United States Unsaturated Polyester Resins Market Overview, 2030

Material shortages in the United States during World War II were the cause of the establishment of the Unsaturated Polyester Resins UPR industry. Manufacturers urgently sought lightweight, long-lasting substitutes because metals and other conventional building materials were being diverted for war use. Due to this scarcity, there was a surge in creativity in synthetic polymers, which resulted in the creation and widespread use of UPR as a practical alternative to metal in non-load-bearing uses. Soon after the war, the American car industry took advantage of UPR's lightweight and corrosion-resistant qualities to improve the appearance and functionality of vehicle interiors. This was one of the first widespread commercial uses of UPR, notably in dashboards, panels, and trim pieces. At the same time, because of their water resistance, moldability, and structural integrity, UPR composites turned out to be the perfect choice for the recreational boating and RV sectors. Fiberglass-reinforced UPR revolutionized design flexibility in these areas by becoming a standard material for hulls, body panels, and interior structures. Comparisons between epoxy resins and UPR were inevitable as it became more widely used. Although epoxy had higher chemical resistance and mechanical strength, UPR became the dominant material in American manufacturing because of its cheaper cost, quicker cure times, and simplicity of use, particularly in high-volume, price-sensitive industries. NASA was one of the most important contributors to the legitimacy and creativity of UPR. NASA made a significant contribution to the scientific understanding of polymer behavior under extreme conditions by studying advanced composites for space shuttles and satellites throughout the mid-to-late 20th century. The commercial UPR market in the United States gained an indirect boost from these research investments in terms of material resilience, testing standards, and formulation science.

According to the research report, ""US Unsaturated Polyester Resins Market Overview, 2030,"" published by Bonafide Research, the US Unsaturated Polyester Resins market is anticipated to grow at more than 4.59% CAGR from 2025 to 2030. Increased demand for lightweight materials in the production of electric cars EVs is a major factor in the strong growth trajectory of the U.S. Unsaturated Polyester Resins UPR market. Due to their low weight, high durability, and cost-effectiveness, UPR-based composites are becoming more popular for structural and interior parts as automakers work to lessen vehicle weight in order to increase battery efficiency and driving range. The growth of green building programs throughout the nation is driving up demand for UPR compositions with low VOC Volatile Organic Compound content. To satisfy LEED certification standards and support sustainable building practices, these environmentally beneficial variations are being used in bathroom fixtures, wall panels, and insulation. By releasing eco-resins that not only lower emissions during production but also preserve high-performance qualities, major U.S. companies like Ashland are taking advantage of this trend. Particularly in the marine, automotive, and construction industries, Ashland's sustainable product lines are establishing industry standards. Meanwhile, research and development is being heavily impacted by changing compliance standards from the U.S. Environmental Protection Agency EPA. In order to meet stringent regulatory standards for emissions and hazardous air pollutants, manufacturers are now investing in formulations, driving the entire sector toward cleaner, more sustainable manufacturing methods. The growing interest in bio-based UPRs produced from renewable feedstocks is a major emerging trend in the U.S. industry. These resins provide a viable substitute for petrochemical-based products, supporting corporate ESG goals and consumer demand for environmentally friendly materials. Although bio-based UPRs are still in their early stages of adoption, it is anticipated that their popularity will increase as their cost and performance improve.

Due to their cost-effectiveness and versatility, orthophthalic resins are among the most widely used. These resins are frequently employed in common applications like marine laminates, automobile parts, and building panels. Orthophthalic resins are preferred in applications where moderate durability and cost-effective production are the top priorities, even though they aren't as mechanically strong or chemically resistant as other varieties. In contrast, isophthalic resins have superior water resistance, corrosion resistance, and mechanical qualities. Industries that need materials that are more robust and long-lasting like pipelines, transportation machinery, and chemical storage tanks use them extensively. Isophthalic resins are frequently used in place of orthophthalic resins in applications where environmental stress and long-term durability are important considerations because of their superior performance qualities. Known for their superior impact resistance, low shrinkage, and affordability, Dicyclopentadiene DCPD Resins meet a niche but expanding industry. In particular, DCPD resins are used in the manufacture of bathware, tanks, and big molded pieces, where dimensional stability and surface finish are paramount. Their distinctive molecular makeup results in a quicker cure and a higher surface finish. The others category covers sophisticated and developing varieties such as bio-based UPRs, halogenated UPRs, terephthalic-based UPRs, and vinyl ester-modified UPRs. Halogenated UPRs are excellent for electrical components and building panels due to their inherent flame-retardant characteristics. Bio-based UPRs, which are derived from sustainable raw materials like soy or corn, are becoming increasingly popular due to their environmental friendliness without sacrificing performance, in accordance with global green chemistry trends. On the other hand, vinyl ester-modified resins have outstanding chemical and thermal resistance and are frequently employed in high-end aerospace, marine, and industrial applications. These resin kinds demonstrate the wide range of versatility of UPRs, enabling producers to tailor performance qualities to a variety of industries and regulatory frameworks.

