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Sunday, November 30, 2014
Insulating Materials for Electrical Power Equipment
There are number of materials which are used either separately or as a combination of composite products to form an insulation system for electrical power equipment. The basic materials selected for insulation systems are selected based on their ability to withstand varied electrical, mechanical,and thermal stresses during the life of the equipment. Listed below is a partial summary of the materials and products used for insulating electrical power equipment.
Rigid Laminates Sheet, Rod, and Tube
Canvas-• based phenolic laminate
• Paper-based phenolic laminate
• Glass melamine laminate
• Glass silicone laminate
• Glass epoxy laminate
• Cogetherm mica-based laminate
• Mica epoxy laminate
• Transite HT and NAD-11 high-temperature cement boards
Glass Polyester Products
• Glass polyester sheet
• Glass polyester channels and angles
• Glass polyester stand-off insulators
• Glass polyester rods
• Specialty glass polyester
Flexible Laminates and Films
• Diamond-coated kraft paper
• Vulcanized fiber sheets, rods, and tubes
• Kraft pressboard products
• COPACO rag paper
• Quin-T family of flexible laminates
• Melinex polyester film
• Mylar polyester film
• Dacron–Mylar–Dacron
• Kapton polyimide film
• Nomex aramid paper
• Nomex–Polyester–Nomex
• Rag Mylar and Rag–Mylar–Rag
Over the years organic insulating materials have been replaced with inorganic materials and this progression is still continuing. There are number of organic and inorganic insulating materials that are used in electric power equipment. Although this listing discussed in this section is somewhat long, it is not all encompassing because the choices of available insulating materials are many. The use of the trade names in the listing given here does not represent a particular brand preference but are included for clarity. The characteristics of various insulating materials are discussed as follows.
Cotton: Cotton has been used extensively in electrical insulation because of its low cost, strength, elasticity, fl exibility, and adaptability to size requirements and manufacturing process. However, cotton has a tendency to absorb moisture and limited thermal capability. Cotton is always used with varnish or resin impregnation to obtain good dielectric strength and moisture resistance.
The use of cotton is restricted to 105°C (Class A insulation system)
because temperatures higher than class A cause decomposition of the cotton fibers with resulting embrittlement and loss of mechanical strength.
Cotton fabrics: There are many varieties of treated fabrics that are fundamental Class A insulating materials. Untreated cotton fabrics that have been thoroughly dried are used for oil transformer insulation. These fabrics are quickly impregnated when the transformer is fi lled with oil, thereby providing excellent physical and dielectric properties. Two most commonly used fabrics are tan-varnish treated cloths and black-varnish treated cloths.
Paper: Many types of paper are used in insulating electrical equipment.
These varieties include Japanese tissues, cotton rags, manila (hemp), the kraft (wood pulp), jute, fi shpaper (gray cotton rag), fuller board, and the like. Rag and kraft paper often called transformer paper is used to separate windings in a transformer or in applications where there are no sharp edges that might poke through the relatively weak paper. Fishpaper is usually vulcanized and often laminated with Mylar giving it excellent resistance to tear and puncture.
The paper–Mylar laminates resist soldering heat better since paper does not melt and the Mylar resist moisture best. Papers made with temperature resistance nylon and/or glass weaves have excellent electrical properties and good temperature resistance. Paper posses similar properties as cotton cloth, but because of its structure it has higher dielectric strength than cotton.
The thermal stability and moisture absorption properties of paper are similar to cotton; however, paper does not possess the high mechanical strength of cloth. Untreated paper has little insulating value because of its extreme tendency to absorb moisture.
Asbestos: Recent restriction placed by Environmental Protection Agency (EPA) and OSHA has limited the use of the asbestos as an insulating material.
It is used in the form of asbestos paper or asbestos tape, asbestos mill board or asbestos lumber for electrical insulating purposes. In such forms, it may contain 10%–20% wood pulp and glue to give it strength. Asbestos is generally heat resistance, but if heated excessively asbestos loses its hygroscopic moisture and therefore becomes brittle. Asbestos absorbs moisture from the surrounding atmosphere which makes it a less effective insulator.
