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Global Ethylene Carbonate Market size, Outlook and Growth Opportunities to 2025: By Application (Lithium Battery Electrolytes, Lubricants, Plasticizers, Surface Coatings, and Others), By End Use Industry (Automotive, Oil & Gas, Personal Care & Hygiene, Industrial, Medical and Others) and By Region<br>https://www.oganalysis.com/sample/211556
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OGA Chemical Outlook Series Economic Analysis on 500+ chemicals ETHYLENE CARBONATE EDITION NUMBER: 9 PUBLISHED: JUNE 2019
Ethylene Carbonate GLOBAL ETHYLENE CARBONATE MARKET TO 2025 Frequency, Time Period Global Ethylene Carbonate Market Outlook and Growth Opportunities to 2025: By Application (Lithium Battery Electrolytes, Lubricants, Plasticizers, Surface Coatings, and Others), By End Use Industry (Automotive, Oil & Gas, Personal Care & Hygiene, Industrial, Medical and Others) and By Region -Base year Data for 2018 -Five Year Annual Forecast, 2019- 2025 -Updated on Annual Basis Metrics -Revenues ($) -Prices -Volumes The 9th edition of Ethylene Carbonate market report focuses on Critical factors for success, market size and forecast growth rates, industry structure and dynamics, key companies, products and functions and trends and strategic issues. Availability This report assists chemical professionals to: -Annual Subscription -single report purchase Assess market-by-market conditions, competition and outlook Forecast demand and prioritize your marketing efforts Analyze the strategies of leading players and their product profile Stay ahead of competition through detailed company analysis Identify the critical success factors for sustainable profitability Copyright @OGAnalysis
Ethylene Carbonate Market Scope and Definition END USER APPLICATION Methacrylates Lithium Battery Electrolytes Acrylates Lubricants Hybrids Plasticizers Surface Coatings Others No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 2
Ethylene Carbonate COMPANIES Asahi Kasei Corporation BASF SE Huntsman International LLC Mitsubishi Chemical New Japan Chemical Co., Ltd. Oriental Union Chemical Corporation (OUCC) Shandongqq Shida Shenghua Chemical Group Shangdong Senjie Chemical Co., Ltd. Toagosei Co., Ltd. Zibo Donghai Industries Co., Ltd. Copyright @OGAnalysis
Ethylene Carbonate Market Overview Global Ethylene Carbonate Market is poised to report 6.17% year-on-year growth in 2019, driven by increased demand for ethylene carbonate in various applications including lubricants, coatings, lithium battery electrolytes, plasticizers, and others. Emerging new technologies for the production of lithium ion batteries in which ethylene carbonate is used is expected to offer an opportunity for the ethylene carbonate players in the industry over the years. Moreover, the development of bio based plasticizers, which are highly used for building and industrial applications is anticipated to enhance the market growth in future. Fluctuations in raw material prices is a risk for the manufacturers of ethylene carbonate as it brings down the profit margins. Furthermore, the global ethylene carbonate market is expected to affect due to high manufacturing costs and transportation costs. Regulatory acts posed by the government concerning the production and use of ethylene carbonate are challenging the global ethylene carbonate market outlook to 2025. Lithium battery electrolytes are expected to be dominant in the application segment of Ethylene carbonate market Lithium battery electrolytes segment is witnessed to grow in order to accomplish the need of high power and energy resources, which increased the demand for reliable, durable and safe batteries in industries such as consumer No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 4
