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Polyphenylsulfone

Polyphenylsulfone (PPSU), also known as PPSF, is a high-performance amorphous thermoplastic polymer from the polysulfone family, renowned for its superior thermal stability, mechanical strength, and chemical resistance.^[1]^[2] Its chemical structure consists of a repeating unit featuring aromatic phenylene rings connected by sulfone (-SO₂-) groups, ether linkages, and a biphenyl moiety, typically synthesized via nucleophilic aromatic substitution polymerization of 4,4'-dihydroxybiphenyl and 4,4'-dichlorodiphenyl sulfone, though variations may include bisphenol S.^[3]^[1]^[4] This rigid, conjugated backbone imparts a glass transition temperature of approximately 220°C and enables continuous use at temperatures up to approximately 200°C, with short-term exposure to 260°C, distinguishing it from related polymers like polysulfone (PSU) and polyethersulfone (PES).^[2]^[5]^[6] Commercialized in 1976 by Union Carbide (now under Syensqo as Radel®), PPSU was developed to meet the needs of high-stress environments requiring durability and biocompatibility.^[2]^[5] Key properties include a tensile strength exceeding 70 MPa, flexural strength around 105 MPa, and exceptional impact resistance, with notched Izod values of about 3.8 J/cm.^[2] It demonstrates outstanding hydrolytic stability, tolerating over 1,000 steam sterilization cycles at 134°C, and resists a broad pH range (1–13) as well as exposure to acids, bases, oils, and chlorinated solvents.^[2]^[1] Additionally, its inherent hydrophobicity supports applications in membrane technology, though modifications can enhance wettability for specific uses.^[1] PPSU finds extensive use across industries due to these attributes. In medical and healthcare, it is ideal for surgical instruments, trays, ventilator components, and baby bottles, being BPA-free and compliant with ISO 10993 biocompatibility standards.^[2]^[3] In aerospace and automotive, it serves in interior panels, electrical connectors, and sensors for its lightweight strength and flame retardancy (UL94 V-0 rating).^[2] For filtration and water treatment, PPSU membranes excel in ultrafiltration, nanofiltration, and gas separation processes, offering high flux and fouling resistance in demanding conditions like desalination and fuel cells.^[1] Other applications include plumbing fittings (e.g., PEX components) and industrial housings, where its NSF certification ensures suitability for potable water contact.^[2] Overall, PPSU's balance of processability—via injection molding, extrusion, or 3D printing—and performance makes it a preferred material for engineering solutions requiring reliability under extreme conditions.^[2]^[1]^[7]

Chemical Structure and Synthesis

Molecular Composition

Polyphenylsulfone (PPSU) is an aromatic thermoplastic polymer characterized by its backbone of phenyl rings interconnected via sulfone (-SO₂-) groups and ether (-O-) linkages, with biphenyl units incorporated to enhance chain rigidity and thermal performance.^[8]^[2] Commercial PPSU is a random copolymer derived from bisphenol S (4,4'-dihydroxydiphenyl sulfone) and 4,4'-dihydroxybiphenyl (biphenol) with 4,4'-dichlorodiphenyl sulfone. It contains two types of repeating units: one from bisphenol S and DCDPS, [-O-C₆H₄(1,4)-SO₂-C₆H₄(1,4)-O-C₆H₄(1,4)-SO₂-C₆H₄(1,4)-] (as in polyethersulfone), and one from biphenol and DCDPS, [-C₆H₄(1,4)-SO₂-C₆H₄(1,4)-O-C₆H₄(1,4)-C₆H₄(1,4)-O-] (biphenyl-containing unit), where all connections occur at the para positions of the benzene rings. This formulation incorporates the biphenyl moiety for added rigidity while including additional sulfone groups for stability; unlike polysulfone (PSU), it lacks isopropylidene (-C(CH₃)₂-) bridges, resulting in a more rigid and hydrolytically stable chain.^[9]^[8]^[3] PPSU's irregular molecular arrangement imparts an amorphous morphology, which contributes to its optical transparency in unfilled forms and enables isotropic properties.^[1] Commercial grades of PPSU typically exhibit weight-average molecular weights in the range of 48,000–65,000 g/mol, balancing processability with mechanical integrity.