Glass: Glass insulation comes in a wide variety of forms including solid glass, fiber tapes, fi berglass sheets and mats, woven tubing and cloth, and various composites. The most common form of glass used in electrical equipment is fiberglass. Fiberglass is available as fi berglass yarns for insulating materials. Today, fi berglass cloths and tapes are widely used in high temperature applications. Two types of fi berglass yarns commonly used for electrical insulation are continuous fi lament and staple fi ber yarns. The continuous filament yarns have the appearance of natural silk or linen whereas the staple fiber yarns exhibit a considerable degree of fuzziness similar to wool yarns. Fiberglass has advantages of high thermal endurance, high chemical resistance, high moisture resistance, good tensile strength, and good thermal conductivity when impregnated or coated with varnish or resin.
Glass fibers exhibit poor abrasion resistance therefore fi bers must be lubricated before they are woven into cloth. Varnish treatment of glass cloths greatly increases the abrasion resistance. Untreated glass cloth is used primarily as a spacing insulation and when the cloth is impregnated and coated with an insulating resin or varnish it becomes an effective dielectric barrier.
Among the many uses of fi berglass are covering of wire, binder tapes for coils, and backing for mica tapes. It is also used as ground insulation and insulation for stator coil connections, leads, ring supports, etc. when treated with oleorresinous and other varnishes. Fiberglass, varnish-treated fiberglass, and non woven forms are thermally stable, resistance to solvent depending on the type of varnish used. It is more secure spacer insulation than cotton or paper.
Synthetic textiles and films: Numerous synthetic fi ber textiles are in use as electrical insulation. These are either continuous monofi laments of resins, or short fi bers made of resins that are spun into threads and woven into fabrics.
They have to be coated or impregnated with varnish to become effective dielectric barriers. The thermal ability of these materials lies between cellulose fabrics and glass fabrics and depends on the type of resin coating or impregnating material used more than their own characteristics. Examples of synthetic fi ber cloth and mats are Dacron, other polyesters, aromatic nylons, such as Nomex, Kelvar, and others. They have thermal stability, solvent resistance, and lack of fusibility. Several polyester fi lms exhibit excellent electrical and physical properties, such as Mylar which enjoys widespread use in a variety of insulation systems.
Polyester films: They are used at temperatures above 105°C–125°C and have fair solvent resistance. Some specially formulated polyester varieties are used for service up to 180°C. The common uses of polyester fi lms such as Mylar and others are slot liners, layer insulation in transformers, capacitors, and as laminated backing of paper insulation.
Aromatic polyimide (Kapton, Nomex, and others): It is used at temperatures of 180°C–220°C. It has excellent resistance to solvents and has good heat resistance and superb mechanical and electrical properties. Nomex is a Dupont aromatic polyamide with a temperature rating above 220°C and has high voltage breakdown strength.
Polyolefins: Polypropylene and polyethylene are two known polyolefins that are available with ultrahigh molecular grade matching the strength of steel.
Polypropylene is used for insulation not to exceed temperatures above 105°C whereas polyethylene film has limited use such as class O insulation system since it softens at temperatures higher than 70°C.
Polycarbonate: Common trade names for it are Lexan and Merlon and are used for insulation system rated at temperatures 105°C and below. It has excellent electrical insulating properties and has good oil resistance but poor solvent resistance.
Polysulfone: This is another thermoplastic that include polyetherimide, polyamide, and polyphenylene with trade names like Noryl, Udel, Vespel, and Torlon. These materials are used at temperatures from 105°C to 130°C and have good oil resistance but not chlorinated solvent resistance.
Polytetrafluoroethylene (Teflon): It is an excellent high-temperature insulation with excellent electrical insulating properties and is used at temperatures of 220°C and higher. Teflon tubing and wire insulation is available in a variety of colors and typically feels slippery. It has good resistance to moisture.
Nylon: Nylon has good resistance to abrasion, chemicals, and high voltages and is often used to fashion electromechanical components. Nylon is extruded and cast and is filled with a variety of other materials to improve weathering, impact resistance, coefficient of friction, and stiffness.
Phenolics: Phenolic laminated sheets are usually brown or black and have excellent mechanical properties. Phenolics are commonly used in the manufacture of switches and similar components because it is easily machined and provides excellent insulation. Phenolic laminates are widely used for terminal boards, connectors, boxes, and components.
Polyvinylcloride (PVC): PVC is perhaps the most common insulating material.
Most wiring is insulated with PVC including house wiring. Irradiated PVC has superior strength and resistance to heat. PVC tapes and tubing are also quite common. Electrical and electronic housings are commonly molded from PVC.
Acrylic: Lucite and Plexiglas are trade names for acrylic which has widespread use where toughness and transparency are required.