Ethylene Carbonate electronics and automotives. Recent innovations such as electric vehicles and rise in demand for smart devices & consumer electronics are paving way for the development of Li-ion batteries. Further, the global ethylene carbonate market is segmented into lubricants, plasticizers, surface coatings, and others. Automotive sector remains as key end-use industry in global ethylene carbonate market Automotive segment is expected to drive the ethylene carbonate market during the forecast period 2019-2025. Ethylene carbonate is an organic compound which is a colourless to yellowish solid with fruity odour and reduce VOC emissions in vehicles. Owing to durable surface coatings and reduced emissions of Volatile Organic Compounds (VOCs) on vehicles allows the use of ethylene carbonate in automotive industry. Countries in the regions of Asia- pacific, North America and Europe are fueling the demand for ethylene carbonate in automotive sector. Further, the global ethylene carbonate market is segmented into oil & gas, personal care and hygiene, industrial, medical, and others. Asia pacific region is dominant in global ethylene market Asia-pacific ethylene carbonate market is witnessed to grow at high CAGR rate over the forecast period 2019-2025. Increased demand for industrial lubricants from oil & gas and automotive industries are driving the growth of ethylene carbonate market in Asia pacific region. Rise in demand for ethylene carbonate is due to high economic growth and large population in countries like China and Taiwan. South Korea, China, India, Taiwan and Japan are the leading consumers of ethylene carbonate in Asia Pacific. Copyright @OGAnalysis
Ethylene Carbonate Further, regional analysis is segmented for countries across Europe, North America, South &Central America and Middle East & Africa. Competitors participating in the global ethylene carbonate market Asahi Kasei Corporation (Japan), BASF SE (Germany), Huntsman International LLC (United States), Mitsubishi Chemical (Japan), New Japan Chemical Co., Ltd. (Japan), Oriental Union Chemical Corporation (OUCC) (Taiwan), Shandongqq Shida Shenghua Chemical Group (China), Shangdong Senjie Chemical Co.,Ltd. (China), Toagosei Co., Ltd. (Japan), and Zibo Donghai Industries Co., Ltd. (China). No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 6
Ethylene Carbonate Scope of the Report Long term perspective on theEthylene Carbonate industry: 2018 (base year), 2019- 2025 (forecast period) Ethylene Carbonate Market- Forecasts by Segments- Application and End Use Industry by geography. It provides the ethylene carbonate market outlook by 5applicationsincluding lithium battery electrolytes, lubricants, plasticizers, surface coatings, and others. The research report categorizes the market based on end use industry into 6 categories that includes automotive, oil & gas, personal care & hygiene, industrial, medical and others. Ethylene carbonate market across countries in 5 regions including Asia-Pacific, Europe, North America, South & Central America and Middle East & Africa are covered. Ethylene Carbonate Market- Strategic Analysis Review Key strategies opted by leading players Short to Long Term Industry Trends Porter’s Five Forces Analysis Supply side and Demand Side Drivers and Challenges Copyright @OGAnalysis
Ethylene Carbonate Ethylene Carbonate Market- Growth Opportunities Potential New Business Opportunities Key Areas of Focus in forecast period Ethylene Carbonate Market- Competitive Scenario 10 companies are analysed in the report including Asahi Kasei Corporation (Japan), BASF SE (Germany), Huntsman International LLC (United States), Mitsubishi Chemical (Japan), New Japan Chemical Co., Ltd. (Japan), Oriental Union Chemical Corporation (OUCC) (Taiwan), Shandongqq Shida Shenghua Chemical Group (China), Shangdong Senjie Chemical Co., Ltd. (China), Toagosei Co., Ltd. (Japan), and Zibo Donghai Industries Co., Ltd. (China) Company Peer-to-Peer Comparison Company Profile and SWOT Analysis Financial Analysis Recent Ethylene Carbonate Market News and Deals No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 8
Ethylene Carbonate Table of Contents 1. Table of Contents 1.1 List of Tables 1.2 List of Figures 2. Introduction to Global Ethylene Carbonate Market 2.1 Global Ethylene Carbonate Market Snapshot, 2018 2.2 Ethylene Carbonate Industry Overview 2.3 Research Perspective 3. Global Ethylene Carbonate Market- Strategic Analysis 3.1 Short Term and Long Term Industry Trends Affecting Global Ethylene Carbonate Markets 3.2 Leading Ethylene Carbonate Types Targeted by Global Manufacturers 3.3 Key Consumption Patterns of Ethylene Carbonate 3.4 Potential Markets Vital for business Expansion Copyright @OGAnalysis