Polymerization Methods

Polyphenylsulfone (PPSU) is primarily synthesized through nucleophilic aromatic substitution polycondensation, a step-growth polymerization reaction involving the dihalide monomer 4,4'-dichlorodiphenyl sulfone (DCDPS) and a mixture of diol monomers: bisphenol S (4,4'-dihydroxydiphenyl sulfone) and 4,4'-dihydroxybiphenyl (biphenol).^[10]^[11]^[3] In this process, the phenoxide ions generated from the diols attack the electron-deficient carbon atoms attached to the chlorine substituents on DCDPS, facilitated by the electron-withdrawing sulfone group, leading to the displacement of chloride ions and formation of ether linkages.^[12] The reaction typically employs a base such as potassium carbonate (K₂CO₃) to deprotonate the diols and generate the nucleophilic phenoxide species.^[10]^[11] The polymerization is conducted under anhydrous conditions in polar aprotic solvents, including N-methyl-2-pyrrolidone (NMP), N,N-dimethylacetamide (DMAc), dimethyl sulfoxide (DMSO), or N,N-dimethylformamide (DMF), which solvate the potassium cations and enhance nucleophile reactivity.^[10]^[11] A typical procedure involves initial mixing at around 80°C for 2 hours to form the phenoxide salt, followed by elevating the temperature to 140–180°C for 6–10 hours to drive the polycondensation to high molecular weight.^[10]^[11] The molar ratio of DCDPS to total diols is equimolar (1:1) to achieve optimal chain extension, with the ratio of bisphenol S to biphenol varying (often around 1:1 in commercial grades) to tune properties, and excess base (typically 1.2 equivalents) to ensure complete deprotonation.^[10] Post-reaction, the polymer is precipitated in a non-solvent like methanol, washed to remove salts and residuals, and dried under vacuum.^[10] Among the solvents, DMAc often yields the highest molecular weight polymers due to its balance of solvating power and boiling point.^[10] The simplified reaction for the repeating unit formation can be represented as (for the biphenyl unit):

\text{Cl-Ar-SO}_2\text{-Ar-Cl} + \text{HO-Ar'-OH} \xrightarrow{\text{K}_2\text{CO}_3, \text{solvent}, \Delta} \text{-[O-Ar'-O-Ar-SO}_2\text{-Ar]-}_n + 2\text{HCl}

where Ar denotes the 1,4-phenylene group and Ar' the 4,4'-biphenylene group; a similar reaction occurs with bisphenol S (HO-Ar-SO₂-Ar-OH).^[10]^[11] Alternative synthesis routes for PPSU and related polysulfones, though less common and not typically used industrially, include electrophilic aromatic substitution via Friedel-Crafts acylation, which involves reacting aromatic compounds with sulfonyl chlorides in the presence of Lewis acids like aluminum chloride.^[12] Oxidative coupling methods, utilizing oxidants such as copper salts or electrochemical systems to form ether or sulfone linkages directly from phenols or sulfides, have also been explored in laboratory settings but offer limited control over molecular weight and structure compared to the nucleophilic route.^[12]

Physical and Thermal Properties

Density and Morphology

Polyphenylsulfone (PPSU) possesses a density typically ranging from 1.29 to 1.31 g/cm³, which exceeds that of many other thermoplastics due to its extensive aromatic backbone that contributes to a more compact molecular packing.^[13] This elevated density underscores PPSU's suitability for applications requiring structural integrity under load, while maintaining a lightweight profile relative to metals.^[14] PPSU exhibits an amorphous morphology, characterized by a lack of long-range crystalline order, which imparts optical clarity and isotropic mechanical and thermal properties throughout the material.^[1] Its crystallinity is essentially zero under standard processing conditions, preventing the formation of a distinct melting point and instead leading to thermal degradation above approximately 500°C, where initial decomposition occurs around 545°C.^[15] This amorphous structure also results in smooth surface characteristics, enhancing processability and aesthetic appeal in molded components.^[16] A key feature of PPSU's morphology is its low water absorption of 0.37% after 24 hours and approximately 1.1% at saturation, which minimizes dimensional changes and maintains performance in humid environments.^[17] This hydrophobicity arises from the non-polar aromatic and sulfone groups, contributing to the material's overall stability without compromising its inherent transparency or uniformity.^[18]

