CORPORATE TRAINING AND PLANNING SPECIALTY PLASTICS Polyimide (PI)

CORPORATE TRAINING AND PLANNING Polyimide (PI) Imide group

CORPORATE TRAINING AND PLANNING General Description Most important group of highly heat resistant plastics, often referred to as "exotics". –the polyamide imides, –the polyesters and –the polyetherimides as well as –imides with heterocyclic groups

CORPORATE TRAINING AND PLANNING Manufacture by polycondensation or polyaddition. Polycondensates are usable as thermosets or thermoplastics. However this does not mean that they are moldable as a melt. Polyaddition products are useful only as thermosets.

CORPORATE TRAINING AND PLANNING The Du Pont polyimides, such as Vespel (polycondensation polymer), Pyroline laminates and Kapton films have melting points which are far above the decomposition temperature. Torlon (Amoco) and Polyimid 2080 (Upjohn) are thermoplastic polyimides.

CORPORATE TRAINING AND PLANNING Some polyimides demand special processing techniques, so they are available only as semi- finished products. The semi-finished products are manufactured by the powder sinter technique. There are also polyimide grades which can be processed by compression molding but at very high temperatures and further annealing is required for best results.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Some polyimide grades can be injection molded. The melt temperature is 350 °C and the injection pressures are very high. The cycle times are long because of the large temperature difference during cooling. Injection moldable polyimides can also be extruded.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Multiple laminates are manufactured in heated presses, using the vacuum bag method, or in low-pressure autoclaves. Filament winding is also common. This method involves a heat-, cure- and cool-program. For condensation resins, pauses must be interspersed for escape of the volatile by-products so as to achieve a product essentially free of voids. [The volatile side-products of polycondensation reactions are aromatic acids, aromatic nitrogen compounds and solvent vapor.]

CORPORATE TRAINING AND PLANNING Polyimide (PI) The polyimides can also be applied by spraying. Polyimide on aluminum gives glossy, heat-resistant coatings which are resistant to solvents and prevent stain formation. There are many adhesives for bonding polyimide molded articles to each other or to other materials.

CORPORATE TRAINING AND PLANNING Polyimide (PI) General Description Often the advantages of polyimides cannot be exploited as only a limited selection of moldings & semi-finisheds can be manufactured. Up to now it has not been usual to process molding compounds or prepregs in plastics processing plant. The raw material manufacturers prefer to carry out the complicated processing themselves and produce moldings to clients' specifications. Some polymer manufacturers thus also offer finished parts commercially

CORPORATE TRAINING AND PLANNING Polyimide (PI) Structure and General Properties As the aromatic or heterocyclic ring compounds in the chains of the macromolecule are closely pressed together, the properties are - high strength over a wide temperature range (- 240 to + 370°C), - high stiffness and hardness, - high thermal stability,