One of the major industries is Building and Construction, where UPR is utilized in bathroom accessories, wall panels, roofing, and reinforcement structures. Due to its outstanding mechanical qualities, corrosion resistance, and compatibility with fiberglass, it is perfect for long-lasting, low-maintenance components in infrastructure, commercial, and residential projects. Due to its chemical resistance and structural integrity, UPR is essential in Tanks & Pipes. It is widely utilized in the production of industrial pipelines, water treatment facilities, and chemical storage tanks, notably in locations where there is a high risk of exposure to harsh conditions or corrosive materials. The resin's long service life and ease of molding make it possible to produce complicated, large-scale parts that require little maintenance. UPR's flame-retardant and non-conductive properties also help the electrical industry. Its applications include insulating, heat-resistant, and safety-critical protective enclosures like switchgear panels. Its capacity to sustain form and function under thermal stress makes it a superior option for energy infrastructure. Due to its lightweight and saltwater corrosion resistance, UPR is highly valued in the marine sector. Fiberglass-reinforced UPR is frequently used to make boat hulls, decks, and interior parts, offering strength without the drawback of excessive weight and assuring fuel efficiency and design flexibility. Automotive body panels, truck fairings, and railroad parts are all examples of applications in the transportation sector, where UPR helps promote lighter vehicles and increased fuel efficiency. Furthermore, UPR is used to bind aggregates with aesthetic and structural uniformity in artificial stones such as engineered marble and granite, which are used in countertops and flooring.

Due to its ease of application, superior wettability with reinforcing fibers such fiberglass, and adaptability to a wide range of molding methods, including hand lay-up, spray-up, and filament winding, the market is dominated by its liquid form, making it the most widely used. Industries like construction, marine, automotive, and electrical, where complicated geometries, high fiber-resin bonding, and adjustable viscosity are crucial, prefer liquid UPRs. Liquid resin formulas may be easily changed by producers to satisfy the performance criteria of end products, such as UV resistance, cure time, thermal stability, and chemical resistance because they facilitate quicker manufacturing cycles, liquid UPRs are also well-suited for high-volume uses such as tanks, pipes, and construction panels. Their adaptability in mixing with fillers, accelerators, and cross-linking agents improves cost-effectiveness and design accuracy, which increases demand even more in developing economies with expanding infrastructure needs. In contrast, powder form UPRs are becoming increasingly popular in specialized and cutting-edge applications, particularly in powder coatings and composite manufacturing, where environmental factors like low VOC emissions are given priority because powder UPRs are easy to transport and store, have a long shelf life, and generate less waste, they are ideal for regulated industrial settings. Their solid state also increases safety by removing flammable solvents and reducing workers' exposure to harmful emissions. The powder industry now accounts for a smaller portion of the UPR market, but its prospects are improving due to tighter environmental laws and the rising need for environmentally friendly production methods. Adoption is predicted to grow, notably in wealthy markets such as Europe and North America, as R&D enhances the performance and cost-effectiveness of powder resin.

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Unsaturated Polyester Resins Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Type
• Orthophthalic Resin
• Isophthalic Resin
• Dicyclopentadiene (DCPD) Resin
• Others (Terephthalic-Based UPRs, Vinyl Ester-Modified UPRs, Halogenated UPRs, Bio-Based UPRs)

By End-use
• Building & Construction
• Tanks & Pipes
• Electrical
• Marine
• Transport
• Artificial Stones
• Others

By Form
• Liquid Form
• Powder Form Show more