Ethylene Carbonate 3.5 Five Forces Analysis 3.6 Drivers and Restraints 4. Global Ethylene Carbonate Market Outlook and Growth Opportunities by Application 4.1 Ethylene Carbonate Demand in Lithium Battery Electrolytes, Market Outlook, 2019- 2025 4.2 Ethylene Carbonate Demand in Lubricants, Market Outlook, 2019- 2025 4.3 Ethylene Carbonate Demand in Plasticizers, Market Outlook, 2019- 2025 4.4 Ethylene Carbonate Demand in Surface Coatings, Market Outlook, 2019- 2025 4.5 Ethylene Carbonate Demand in Other Applications, Market Outlook, 2019- 2025 5. Global Ethylene Carbonate Market Outlook and Growth Opportunities by End Use Industry 5.1 Ethylene Carbonate Demand in Automotive, Market Outlook, 2019- 2025 5.2 Ethylene Carbonate Demand in Oil & Gas, Market Outlook, 2019- 2025 5.3 Ethylene Carbonate Demand in Personal Care and Hygiene, Market Outlook, 2019- 2025 5.4 Ethylene Carbonate Demand in Industrial, Market Outlook, 2019- 2025 5.5 Ethylene Carbonate Demand in Medical, Market Outlook, 2019- 2025 5.6 Ethylene Carbonate Demand in Other End Use Industries, Market Outlook, 2019- 2025 No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 10
Ethylene Carbonate 6. Asia Pacific Ethylene Carbonate Market Outlook and Growth Opportunities 6.1 Key Findings, 2018 6.2 Asia Pacific Ethylene Carbonate Market Outlook by Application, 2019- 2025 6.3 Asia Pacific Ethylene Carbonate Market Outlook by End Use Industry, 2019- 2025 6.4 Asia Pacific Ethylene Carbonate Market Outlook by Country, 2019- 2025 7. Europe Ethylene Carbonate Market Outlook and Growth Opportunities 7.1 Key Findings, 2018 7.2 Europe Ethylene Carbonate Market Outlook by Application, 2019- 2025 7.3 Europe Ethylene Carbonate Market Outlook by End Use Industry, 2019- 2025 7.4 Europe Ethylene Carbonate Market Outlook by Country, 2019- 2025 8. North America Ethylene Carbonate Market Outlook and Growth Opportunities 8.1 Key Findings, 2018 8.2 North America Ethylene Carbonate Market Outlook by Application, 2019- 2025 8.3 North America Ethylene Carbonate Market Outlook by End Use Industry, 2019- 2025 Copyright @OGAnalysis
Ethylene Carbonate 8.4 North America Ethylene Carbonate Market Outlook by Country, 2019- 2025 9. South & Central America Ethylene Carbonate Market Outlook and Growth Opportunities 9.1 Key Findings, 2018 9.2 South & Central America Ethylene Carbonate Market Outlook by Application, 2019- 2025 9.3 South & Central America Ethylene Carbonate Market Outlook by End Use Industry, 2019- 2025 9.4 South & Central America Ethylene Carbonate Market Outlook by Country, 2019- 2025 10. Middle East & Africa Ethylene Carbonate Market Outlook and Growth Opportunities 10.1 Key Findings, 2018 10.2 Middle East & Africa Ethylene Carbonate Market Outlook by Application, 2019- 2025 10.3 Middle East & Africa Ethylene Carbonate Market Outlook by End Use Industry, 2019- 2025 10.4 Middle East & Africa Ethylene Carbonate Market Outlook by Country, 2019- 2025 11. Competitive Landscape 11.1 Leading Players (Company Profile, SWOT Analysis, Ethylene Carbonate Products, Financial Analysis) 11.1.1 Asahi Kasei Corporation (Japan) No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 12
Ethylene Carbonate 11.1.2 BASF SE (Germany) 11.1.3 Huntsman International LLC (United States) 11.1.4 Mitsubishi Chemical (Japan) 11.1.5 New Japan Chemical Co., Ltd. (Japan) 11.1.6 Oriental Union Chemical Corporation (OUCC) (Taiwan) 11.1.7 Shandongqq Shida Shenghua Chemical Group (China) 11.1.8 Shangdong Senjie Chemical Co.,Ltd. (China) 11.1.9 Toagosei Co., Ltd. (Japan) 11.1.10 Zibo Donghai Industries Co., Ltd. (China) 11.2 Company Benchmarking 11.3 Financial Analysis 12. Recent News and Deals Landscape 12.1 Mergers and Acquisitions 12.2 New Product Launches 12.3 Asset Transactions 12.4 Financial Announcements Copyright @OGAnalysis
Ethylene Carbonate 13 Appendix 13.1 OGAnalysis Expertise 13.2 Sources and Research Methodology 13.3 Contact Information No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 14
