What does PESU mean?
PESU is the acronym for Polyethersulfone. Also known as PES, PESU is part of Sulfone polymers, which are high performance polymer exhibiting very attractive properties such as high temperature performance, good chemical resistance, outstanding toughness, excellent colorability and very good dimensional stability. As the other sulfone polymers, PESU is an amorphous polymer and displays therefore very good creep resistance, isotropic thermal and mechanical properties (if non reinforced) and transparency properties. PESU is used in various applications including food services, medical, aerospace, wire & cable, etc.
PESU is an amorphous polymer/plastic. What does it mean?
Polymer materials can be divided in two different families depending on the level of molecular organization of the constitutive chains at the microscopic scale.
In semi-crystalline polymers, the molecular chains can locally fold and stack one of each other creating small crystals. The morphology of semi-crystalline polymers consists in crystalline domains surrounded by an amorphous phase, in which the polymer chains are tangled randomly. Due to the presence of crystals, semi-crystalline polymers are generally opaque and display non isotropic properties. They have two different thermal transition : i) the glass transition temperature corresponding to the softening of the amorphous phase and ii) the melting point corresponding to the melting of the different crystals and the flow of the material.
The performance of semi-crystalline polymers is directly related to the degree of crystallinity, i.e. the relative percentage of crystalline phase and amorphous phase and to the size of the crystalline domains. Those factors are intimately related to the polymer nature and to the used processing/molding parameters (applied shear, cooling rate, etc.).
Amorphous polymers present a glass-like structure in which the polymer chains are tangled randomly without any specific arrangement. Those polymers are generally transparent and present isotropic properties. They have no melting point or temperature but rather soften over a range of temperature around the glass transition temperature, Tg. Like glass, amorphous polymers are highly sensitive to stress cracking. Typical amorphous polymers are polystyrene (PS), polycarbonate (PC), polyetherimide (PEI) or sulfone polymers (PSU, PESU and PPSU).
Glass transition temperature Tg of PESU is equal to 220°C.
What is the PESU color?
Natural color of PESU Radel® is transparent slightly amber. Sulfone polymers are the only thermoplastics that remain transparent at temperatures as high as 204°C (400°F).
What are the different colors available?
Veradel® PESU commercial offer includes transparent, opaque and glass-fiber reinforced grades in natural and colored resins. In most cases, Solvay uses its proprietary color technology. Product approvals can change from one color to another. Please contact the Solvay Specialty Polymers representative for more details or for specific needs.
What is the UL94 rating of Radel® PESU?
As most sulfone polymers, PESU Veradel® is inherently flame retardant and V0 UL94 rated down to 0.8mm thickness.
Do you have FDA or EU food approved Veradel® PESU grades?
Most of Veradel® PESU compounds comply with U.S. FDA and European Union (EU 10/2011 and 1183/2012) regulations for use as components of articles intended for repeat use in contact with all types of foods. Certification of each Veradel® grade is generally mentioned on the related Technical Datasheet (link to be added). As regulatory action is an ongoing activity, please contact your Solvay Specialty Polymers representative for the latest information regarding a specific application requiring agency approval or recognition.
What is the chemical resistance of Veradel® PESU?
Veradel® PESU displays a very good chemical resistance to many chemicals including : aqueous systems, caustics, inorganic acids, aliphatic hydrocarbons, detergents and soaps and certain alcohols. More details about the chemical resistance can be found in the Veradel® design guide (link to be added) or by contacting directly the Solvay Specialty Polymers Technical Marketing representative.
What solvent can be used to dissolve Veradel® PESU parts?
Since Veradel® PESU has an excellent chemical resistance, common solvents are generally useless. In order to dissolve the material, specific and sometimes toxic chemicals can be used such as dimethylformamide, nitrobenzene, N-methyl pyrrolidone or tetrachloroethane. As mentioned, some of those solvents are toxic. Please read carefully the associated MSDS prior handling. Please contact the Solvay Specialty Polymers Technical Marketing representative for more details.
Is Veradel® PESU suitable for use in applications where it is exposed to ultraviolet (UV) radiations?