Thermal Stability and Processing

Polyphenylsulfone (PPSU) exhibits a glass transition temperature (Tg) in the range of 220–230°C, which enables continuous service temperatures up to approximately 180°C without significant loss of mechanical integrity.^[13]^[19] As an amorphous polymer, PPSU lacks a distinct melting point and instead undergoes thermal decomposition starting at around 500°C in air, providing robust high-temperature performance for demanding applications.^[20]^[21] The material's high melt viscosity poses challenges during processing, necessitating elevated temperatures of 360–400°C for techniques such as injection molding and extrusion to achieve adequate flow.^[22]^[23] Prior to processing, PPSU must be thoroughly dried at 150–180°C for 4–6 hours to prevent hydrolysis and defects in the final product.^[24] This high viscosity requires precise control of processing parameters to ensure uniform filling and minimize shear-induced degradation. PPSU demonstrates excellent flammability resistance, achieving a UL94 V-0 rating, and generates low smoke and toxicity upon combustion, making it suitable for safety-critical environments.^[13]^[22]

Mechanical and Chemical Properties

Strength and Durability

Polyphenylsulfone (PPSU) exhibits robust mechanical performance that makes it suitable for demanding engineering applications requiring high strength and rigidity. Its tensile strength typically ranges from 70 to 80 MPa at room temperature, providing excellent resistance to pulling forces under standard conditions.^[13] This material retains more than 50% of its tensile strength at elevated temperatures up to 150°C, with values around 34-40 MPa, ensuring reliable performance in thermally stressed environments.^[13] The modulus of elasticity for PPSU is in the range of 2.5 to 2.7 GPa, offering a balance of stiffness and flexibility that prevents brittleness while maintaining structural integrity.^[25] PPSU demonstrates superior impact resistance, with a high notched Izod impact strength of 70 to 90 J/m, attributed to the flexible ether linkages in its molecular structure that absorb energy and inhibit crack propagation.^[26] This toughness is particularly beneficial for components exposed to sudden loads. Additionally, PPSU offers excellent fatigue resistance, enabling it to withstand cyclic loading in dynamic applications without significant degradation over repeated stress cycles.^[27]

Resistance to Degradation

Polyphenylsulfone (PPSU) exhibits superior hydrolytic stability compared to polysulfone (PSU), with the ability to withstand over 1,000 steam sterilization cycles at 132 °C without significant loss of mechanical properties, such as retaining 83 MPa tensile strength and 50% elongation after such exposure.^[6]^[28] In contrast, PSU typically endures only 80–100 cycles under similar conditions before degradation.^[28] This exceptional resistance stems from PPSU's robust molecular structure, which maintains over 85% of key properties, including tensile strength and impact resistance, even after prolonged immersion in hot water at 90 °C for nearly two years.^[6] PPSU demonstrates excellent chemical resistance to a broad range of substances, including dilute acids (e.g., hydrochloric acid (10%), sulfuric acid (20%), and nitric acid (50%)), bases (e.g., sodium and potassium hydroxide solutions), showing no cracking after 24-hour exposure at room temperature.^[29] However, it is susceptible to attack by polar aprotic solvents such as dimethylformamide (DMF), particularly at elevated temperatures above 100 °C, where swelling or partial dissolution can occur due to solvent-polymer interactions.^[30] This profile makes PPSU suitable for environments involving aqueous chemicals and disinfectants but requires caution with high-temperature polar solvent exposure. PPSU possesses good inherent UV and radiation resistance, with low yellowing under short-term exposure, as its aromatic structure absorbs UV wavelengths around 280 nm and dissipates energy as heat, minimizing chain scission.^[31] It excels in gamma radiation sterilization, retaining mechanical integrity better than polyetherimide (PEI) and other amorphous thermoplastics, with no significant property loss after typical medical doses.^[32] Prolonged outdoor UV exposure can lead to gradual color shifts and reduced ductility, though tensile strength remains largely unaffected, often necessitating stabilizers for extended applications.^[32] The biocompatibility of PPSU is well-established, with FDA approval for repeated food contact under 21 CFR 177.1655 and for use in medical devices due to its biological inertness and minimal extractables.^[33]^[5] Its low leachables profile, free of bisphenol A (BPA) and other migratory compounds, supports applications in sterilizable healthcare products like surgical instruments and implant trays, ensuring compliance with USP Class VI and ISO 10993 standards for tissue contact up to 24 hours.^[5] This inherent purity maintains mechanical integrity under chemical stress without introducing contaminants.^[34]