Ethylene Carbonate Research Methodology Over 1000 companies rely on OGAnalysis research for accurate data and analytics for business development. Accordingly, we have developed a robust methodology that has been redefined again and again over the past 10 years to arrive at the best-in- class methodology. We understand the importance of research for your business! Our strategic market intelligence is uniquely designed to transform data points into actionable insights for strategic planning and business development. Our methodology includes series of iterative processes integrating qualitative and quantitative research methods. Scope and Report Design Phase Our well experienced team of experts carefully designs the study scope, objectives and deliverables. Through clear understanding of research needs of our clients, we design a clear scope for all the segments and sub-segments of the report. Strong knowledge on emerging trends, client interactions, conferences and latest thinking assist us in formulating the most suitable design process. Copyright @OGAnalysis
Ethylene Carbonate Data Sourcing OGAnalysis has a large pool of industrial partners across companies and business functions. Data is sourced through extensive primary and secondary research methods. Through collaborative efforts, primary data is sourced from industry organizations, leading companies, suppliers, traders and consumers to ensure a comprehensive industry perspective. Strong primary research abilities set us apart from crowd In-house Proprietary Databases Our proprietary databases with over 10 million data points act as a strong historic source for all the information gathered during Data Sourcing phase. A dedicated team of analysts work on a daily basis- crawling thousands of websites and primary calls to constantly update the information in our databases. Data Triangulation The benefits of data triangulation include boosting data trustworthiness, identifying novel ways of understanding, generating new insights and gain clear understanding of markets. Through use of historical trend analysis, bottom-up and top-down demand modeling coupled with comparative analysis, we assess the diverse and quantitative data gathered through primary and secondary research methods. No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 16
Ethylene Carbonate Data Triangulation Can Provide Novel Insights Forecast methodology Forecasting is no more a simple quantitative modeling exercise. It is an iterative operating process where identifying the right things to forecast is followed by gathering and improving the data to include real-world scenarios. Emphasis on scalability and adaptability of the model in current market conditions with confidence remains the key for any forecast model. The forecasting process concludes with adaptability in business model so as to constantly improve the entire process. Copyright @OGAnalysis
Ethylene Carbonate Related Products and Solutions Low-Density Polyethylene (LDPE) Medical Polymers Metal Soaps and Organotin Heat Stabilizers Metalized Biaxially Oriented Polypropylene Films Ethylene Carbonate Plastic 3D Printing Plastic 3D Printing Powder Crosslinking Agents Dimer Acid Dimethyl Terephthalate and Terephthalic Acid Polymer Foam Polymer Gel Polymethyl Methacrylate Polyamide Acrylic Sheet Polyols Acrylonitrile Acrylonitrile Butadiene Styrene Resins Adhesive, Composite, and Coating Epoxy Electrically Conductive Adhesives Polyolefin Polypropylene Electroactive Polymers Metallic Stearate Polyolefin Fibers Polystyrene Emulsion Polymer Methyl Methacrylate Methyl, Ethyl and Other Cellulose Ethers Polyoxymethylene Rosin Adipic Acid Engineering Plastics Polyphenylene Oxide Polyphenylene Sulfide Resins White Oil High Temperature Resin Low Temperature Coating Aluminum Oxide Amine and Anhydride Epoxy Curing Agents Epoxidized Soybean Oil (ESO) Epoxy and Polyester Corrosion Resistant Resins Mulch film Novolac Resins Polypropylene Resins Amino Resins Epoxy Coatings Nylon 6 and 66 Polysilicon Polytetrafluoroethylen e Polyurea Maleic Anhydride Medical Plastics Anti-Fog Additives Antimicrobial Plastic Epoxy Resin Epoxy Surface Coatings Nylon Monofilament Nylon Resins Organic Coatings, Inorganic Coatings and Other Barrier Films Methacrylate Monomers Automotive Polycarbonate Glazing Epoxy, Silicone, Polyurethane and Other High Temperature Adhesives Epoxy, Vinyl Ester and Polyester Glass Flake Coatings Ethylene Copolymers Polyvinyl Chloride Resins Purified Terephthalic Acid Reinforced Plastics Rigid Transparent Plastics Opaque Polymers Petroleum Resin Azodicarbonamide Bakelite Packaging Films Paint Protection Film Phenolic Resin Barrier Resisns Ethylene Glycols PET Polymer No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 18