Beryllium oxide: A hard white ceramic-like material used as an electrical insulator where high thermal conductivity is required. Beryllium oxide is highly toxic in powder form and should never be fi led or sanded and consequently has fallen out of common use. Power semiconductor heat sinks can still be found with beryllium oxide spacers for electrical insulation.
Ceramic: Ceramics are used to fabricate insulators, components, and circuit boards. The good electrical insulating properties are complemented by the high thermal conductivity.
Melamine: Melamine laminated with woven glass makes a very hard laminate with good dimensional stability and arc resistance. It is used in combination with mica to form rigid fiber laminates.
Mica: Mica sheets or stove mica is used for electrical insulation where high temperatures are encountered. Two kinds of mica, Muscovite (white or India mica) and phlogopite (amber mica) are generally used for insulating purposes.
Mica and reconstituted mica paper are inorganic and infusible. Mica has high dielectric strength, high insulation resistance, low dielectric loss, good mechanical strength, good dielectric constant (specific inductive capacity), and good heat conductivity. Puncture resistance is good but the edges of the mica should be fl ush against a fl at surface to prevent flaking.
Mica finds uses in composite tapes and sheets which are useful up to 600°C with excellent corona resistance. Sheets and rods of mica bonded with glass can tolerate extreme temperatures, radiation, high voltage, and moisture. It is also available as mica paper where tiny mica flakes are made into paper like structure and reinforced with fiber, glass, or polyester.
Rigid fiber laminates: They are made of layers of cloth (glass, cotton, polyester, etc.) or paper with resin (phenolic, melamine, polyester, and epoxy) impregnation. They are supplied as thermosetting, thermoforming, and postforming materials used as insulators.
Micarta: It is rigid fiber laminate made of cloth, paper, or wood saturated with either a synthetic or organic resin, and then compressed under heat.
This process makes the resin permanently hard and therefore Micarta becomes impermeable to heat, pressure, and solvents. Originally, Micarta was developed as an insulator but today it has many applications. Micarta mechanically strong, rigid, and nonmagnetic. It is less susceptible to moisture and most acids. Micarta is used for insulating washers, controller panels and cams, slot wedges, brush rigging, bus bar supports, insulating barriers, and transformer insulation.
Synthetic resins: Synthetic resins are used extensively in varnish manufacture.
The polyester and epoxy types are representative of heat hardening
resins. Varnishes containing such resins are thermosetting and will cure by heat alone and do not require oxygen. Other synthetic resins are phenolic resins suitable for molding and bonding; alkyd type resins are being substituted for the old black varnishes and compounds; melamine resins are used for making laminates and molded compounds; and vinyl resins are used in the compounding of plastics and rubber substitutes.
Varnish: Insulating varnishes are of great importance in the maintenance of electrical equipment and apparatus. An insulating varnish is a chemical compound of synthetic resins or varnish gums and drying oils, having high dielectric strength and other properties that protect electrical equipment. Varnishes provide important insulating and protective functions, which are rotect the insulation and equipment against moisture
• Electrically and thermally enhance other insulating materials
• Add mechanical strength to other components of the insulation
• Minimize the accumulation of dust and contaminants, and improve heat dissipation by filling voids
• Enhance and increase the life of insulating materials
Adhesive-coated tapes: Many of the insulating films and fabrics described above can be obtained and used with adhesive backing that are usually thermoses or heat curable.
Rubber: Natural or Buna S rubber is not normally used for insulation these days because it is affected by ozone and has poor thermal stability.
On the other hand, butyl and ethylene propylene rubbers are ozone resistance and more thermally stable. These are used for molded parts, cable insulation, and lead insulation in motors.
Silicone rubber: A variety of silicone foam rubbers are available as an insulating material. Silicone rubbers exhibit characteristics of superb chemical resistance, high-temperature performance, good thermal and electrical resistance, long-term resiliency, and easy fabrication. Liquid silicone rubbers are available in electrical grades for conformal coating, potting, and gluing.
Silicone rubbers have excellent thermal stability and ozone resistance, but only fair mechanical strength and abrasion resistance.
Silicone/fiberglass: Glass cloth impregnated with a silicone resin binder makes an excellent laminate with good dielectric loss when dry.
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At Bansal Insulation and Mica House, we understand the critical role that high-quality insulating materials play in the performance and safety of electrical power equipment. Our extensive range of products, including the renowned Nomex Insulation Paper, ensures superior thermal and electrical insulation. As trusted Nomex Insulation Paper Dealers In Delhi, we are committed to providing top-notch solutions that enhance efficiency and reliability, meeting the evolving needs of the power industry.
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