Production and Commercialization

Industrial Manufacturing

Polyphenylsulfone (PPSU) is manufactured on an industrial scale through nucleophilic aromatic polycondensation, typically involving the reaction of 4,4'-dihydroxybiphenyl with 4,4'-dichlorodiphenyl sulfone in the presence of a base such as potassium carbonate, conducted in solvents like sulfolane or N-methylpyrrolidone, or via melt processes.^[35] This polymerization occurs in agitated batch reactors or continuous systems such as twin-screw extruders and kneaders, operating at temperatures between 150°C and 350°C to achieve high molecular weights while managing the reaction's exothermic nature and viscosity buildup.^[35] Following polymerization, the resulting polymer melt is extruded into strands using a single-screw extruder at 180–300°C and then cooled and pelletized for downstream processing and distribution.^[35] To enhance mechanical properties, glass fiber reinforcement is commonly incorporated at levels up to 40 wt% during a subsequent compounding step in twin-screw extruders, improving stiffness and dimensional stability for demanding applications; flame retardants may also be added, though PPSU exhibits inherent UL94 V-0 flammability.^[36]^[37] The process demands specialized equipment, including vacuum devolatilization and inert gas purging, due to the high processing temperatures exceeding 350°C, which can lead to thermal degradation if oxygen exposure or prolonged residence times are not controlled.^[35]^[22] Originally developed in the mid-1970s by Union Carbide under the Radel trademark, PPSU production has scaled significantly, with major producer Syensqo (formerly Solvay) operating facilities that contribute to global capacities exceeding 25,000 metric tons annually as of 2025.^[38]^[2]^[39] Yields typically surpass 96% in optimized continuous operations, enabling efficient commercialization while maintaining low levels of cyclic oligomers for consistent quality.^[35]

Market and Brands

Polyphenylsulfone (PPSU) was developed in the early to mid-1970s by Union Carbide Corporation, which introduced it commercially under the Radel brand in 1976 as part of the broader surge in high-performance thermoplastics from 1965 to 1985.^[38]^[40]^[2] This period marked significant innovation in engineering polymers to meet demands for materials with superior thermal and chemical resistance beyond existing options like polycarbonate. Union Carbide's efforts laid the foundation for PPSU's commercialization, with the company later acquired by Solvay (now Syensqo), which continues to lead in its production.^[41] Major brands of PPSU include Radel from Syensqo (formerly Solvay), which offers grades such as R-5000 and R-5500 tailored for injection molding and extrusion.^[5]^[42] Other producers include BASF and SABIC, which manufacture polyarylsulfones encompassing PPSU variants for industrial applications.^[43]^[44] These companies dominate the supply chain, with demand primarily driven by sectors requiring high-reliability materials, such as medical devices and aerospace components.^[45] The global PPSU market was valued at approximately $398 million in 2023 and is projected to reach $812 million by 2032, growing at a compound annual growth rate (CAGR) of 8.25%. As of 2025 estimates, the market size is around $408 million.^[46]^[47] This expansion reflects increasing adoption in high-performance applications, supported by advancements in processing scalability from upstream manufacturing. Key economic factors include PPSU's premium pricing of $20–30 per kg, attributed to its complex nucleophilic aromatic substitution polymerization process, though this is offset by its exceptional durability and regulatory compliance in demanding fields.^[48]

Applications

Medical and Healthcare

Polyphenylsulfone (PPSU) is widely utilized in medical and healthcare applications due to its biocompatibility, high impact resistance, and ability to withstand repeated sterilization processes such as autoclaving, ethylene oxide, and gamma radiation without degradation.^[49] These properties make it suitable for devices requiring long-term durability and patient safety, as it meets USP Class VI standards for biocompatibility and is toxicologically inert.^[50] In healthcare settings, PPSU's transparency and chemical resistance further enhance its utility for reusable components that must maintain structural integrity under harsh conditions.^[51] In surgical applications, PPSU is employed for instruments, handles, and sterilization trays that endure over 1,000 autoclave cycles at 134°C without loss of mechanical properties or discoloration.^[52] For instance, large-format trays made from PPSU, such as those from Solvay's Radel brand, offer up to 50% weight reduction compared to aluminum alternatives while providing equivalent strength and resistance to high-pH cleaners.^[53] This durability supports efficient transport and storage of surgical tools, implants, and screws, reducing contamination risks during repeated use.^[54] For dental and orthopedic devices, PPSU's exceptional impact resistance enables its use in high-stress components like trial implant spacers for spinal fusion surgeries and prosthetic fittings.^[55] PPSU offers superior impact resistance to polysulfone. Orthopedic applications benefit from its dimensional stability and hydrolysis resistance, ensuring reliable performance in load-bearing scenarios without cracking or deformation.^[17] In dentistry, PPSU forms instrument handles and clamps that resist chemical exposure from disinfectants while maintaining clarity for precise handling.^[56] PPSU serves as a shatter-resistant, transparent alternative to glass in baby bottles and feeding systems, approved by the FDA for food contact and free from bisphenol A (BPA) and phthalates.^[57] Materials like BASF's Ultrason P 2010 exhibit high chemical resistance and heat tolerance up to 180°C, allowing safe microwave and dishwasher use while preventing breakage during drops. This makes PPSU ideal for infant products, where safety and ease of sterilization are paramount, as verified in assessments of non-intentionally added substances.^[58] In filtration applications, PPSU-based membranes are used for dialysis and hemodialysis due to their chemical inertness, low protein adsorption, and high permeability for ultrafiltration.^[1] These membranes effectively separate proteins like bovine serum albumin while resisting fouling from biological fluids, enhancing efficiency in blood purification processes.^[59] Modifications such as blending with carbon nanotubes further improve flux rates, making PPSU suitable for compact dialyzer filters that remove uremic toxins without compromising biocompatibility.^[60]