As for many other polymers, resistance of Veradel® PESU to UV depends strongly on the wavelength of the incident UV radiation as well as on the exposure time. Long term exposure of Veradel® PESU to direct sunlight results in significant decrease of material ductility. A decrease of the tensile elongation at break and of impact strength can be observed. UV radiation will also modify the material color. Color change appears prior loss of ductility. However it has been proven that UV radiations do not affect other mechanical properties such as tensile strength or young’s modulus. Several applications including direct exposure to UV light can be reported such as visors, lenses, transparent covers, etc. Samples are available for further testing. Please contact the Solvay Specialty Polymers Technical Marketing representative for more details.
Is Veradel® PESU resistant to common sterilization processes?
Veradel® PESU material displays an excellent resistance to the most common sterilization methods including steam, EtO, gamma, plasma and chemical sterilizations. Except PPSU, Veradel® PESU has better retention of mechanical properties than amorphous transparent polymers including PEI, PC or PS. The material can withstand to repeated sterilization cycles and is therefore particularly recommended for use in medical applications. For more data, please contact the Solvay Specialty Polymers Technical Marketing representative.
What are the most important recommendations to follow when designing a new part in Veradel® PESU?
Design of a new part must take into account two different points.
First, the maximum stress level and deflection created in the part during use must remain lower than the corresponding appropriate material property, i.e. tensile, compressive, or shear strength. This will allow deciding whether the initial design incorporates a sufficient safety factor to be viable or whether the design should be modified by changing wall thickness or incorporating ribs or contours to increase the section modulus. Special attention must be paid to parts submitted to tensile stress. In any cases, the design stress should stay below the yield strength of the material.
Secondly, as already mentioned, Veradel® PESU is sensitive to stress cracking. Therefore, stress concentrations areas, which may lead to premature failure under impact, creep or fatigue should be avoided. Therefore, inside corner radii should be equal to half of the nominal wall thickness. A fillet radius of 0,8mm (0.032 in.) must be considered as minimum in any case. Outside corners should have a radius equal to the sum of the radius of the inside corner and the wall thickness to maintain a uniform wall thickness.
More details can be found in the Veradel® design guide or by contacting Solvay Specialty Polymers Technical Marketing representative.
What are the standard processing conditions for Veradel® PESU?
The quick molding guide is available on the web site for operators at production site. For more detailed information, please refer to the complete Veradel® processing guide.
Why is it so important to use a large diameter gate when injecting parts with Veradel® PESU?
Gates must be of adequate size and shape to avoid high residual internal stresses and to allow part filling without the use of extremely high injection melt temperatures or pressures. Voids or sink marks may be caused by gates that freeze off before packing is complete. Gate diameter corresponding to 50% of part wall thickness is recommended. More precise information can be found in the Veradel® processing guide.
Is it really necessary to use a mold temperature of minimum 160°C for Veradel® PESU?
In order to guarantee a low level of residual internal stresses in the molded parts and to avoid premature part failure during use, it is mandatory to mold Veradel® PESU at a minimum temperature of 160°C measured directly at the tool surface.
What heating method do you recommend for the mold conditioning? Circulating oil or pressurized water?
As PESU Veradel® material must be molded at a minimum temperature of 160°C, conditioning tool system based on circulating oil are recommended. Such high tool temperature is generally difficult to achieve and to control using pressurized water systems. Use of insulation plates is also highly recommended
What is the recommended gap for venting?
Inadequate venting may result in the gas being compressed in the cavity, which may then heat up to the point of causing burn marks on the part and a deposit on the mold surface. Poor venting may also result in poor weld line strength and the inability to completely fill the cavity. Recommended total volume of vents should be equal to about 25% of the cavity perimeter. Venting below the parting line can be accomplished by incorporating vents at ejector pins. Recommended standard vent dimensions can be found in the Veradel® processing guide.
What tool steels do you recommend for Sulfone Polymers?
The following tool steels are recommended for molding PESU material : DWN 1,2767 ; 420 Stainless Steel or High Density Chrome Plated S-7 steel. Equivalent steel reference in terms of composition are also accepted.
Must I use a special steel for the injection unit when I use Veradel® PESU?
