industrial
3.2.1.1. Cyclics
3.2.1.2. Methyl fluids
3.2.1.3. Silanol fluids
3.2.1.4. Vinyl fluids
3.2.1.5. Phenyl fluids
3.2.1.6. Phenylmethyl fluids
3.2.1.7. Alkyl fluids
3.2.1.8. Others
3.2.2. Construction
3.2.2.1. Methyl fluids
3.2.2.2. Silanol fluids
3.2.2.3. Vinyl fluids
3.2.2.4. Phenyl fluids
3.2.2.5. Alkyl fluids
3.2.2.6. Other fluids
3.2.3. Electrical & Electronics
3.2.3.1. Methyl fluids
3.2.3.2. Silanol fluids
3.2.3.3. Vinyl fluids
3.2.3.4. Phenyl fluids
3.2.3.5. Phenylmethyl fluids
3.2.3.6. Alkyl fluids
3.2.3.7. Other fluids
3.2.4. Automotive & Transportation
3.2.4.1. Cyclics
3.2.4.2. Methyl fluids
3.2.4.3. Silanol fluids
3.2.4.4. Vinyl fluids
3.2.4.5. Phenyl fluids
3.2.4.6. Phenylmethyl fluids
3.2.4.7. Alkyl fluids
3.2.4.8. Other fluids
3.2.5. Personal care & consumer goods
3.2.5.1. Cyclics
3.2.5.2. Methyl fluids
3.2.5.3. Silanol fluids
3.2.5.4. Vinyl fluids
3.2.5.5. Phenyl fluids
3.2.5.6. Phenylmethyl fluids
3.2.5.7. Alkyl fluids
3.2.5.8. Others
3.3. By Region across Asia, Europe, North America &RoW
3.3.1. Cyclics
3.3.2. Methyl fluids
3.3.3. Silanol fluids
3.3.4. Vinyl fluids
3.3.5. Phenyl fluids
3.3.6. Phenylmethyl fluids
3.3.7. Alkyl fluids
3.3.8. Others
4. Competitive Benchmarking*
4.1. Company 1 (same parameters to be repeated for all the companies )
4.1.1. Company introduction
4.1.2. SWOT analysis in terms of Silicone Fluids
4.1.3. Financials*
4.1.4. Employee and R&D details**
4.1.5. Products offerings
4.1.6. Plant locations
4.1.7. Installed capacity and utilisation rates
4.1.7.1. Capacity expansion plans
4.1.7.2. Capacity shares
4.1.7.3. Market shares
4.1.8. Strategic imperatives
4.1.9. Key Players
4.1.10. North America
4.1.10.1. Clariant LSM (America) Inc.
4.1.10.2. Dow Corning Corporation
4.1.10.3. Momentive Performance Materials
4.1.10.4. Archimica Inc.
4.1.10.5. Emerald Performance Materials
4.1.10.6. Evonik Industries
4.1.10.7. Gelest, Inc.
4.1.10.8. NuSil Technology
4.1.10.9. Silar Laboratories, Wright Corporation
4.1.10.10. United Chemical Technologies, Inc.
4.1.10.11. Wacker Silicones
4.1.11. Europe
4.1.11.1. Elkem
4.1.11.2. Dow Corning Ltd.
4.1.11.3. Momentive Performance Materials
4.1.11.4. Wacker-Chemie AG
4.1.11.5. Shin-Etsu Silicones Europe BV
4.1.11.6. Evonik Industries
4.1.11.7. Schill & Seilacher Chemie GmbH
4.1.11.8. LucebníZávodya.s.
4.1.11.9. OU Krimelte
4.1.11.10. Selena Co. S.A
4.1.11.11. ZakladChemiczny “SilikonyPolskie” Sp. z.o.o.
4.1.11.12. Kazan Synthetic Rubber Plant JSC
4.1.11.13. Penta Silicones Ltd.
4.1.11.14. Silan JSC
4.1.11.15. Surel Ltd.
4.1.11.16. TKK Srpenicad.d.
4.1.11.17. ZaporozhyeKremnypolymer
4.1.12. Asia
4.1.12.1. Momentive Performance Materials Inc.
4.1.12.2. Shin-Etsu Chemical Company, Ltd.
4.1.12.3. Dow Corning Toray Co., Ltd.
4.1.12.4. Wacker Asahikasei Silicone Co., Ltd
4.1.12.5. BlueStar New Chemical Materials Co. Ltd.
4.1.12.6. DC/Wacker
4.1.12.7. Elkem
4.1.12.8. Wynca - Zhejiang inc JV
4.1.12.9. ASM
4.1.12.10. KCC
4.1.12.11. Wynca - HongDa
4.1.12.12. MPM through JV
4.1.12.13. Meilan
4.1.12.14. Hesheng
4.1.12.15. HengYeCheng
4.1.12.16. DongYue
4.1.12.17. Transit (Zhongtian)
4.1.12.18. Jingling
4.1.12.19. BeifangGuifeng
4.1.12.20. Sanjia
4.1.12.21. Sanyou
4.1.12.22. Humboldt (HongBo)
4.1.12.23. LuXi
4.1.12.24. XingFa
Methodology and sources
We follow the following steps to complete the report:
Desk research
¤ Market size, capacity and production information
The sources of desk research are various, including published magazines, journals, government statistics, industrial statistics, customs statistics, association seminars as well as information from the Internet.
A lot of work goes into compilation and analysis of the obtained information.
¤ Analysis of import & export data
Preliminary analysis of import & export situation of cellulose ethers in order to:
o Evaluate the import & export situation
o Evaluate the role of overseas products in domestic market
Primary research
¤ We carry out extensive telephone interviews across the value chain in order to survey the actual market situation. The interviewees will cover:
Major producers
Major customers
Key traders
Raw materials suppliers
Industry associations
Bottom-up research
¤ According to telephone interviews, matrix excel is designed to deal with complicated and abundant data that are mainly about capacity, output and consumption. Based on the consumption data in the past from 2014-2019, future demand data from2020 to 2025 is forecasted with the method of bottom-up research.
Report generation
¤ Logical analysis and scientific ratiocination will be conducted to generate the report. All the data and findings obtained in the above stages are presented in the report clearly.