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However, the market is expected to achieve significant demand in the coming years. Contributions from key players such as BASF, Bayer, Dow Chemical and Huntsman through innovative new technologies and applications will boost the global polyurethane market. This report will be a significant tool to all the above-mentioned industries as well as companies that want to penetrate the polyurethane market. As the report also covers various geographies in detail, companies that are interested in investments overseas can also find the report useful.

Study Goals and Objectives The objective of the report is to identify new technologies and applications in the global polyurethane market. This report analyzes the global growth potential of the polyurethane market with as the base year and gives estimates for to The report focuses on new technology and application of polyurethanes in automobile, health care, construction and building, furniture and bedding, footwear, etc. This report also focuses on identifying key end users and industries which will affect the major market trends.

This means that the market will show a significant growth during the forecast period. Reasons for Doing This Study Polyurethane is a versatile material that can be converted into various forms such as thermosetting plastics, thermoplastics and synthetic rubber elastomers to produce a wide range of products and applications in many industries.

Polyurethanes Science, Technology, Markets, and Trends Wiley Series on Polymer Engineering and Techn

New technologies and applications in automobile, health care, electronics, footwear, furniture and bedding are underpinning growth for polyurethane products and are attracting many market players and stake holders. New technology and applications through flexible foam, rigid foam, coating, adhesive, sealant, elastomers and chemicals are expected to boost polyurethane demand in sectors like automobile, health care, construction, furniture and bedding. In the near future, various 3D printing companies will adopt polyurethane materials to produce vital products in health care, automobile, textile and other sectors.

Thermoplastic polyurethanes research lab opens in the United States

Moreover, the flexible rubbery polyurethane material is strong and has potential to serve multiple sectors through innovative products and applications. Polyurethane is mostly prepared from isocyanates such as toluene diisocyanate TDI and methylene diphenyl diisocyanate MDI , which are easily available raw materials. Polyurethane is a versatile chemical that is prepared by blending TDI and MDI with polyol, additives and other raw materials.

This report aims to give an in-depth view of the key trends in the polyurethane market.

The analysis includes an overview of the various end-user industries as well as investigate the market's motivating and restraining factors. The report aims to be a key decision-making tool for the intended audience.

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Scope of the Report Polyurethane is the most commonly used material in various applications for the automotive, furniture and bedding, electronics, construction and building, and footwear industries. Major players like BASF, Dow Chemical, Bayer and Huntsman are expected to provide revolutionary polyurethane-based products and technologies in the near future. Dow Chemical is expected to provide reactive PU plasticizers, which are considered to be useful for polyurethane moisture curing adhesives used in automotive glass bonding.


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Various 3D printing start-ups and intermediate players are exploring the polyurethane market and offering innovative solutions, from artificial organs to fabric or complex 3D models of machines. In addition, increased adoption of biodegradable polyurethane material is also creating buzz in the health care sector. For example, biodegradable polyurethane elastomers are expected to contribute to cartilage tissue engineering applications in the near future.

It is also the biggest exporter of polyurethanes. North America is the second-largest global market for polyurethanes, with the U. The U. Moreover, adoption of new technologies and applications in the global furniture and bedding, building and construction and automobile markets are expected to boost polyurethane demand in the near future. In addition, this report provides a country-specific breakdown of polyurethane consumption based on total revenue generated. Major countries included the U. Methodology The information and analysis presented in the report are based on extensive first-hand interviews with primary research sources, including executives, product managers, and specialists in the market for polyurethanes.

Secondary information was obtained from government agencies, business and trade magazines, official websites of key manufacturers and key end users.

Annual revenues of major polyurethanes market players, their annual reports and forward looking statements as well as industry end users were analyzed to derive the size of the market. Similarly, data were obtained for key applications, end-user markets, recent activities, the technological advancement and innovation from different polyurethanes market players.


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Recent activities were tracked for the major companies involved in the polyurethanes market in order to understand the market trends. The forecast market size was based on these trends. The estimation of the market was calculated using the base year , with historical data provided for and forecast data provided for The market estimations and market shares are provided for each market segment for as the base year.

Estimated values used are based on manufacturers' total revenues and forecast revenue values are in constant U. Unit volume of polyurethane as well as consumption of polyurethane material in varied sectors was used to estimate the total market. Many manufacturers as well as end users are profiled in the report.

This report includes company profiles with detailed introductions, product portfolios and recent developments. Information Sources Key information was derived from various government sources like the U. Data from various international organizations were used to provide final estimates. Secondary data were also collected from official websites of manufacturers and distributors in the polyurethane market.

Data were also collected from key end users such as the automobile, furniture and bedding, footwear, building and construction, and electronics sectors. PUR chemistry in fiber-reinforced composites, however, is a natural fit because the PU matrix exhibits many characteristics that are superior to matrices of epoxy, polyester and vinyl ester.

PUR-based chemistry has long been known for greater toughness than other thermosetting resins due to the high flexibility and elongation of its cured polymer structure. A major hurdle to widespread adoption has been the high degree of reactivity of the mixed PUR system compared to other thermosetting chemistries.

Even the most optimized two-component traditional polyurethane system exhibits gel times an order of magnitude faster than its epoxy counterpart. Processing with PUR, therefore, is difficult because most conventional composite manufacturing operations have been designed around thermosetting resins with a much longer pot life.

Additionally, the isocyanate in the two-component system readily reacts with water i. Accelerating the growth of PUR chemistry into widespread composite applications will take a more collaborative approach from the entire value chain including resin suppliers, machine manufacturers and composites fabricators. An excellent example of such collaboration has already enabled polyurethane pultrusion.

Traditional pultrusion operations use an open bath for coating and impregnating the fiber with resin before feeding the coated fibers into a heated die to form and cure the part. The open bath design is simple, easy to use and most importantly reflects the needs or lack thereof of the particular chemistries esters or epoxies. PUR-based pultrusion, however, requires a closed method to minimize interaction with environmental moisture. It incorporates in-line mixing and injection technology in place of the open bath and a contraction die design that facilitates homogenous fiber wet out.

The injection and impregnation technology requires additional tooling from the manufacturer that is attached to the front of the curing die. To make the tooling as small as possible, very low-viscosity resins have been designed to facilitate fast and efficient wet out without sacrificing final part performance.

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Oxime-Based and Catalyst-Free Dynamic Covalent Polyurethanes. - Semantic Scholar

The pultruder provided valuable feedback based on decades of pultrusion experience to adjust the tooling and chemistry. New chemistries, like PURs, should be embraced because they encourage us to rethink production processes throughout the value chain. Simply dropping a highly reactive resin into a conventional process may not provide a desirable result. But, tweaking process conditions to accommodate the nuances of the chemistry might result in significant cycle time reduction.

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Or, redesigning the process, as described with the pultrusion process above, can yield significant benefits by reducing or eliminating waste with a one-time tooling expense. Large steps forward in technology are never easy, but when all parties in the value chain add their efforts, the sum is much greater than the individual parts. Herrington and K. Hock, eds. Midland, MI, US ,