High-Temperature Heat Stabilizers: Global Markets
Report Highlights
The global market for heat stabilizer technologies should grow from $9.1 billion in 2020 to reach $11.7 billion by 2025 at a compound annual growth rate (CAGR) of 5.2% for the period of 2020-2025.
Report Includes
- 71 tables
- An overview of the global markets and technologies for high temperature heat stabilizers
- Analyses of global market trends, with data from 2019, estimates for 2020, and projections of compound annual growth rates (CAGRs) through 2025
- A look at the key challenges and opportunities in the high temperature heat stabilizers market
- Information on environmental and health concerns surrounding plastics and management of heavy metals
- Insights into regulatory framework, investment analysis, growth indicators and key decision supporting factors
- Snapshot of ongoing activities for heat stabilizers in the global and regional markets
- Evaluation of current market size, market forecast, and market share analysis of the leading suppliers of the industry
- Comprehensive profiles of major players in the industry, including 3M Co., BASF, DuPont, Hitachi Chemical Co. and Toray Industries
Report Scope
This study reviews the following technology categories, along with relevant market and production information, technological descriptions and issues, and key applications and market factors in major worldwide markets. This report organizes technologies into the following segments: detailed market data are presented for each of the following technology categories:
- Metallic salts and soaps.
- Organometallic heat stabilizers.
- Primary antioxidants.
- Secondary antioxidants.
- Other organic heat stabilizers.
- High-temperature heat stabilizers: Inorganic.
- High-temperature heat stabilizers: Organic.
The following heat stabilizer applications (i.e., use in specific plastics) are also considered within the study, with market breakdowns for each by region with select countries:
- PVC.
- Polyamides.
- Polypropylene.
- Polyethylene.
- Polystyrene.
- Polyurethane.
- Other Polymers.
- Recycled Plastics.
Analyst Credentials
Robert Eckard, Ph.D., has 15 years of experience working in the advanced materials, chemicals, cleantech, clean transportation, advanced fuels, water, and energy sectors. Having completed his dissertation at the University of California at Davis, Robert also runs a specialty industry research and technical consulting company, with an emphasis on energy, water and materials sectors, including those segments relevant to this study. Robert specializes in commercialization, data-based economic analysis, market development and penetration, environmental analysis, and technical energy, environmental, and market studies for Fortune 500, Global 1000, and promising startups, as well as state and local governments, other consultants, and industry organizations throughout the U.S. and Canada, as well as Europe, Middle East, Southeast Asia, and Australia. He has also worked as a subcontractor under the U.S. Department of Energy and has provided evaluations of a wide array of industrial technologies and systems, and related supply markets. He has helped to successfully develop new markets in the U.S. and abroad, identify target niches and support highly successful business strategy development. Previously, he has produced reports for BCC Research on the global markets for a variety of materials, energy, industrial, energy efficiency, water, and industrial, durable goods, and related categories and technologies. Robert works directly in the industries that he analyzes and has successfully secured over $220 million in fund development for specific projects and technologies in the last five years.