Engineering and Aerospace

Polyphenylsulfone (PPSU), commercially known as Radel® from Syensqo (formerly Solvay), is widely utilized in aerospace applications due to its exceptional combination of lightweight properties, high strength-to-weight ratio, and inherent flame retardancy. In aircraft construction, PPSU serves as a material for interior components such as thermoformable sheets for panels, ducts, and brackets, enabling significant weight reduction compared to traditional metals while maintaining structural integrity under operational stresses.^[61]^[5] These features are particularly valuable in meeting stringent Federal Aviation Administration (FAA) requirements under 14 CFR Part 25.853, where PPSU demonstrates low heat release (less than 65 kW·m⁻²), low smoke density, and minimal toxic gas emissions during combustion.^[61] Additionally, its high modulus at elevated temperatures facilitates efficient processing, further contributing to design flexibility and reduced material usage in cabin interiors.^[61] In the automotive sector, PPSU's superior thermal stability— with a heat deflection temperature (HDT) of 207°C under 0.45 MPa load—and resistance to automotive fluids make it ideal for under-hood components exposed to extreme heat and vibrations.^[5] Specific applications include engine brackets, fuel system connectors, and sensor housings, where the material withstands continuous exposure to oils, fuels, and coolants without degradation, outperforming alternatives like polyetherimide (PEI) in chemical resistance.^[5]^[62] Its impact strength, comparable to polycarbonate, ensures durability in high-stress environments, supporting lightweighting efforts to improve fuel efficiency.^[5] For plumbing and fluid handling systems, PPSU is employed in pipes, valves, and fittings, such as Radel® piping systems, which serve as corrosion-resistant alternatives to brass in pressurized hot water applications up to 95°C.^[63]^[64] The polymer's long-term hydrostatic strength, with a 50-year lower predicted limit (LPL) of 14.6 MPa at 95°C per ISO 9080, ensures reliable performance in demanding water distribution networks.^[64] However, while PPSU exhibits outstanding resistance to environmental stress cracking, improper installation—such as excessive torque during assembly or incompatibility with certain insulations like spray foam—can induce localized stresses leading to cracking over time.^[5]^[65] In electrical engineering, PPSU provides high-temperature insulation for housings, connectors, and wire coatings in environments requiring UL-94 V-0 flame retardancy and dielectric strength.^[5] Its ability to maintain electrical properties at temperatures up to approximately 200°C continuously makes it suitable for switchgear enclosures and high-voltage components in industrial settings, where exposure to heat and chemicals is prevalent.^[66]^[67] The material's hydrolytic stability further enhances its longevity in humid or fluid-exposed electrical systems.^[5] These applications leverage PPSU's thermal and mechanical properties, including a glass transition temperature around 220°C, to ensure reliability without the need for additional reinforcements.^[5]

