DuPontTM Vespel® Polyimide is a creep-resistant, highly high-temperature plastic that is frequently employed in high-heat situations where thermoplastic polymers lose their mechanical characteristics. Vespel® is a lightweight metal substitute that comes in a range of formulas, including unfilled grades as well as reduced friction and wears grades.
DuPontTM Vespel® Polyimide is capable of working at temperatures ranging from cryogenic to extremely hot. It possesses a low and constant thermal expansion coefficient, as well as excellent, creep properties, allowing DuPontTM Vespel® forms to be machined to tight dimensional tolerances.
DuPontTM Vespel® is a great choice for applications such as valve components where sealing is essential due to its ductility and exceptional creep and stress relaxation characteristics.
DuPont™ Vespel® Polyimide is capable of operating in a wide temperature range from cryogenic to extremely high temperatures. It has a low and consistent thermal expansion coefficient and outstanding creep characteristics, which allows parts made from DuPont™ Vespel® shapes to be machined to tight dimensional tolerances. The ductility and outstanding creep and stress relaxation behavior of DuPont™ Vespel® make it an excellent choice for applications such as valve components where sealing is required.
The Vespel® SP Family grades are available in a number of formulations including an unfilled grade (Vespel® SP-1) as well as filled grades with enhanced mechanical properties, dimensional stability, and friction and wear performance.
The Vespel® SCP Family grades are stronger and stiffer and have superior long-term thermal stability compared with the SP grades.
Is DuPont™ Vespel® right for your demanding application? Our plastics experts can answer your questions and discuss material options.
EXPLORE DUPONT™ VESPEL® SP POLYIMIDE MATERIALS
DuPont™ Vespel® Polyimide SP-1 is unfilled and offers superior electrical and thermal insulation properties.
DuPont™ Vespel® Polyimide SP-3 for unlubricated sealing and low wear in vacuum or dry environments with low outgassing.
DuPont™ Vespel® Polyimide SP-21 is a graphite-enhanced grade with low-friction properties.
DuPont™ Vespel® Polyimide SP-22 is dimensionally stable and offers enhanced resistance to wear and friction.
DuPont™ Vespel® Polyimide SP-211 has a lower coefficient of friction than SP-21 without lubrication.
DuPont™ Vespel® Polyimide SP-202 conductive polymer eliminates static charge in high temperature substrate handling applications.
EXPLORE DUPONT™ VESPEL® SCP POLYIMIDE MATERIALS
DuPont™ Vespel® Polyimide SCP-5000 is unfilled with enhanced mechanical properties and thermal stability.
DuPont™ Vespel® Polyimide SCP-5009 is is graphite filled for high wear and friction applications.
DuPont™ Vespel® Polyimide SCP-5050 bearing and wear grade, for high temperature and wear resistance.
DuPont™ Vespel® Polyimide SCP-50094 for demanding applications that require high temperature and wear resistance.
Semiconductor and material handling machinery
Chip test sockets
Wafer clamping rings
Valve seats and sealing applications
High performance bearings and bushings
Locking fasteners for aerospace
Pivot bushings on unison ring
Long term performance at temperatures
up to 260°C (500°F)
Outstanding sealing characteristics when mated against metals
Excellent unlubricated bearing and wear properties (bearing grades)
Good electrical insulating properties
DuPont™ Vespel® has a been specified for critical-service aerospace applications for many decades. The key properties of DuPont™ Vespel® for aerospace components include the material’s ability to maintain moderate modulus and have low stress relaxation throughout a broad temperature range. Filled grades of DuPont™ Vespel® are formulated to have enhanced friction and wear performance when sliding friction is required in service.
Aerospace applications include:
Locking elements for fasteners
Valve seats and seals
Vespel® has been widely used for spacecraft applications since the early days of space exploration. DuPont™ Vespel® is often specified for insulators, seals, bearings, bushings, rollers, and slide pads that require reliable performance in extreme conditions.
The key advantages of DuPont™ Vespel® for spacecraft applications include:
Grades available that have excellent friction and wear characteristics in vacuum
Maintains ductility and moderate modulus throughout a broad temperature range – from cryogenic to elevated temperatures
Excellent flammability characteristics
Good dimensional stability – low and consistent thermal expansion coefficient throughout a wide operating temperature range
DuPont™ Vespel® is used for a wide variety of semiconductor machinery applications including wafer handling, wafer processing, IC handling, and testing.
The key advantages of DuPont™ Vespel® for semiconductor manufacturing include:
Long wear life • Dimensional stability
Outstanding electrical properties
Chemical resistance • Easier to machine than ceramics
Able to operate reliably at temperatures up to 550 °F (or higher for short duration)
Clean operation, virtually no particulate shedding
Semiconductor machinery applications include:
Wafer clamping rings
Insulators • Bearings
Die pickup collets •
DuPont™ Vespel® is widely used for scientific instrumentation applications.
The key performance advantages of DuPont™ Vespel® for scientific equipment include:
Excellent sealing characteristics
Maintains ductility at cryogenic temperatures
Gamma and electron beam radiation resistance
Wide operating temperature range
Grades available that have superior friction and wear performance
Low thermal conductivity
Dimensional stability Scientific instrumentation applications include:
Cryogenic thermal insulators
Bearings and bushings
Components for accelerators
12 in x 12 in – 48 in x 96 in
0.060 in – 4 in
0.250 in – 6 in
Natural, White, Off White, Black, Beige, Dark Gray, Light Gray, RedRod:
0.250 in – 6 in
|Level Haircell, Smooth / Smooth, Haircell 1 Side|
|GRADES||General Purpose, Fire-Rated, Machine Grade, UV Resistant, Scratch Resistant|
*Versus carbon steel, steady state, unlubricated, in air, thrust bearing. **PV limits for any given material vary with various combinations of pressure and velocity as well as other conditions.
Explore the physical, mechanical, thermal, electrical and optical properties of DuPont™ Vespel® polyimide.
Sort, compare and find suitable plastic materials for your application using our interactive properties table.
Caution: Do not use DuPont Materials in medical applications involving implantation in the human body or contact with internal body fluids or tissues unless the Materials have been provided under a written contract from DuPont that DuPont regarding medical applications Conforms to policy and expressly accepts consideration of use.
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