CORPORATE TRAINING AND PLANNING Polyimide (PI) Structure and General Properties - favorable friction and abrasion performance, - good electrical properties, - high resistance to high energy radiation, - highly flame resistant, - low outgassing under high vacuum, - good resistance to chemicals and water.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Additives Functional additives and reinforcements are of importance: Molybdenum disulfide (MoS 2 ), graphite and PTFE for bearing material. Glass-, Carbon- and aramide-fibers are used as reinforcements.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Availability A wide variety of imide-based thermosets and thermoplastics with functional additives and reinforcements are commercially available: As resins and compounds in the form of dry powders or dissolved in solvents Compressed and machined moldings Prepregs in the B-state, honeycombs, films, laminates, foams, coating materials, wire enamel and adhesives.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Availability The polyimides - Vespel moldings and Kapton films are products of the firm Du Pont de Nemours (US) and can only be obtained as finished precision moldings and films from Du Pont. There is a limited availability of semi- finisheds in the form of rods, tubes, profiles, sheets, rings and disks.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Resistance to Chemicals Polyimide is resistant to solvents, fuels, grease, oils, detergents, dilute acids and alkalis But not resistant to strong acids and alkalis or oxidants. It is not resistant to long-term exposure to boiling water and steam although the decrease in strength is reversible. It is resistant to stress crack formation except in alkaline media.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Weathering Resistance Molded articles lose strength and elongation at break after long exposure outdoors and should therefore not be used. However they resist mold. Resistance to High Energy Radiation Molded items of PI are resistant up to an absorbed dose of 10 7 J kg -l, higher than most other plastics.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Water Absorption Moisture content of polyimide at equilibrium under normal environmental conditions (23°C of, 50% RH) is 1.25% - the dimensional changes caused by alteration of the moisture content of the surroundings is small After 1000 hrs % in MD & 0.06% in TD After hours in MD & 0.16% in TD Only very narrow tolerances and extreme conditions preclude the use of PI.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Machining Machining is performed with standard carbide-tipped steel metalworking tools. The materials must remain cool enough to be touched with the bare hand.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Joining The preferred method of joining is by adhesion. Polyimide molded items can be bonded to each other and to other materials. Choice of adhesive is made according to the operating temperature. For service temperatures below 150°C Epoxide resins are suitable. Phenolic resin adhesives are somewhat more heat resistant.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Applications In the form of moldings and machined items, PI are used for piston rings, valve seats, bearings, seals, welding-torch handle grips, jet engine accessories, electronic connectors, coil cores, covers for meters and automobile accessories. PIs are also used as valve stems in valves. High thermal stability and heat resistance are the reasons for application in connection with soldering and welding.

CORPORATE TRAINING AND PLANNING Polyimide (PI)

CORPORATE TRAINING AND PLANNING Polyimide (PI) Applications The largest and most important area of application for PI items up to now-is in the engines, for example in the Boeing 747 for seals in the different compressor stages. More recently because of the favorable friction and wear characteristics and lubricant-free operation, polyimide molded articles have been used in office machinery and computers as bearings, rollers, slide and guide rails.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Kapton films are successfully used in a wide range of applications from -269°C to +400°C. These films are flame resistant, do not melt, are resistant to solvents and to high-energy radiation. PI films are used for insulating washers, cable and wire sheathing as well as printed circuit substrates.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Films coated on one or both sides with FEP can be heat sealed and act as a moisture barrier. Films coated by vaporizing aluminium protect space ships against the rays of the sun and the effect of heat on the power plant. Space suits are also insulated with such films. Polyimide films serve as sound insulation at high operating temperatures.

CORPORATE TRAINING AND PLANNING Polyimide (PI) MANUFACTURERS Vespel - Solvay Advanced Polymers.

CORPORATE TRAINING AND PLANNING Polyimide (PI) Further Reading 1.BRYDSON J.A, Plastics Material, Butterworth Heinemann, oxford, New Delhi (2005) 2.DOMININGHAUS H., Plastics for Engineering, Hanser publishers, Munich, New York (1998) 3.CHARLESS A. HARPER, Modern Plastics Hand Book McGraw –Hill, New York (1999) 4.MARGOLIS J. M., Engineering Thermoplastics, Marcel-Dekker, New York (1985)

CORPORATE TRAINING AND PLANNING Table- I Guide values of properties of PI PropertiesUnitsPI PI (Glass Filled) Densityg/cm Water absorption (23°C, 24h)% Mechanical Tensile strengthN/mm Impact strength (Izod)J/m Rockwell hardnessscale48-58 E Thermal Service temperature in air without mechanical loading short-term400 long-term260 Glass transition temperature°C360 Heat deflection temperature°C – 38 HDT, ISOMethod A°C0.35 – 0.41 Coefficient of linear expansion between 0 and 50 °Cmm/mm/°C50-63

CORPORATE TRAINING AND PLANNING Table- I Guide values of properties of PI PropertiesUnitsPI PI (Glass Filled) Thermal conductivityW/mK Electrical Volume resistivity  cm Surface resistance  Dielectric constant3.41 Dissipation factor, tan  50 Hz Dielectric strengthkV/mm22 Tracking resistanceclass C>300>250 Water absorption (24h)mg