Veradel® PESU as other sulfones polymers can react at high temperature with the steel of the injection unit through a reaction known as sulfidation. Sulfidation is a chemical reaction leading to the creation of iron sulfide (noted as Fe + S = FeS) that occurs whereby unprotected steel reacts at processing temperatures with sulfur that’s liberated during the processing of sulfur containing polymers like sulfones polymers. Sulfidation can occur on the inside of the injection molding machine screw/barrel assembly and/or within a hot runner system. Sulfidation reaction produces a very thin, brittle film of iron sulfide (deep black in color) on the surface of the steel which is easily removed by injection pressure. The thin black film that’s removed is pushed (or injected) into the molded part, causing small black “chip-like” specks or thin grey “smoky” appearing traces. Experience has shown that use of steel containing at least 20% chromium or an additive package based on Stellite® can dramatically improve corrosion and delay sulfidation. The use of highly nickel-based alloys should be avoided. More details about sulfidation can be found in the Handling Sulfidation technical bulletin
Can Veradel® PESU be used with hot runners?
Use of hot runners is not recommended for molding Veradel® PESU. However parts can be successfully molded if precise recommendations are followed including no internal heating, precise temperature control … More details can be found in the Veradel® processing guide (link to be added) or by contacting Solvay Specialty Polymers Technical Marketing representative.
Why is it so important to measure the level of residual internal stresses on molded parts?
Veradel® PESU is an amorphous polymer and is therefore very sensitive to stress cracking. In order to prevent risk of premature failure, it is important to minimize the level of residual internal stresses or molded-in stresses when working with fabricated sulfone parts. A procedure has been developed for estimating the magnitude of the residual internal stresses. The procedure entails exposing the parts to a series of chemical mixtures. The stress level required for crazing to occur for each mixture was determined using specimens at known stress levels. Contact your Solvay Specialty Polymers representative for more details.
What is the recommended level of residual internal stresses in molded parts made of Veradel® PESU?
The level of residual internal stresses in molded parts depends on different factors such as part design, thickness, and tool design or injection conditions. However, a maximum level of residual internal stresses of 5MPa for Veradel® PESU molded parts can be considered to be acceptable in most cases. Contact your Solvay Specialty Polymers representative for more details about the procedure and the targeted level.
What is the recommended moisture content level for Veradel® PESU material?
The desired moisture content for injection molding is below 500 ppm (0.05%) and for extrusion below 100 ppm (0.01%). Hopper drying requires sufficient insulation and minimal system leakage. Inlet air temperature must be high enough to maintain a polymer pellet temperature of at least 135°C (275°F), and the dew point of the inlet air should be -40°C (-40°F). These conditions must be sustained long enough for the polymer moisture content to drop to below the minimum levels suggested for the processing technique to be used. Recommended drying times and temperatures for Veradel® resins are: 3 hours at 177°C (350°F), or 4 hours at 150°C (300°F), or 5 hours at 135°C (275°F).
How can I obtain Veradel® PESU resin pellet and molded samples for testing purposes?
Samples pellets for molding trials and several shapes of molded articles can be supplied for testing purposes. There is a wide range of products and sample types available. Stock shapes or other thick walled semi-fabricates for machining prototype parts for example, are not offered due to the complexity of the practical aspects to cool such parts fast enough and prevail the material from being degraded at the inner core of thick sections. Please consult your Solvay Specialty Polymers representative for further information or sample requests.
What is the recommended purging procedure in case of machine stop or production stop?
Precise information about start-up, shutdown and purging procedure can be found in the Veradel® processing guide (link to be added) or by contacting Solvay Specialty Polymers Technical Marketing representative.
Do you have the material parameters required for conducting flow or mechanical simulation?
Most of Veradel® PESU grades are fully characterized to run FEA analysis or rheological analysis. Data are openly available in most of Commercial Rheological Softwares (Moldflow, Moldex, CADFlow, etc.). Please contact your Solvay Specialty representative to help in your development work.
Where can I find Technical Datasheet of Veradel® PESU grades?
You can find a list of datasheets on the Veradel® PESU page
or visit the technical datasheets library
Where can I find Material Safety Datasheet of Veradel® PESU grades ?
Material Safety Datasheet can be obtained by contacting Solvay Specialty Polymers technical marketing representative.