Ethylene Carbonate Plastic Additives Bio Plasticizers Bio-based Polyethylene Terephthalate Ethylene Oxide Phosgene Shrink Film Plastisols Ethylene Propylene Diene Monomer Plastic Compounding Smart Polymers Styrene-Acrylonitrile Resins Styrenic Block Copolymers Polyamide Bio-based Polypropylene Extruded Polypropylene Foam Plastic Dielectric Films Polycarbonate Films Biodegradable Plastics Fiber Reinforced Composites Fiber Reinforced Polymer Composites Plastic Films and Sheets Polyetheramine Biodegradable Polymers Biodegradable Superabsorbent Materials Plasticizer Alcohol Styrenic Copolymers Polymer Dispersions Polymethyl Methacrylate Microspheres Polyphenylene Sulfide Polypropylene Catalysts Flexible Epoxy Resin Plasticizers Styrenic Polymers Bioplastics Fluorotelomers Polyacetal Resins Styrenics Bio-Polyamide Furan Resins Polyacrylamide Sulfone Polymers Superabsorbent Polymers Synthetic and Bio- Based Polypropylene Synthetic Water- Soluble Polymers Thermoformed Plastics Thermoplastic Polyester Engineering Resins Thermoplastic Polyolefins Thermoplastic Vulcanizates Biopolymer Furandicarboxylic Acid Polyamide Resins Polyvinyl Butyral Bioresorbable Polymers Glass Fiber Polyamide-Imide Precipitated Silica Bisphenol A Gum Rosin Polyaryletherketone Protective Films Blow Molded Plastics HDPE (High-Density Polyethylene) Polyarylsulfone PVC Additives Breathable Film HDPE Polyethylene Resins Polycarbonate Resins PVC Stabilizer Saturated Polyester Resin Synthetic Latex Polymers Cellulose Acetate Heat Resistant Polymer Polychlorotrifluoroethylene Cellulose Acetate Flake Hexamethylenediamine Polyester Film Cellulose Ester High Density Polyethylene Polyester Polyols Triethylene Glycol Copyright @OGAnalysis
Ethylene Carbonate Cellulose Ether and Derivatives Ultraviolet Curable Resins Unsaturated Polyester Resins Transparent Plastics Tris Nonylphenyl Phosphite Hydrazine Polyether Ether Ketone Cellulose Films Chlorinated Polyethylene (PE-C) Chlorinated Polyethylene Resins and Elastomers Impact Modifiers Polyether Polyols UV Absorbers Injection Molded Plastics Polyethylene Furanoate UV Light Stabilizers Water Soluble Polymers Wood Plastic Composite UV Stabilizer Ion Exchange Resins Polyethylene Glycol Water Based Resin Water Soluble Film Waterborne Epoxy Resins Waterborne UV Curable Resins Chromatography Resin Coating Resins LDPE Polyethylene Resins Linear LDPE Polyethylene Resins Polyethylene Naphthalate Polyethylene Terephthalate Solid-State Resins Conductive Polymers Corrosion Resistant Resin Liquid Crystal Polymers Polyimides and Imide Polymers Low Profile Additives Polymer Chameleons No portion of this report may be reproduced, reused, or otherwise distributed in any form without prior written consent from OGAnalysis (www.oganalysis.com) Page 20
Ethylene Carbonate For More Information https://www.oganalysis.com/industry-13-Chemicals-and-Materials-reports Americas Connecticut, US: 360 Tolland Turnpike, Suite 2D Manchester, CT, USA 06042, US Texas, US: 1500 Corporate Circle, Suite # 17, Southlake, Tx-76092, US Asia-Pacific and Rest of World Hyderabad, India: Lakshmi Sai Damam, Plot No: 188/29, Hi-Tech City, Hyderabad, India-500081. Email: sales@oganalysis.com; Telephone: +91-7337-01-3757; Website-www.oganalysis.com; This report is solely intended for the buyer and no part of it may be reproduced, stored or transmitted in any form by any means, electronic, mechanical, photocopying, recording, or otherwise without the prior written permission of OGAnalysis. All rights reserved. Copyright @OGAnalysis