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Polyphenylsulfone Market Size, Share, Growth & Trends by 2032
The Global Polyphenylsulfone Market Size Was Worth $397.81 Million in 2023 and Is Expected To Reach $811.95 Million by the end of 2032, CAGR of 8.25%.Missing: projection | Show results with:projection
[46]
Polyphenylsulfone Market - Industry Analysis, Market - Forecast(2025
Among all the sulfone polymers, polyphenylsulfone is the most expensive. For instance, the price of polysulfone resins is US$16-20/kg, the price of ...Missing: factors | Show results with:factors
[47]
Investigation of the Properties of Polyphenylene Sulfone Blends - PMC
Sep 14, 2022 · Polysulfones are a group of heat-resistant polyarylenes that remain functional at temperatures from −100 to +250 °C [1]. Due to good mechanical ...
[48]
Medical Plastics 101: PPSU
PPSU can withstand continuous-use temperatures up to 260°C — and its resistance to chemicals ...<|control11|><|separator|>
[49]
Radel® PPSU for Healthcare | Syensqo
Radel® PPSU is a strong, lightweight, super-tough, high-heat, transparent polymer used in healthcare for over 30 years, with ISO 10993 biocompatibility.Missing: datasheet thermal
[50]
Solvay's Radel® PPSU selected for large-format surgical instrument ...
Feb 5, 2019 · The base tray is up to 50 percent lighter than competitive models fashioned with anodized aluminum, a traditional material of choice, and it ...
[51]
Solvay's Radel PPSU for large-format surgical instrument tray
Feb 9, 2019 · Radel polyphenylsulfone (PPSU) resin's strength-to-weight ratio, ability to withstand high pH cleaners during repeated sterilization cycles and ...
[52]
Case Study Medical - Surgical Caddies / Trays - Ensinger
Trays and caddies for transporting and storing surgical instruments as well as screws and additional implants are subject to stringent requirements ... PPSU – ...
[53]
Radel PPSU (Polyphenylsulfone) - 3D Systems
Radel PPSU is an amorphous material that, is available as medical grade for instruments such as trial implant spacer for spinal fusion surgeries.
[54]
PPSU (Radel®) | Cope Plastics | For Medical & Dental Instruments
It is USP class VI compliant, and can be used at temperatures approaching 400ºF. Applications. Clamps; Fittings; Fluid couplers; Instrument handles; Manifolds ...
[55]
Chinaplas 2024: The next generation: robust and colorful baby bottles
Apr 1, 2024 · Ultrason® P 2010 is approved for food contact (FDA and NSF) and features high chemical resistance, excellent strength and resistance to ...<|separator|>
[56]
Polyphenylsulfone (PPSU) for baby bottles - ResearchGate
Aug 8, 2025 · PPSU is a new material for the production of baby bottles. PPSU is a polyether plastic formally composed of bisphenol S (BPS) and 4,4ʹ-dihydroxybiphenyl (DHBP).
[57]
Fabrication of novel PPSU/ZSM-5 ultrafiltration hollow fiber ...
Membranes filtration study was performed using different proteins namely bovine serum albumin (BSA), egg albumin (EA) and hazardous dyes like Reactive black 5 ( ...
[58]
Carbon nanotubes-blended poly(phenylene sulfone) membranes for ...
Sep 25, 2012 · Hence, the present investigation is aimed to study the utility of PPSU in ultrafiltration applications. Carbon nanotube (MWCNT)-blended ...<|separator|>
[59]
[PDF] Thermoforming Sheet for Aircraft Interiors - Radel® PPSU - Solvay
Thermoformed prototypes can be produced with many types of molds such as wood, metal-filled epoxy or cast aluminum. Hardwood molds will only last for about 10 ...
[60]
PPSF/PPSU Polyphenylsulfone - ADDMAN
Polyphenylsulfone (PPSF/PPSU) is a high-performance thermoplastic known for its exceptional strength, thermal stability, and chemical resistance.Missing: formula | Show results with:formula
[61]
Radel® PPSU Stock Shapes - Alro
Because of its corrosion resistance, Radel® is also used in plumbing applications as a replacement for brass in pressurized hot water fittings and valves.
[62]
[PDF] Evaluation of Long-Term Hydrostatic Strength of Sulfone Polymers
A study of the long-term hydrostatic strength (LTHS) of several unfilled sulfone-based polymers has been conducted and is reported in this bulletin. The ...Missing: cracking | Show results with:cracking
[63]
PEX Plumbing Installation Tips - Plastics Pipe Institute
Certain polymer fitting materials (e.g., polysulfone or PSU, polyphenlysulfone or PPSU) may be incompatible with spray foam insulation and might have chemical- ...
[64]
The Applications and Advantages of PPSU Profiles in Electrical ...
Apr 25, 2025 · Key Properties of PPSU for Electrical Insulation · Thermal stability: Long-term heat resistance at 230°C and short-term resistance up to 260°C.
[65]
High-Temperature Resistance of PPSU for Industry
Aug 20, 2025 · As an excellent insulator, PPSU is used in high-voltage and high-temperature electrical components: Switchgear housings. Connectors. Circuit ...