Stop Couplings with Gasket
Fittings
Stop coupling is sometimes referred to as a double bell coupling.
Unit of Measure
Items |
/Asset/Stop-Couplings-with-Gasket.jpg 40B-SW-40-G 4 Inch (in) Nominal Size Standard Wall ID Belowground Stop Coupling with Gasket Joint |
/Asset/Stop-Couplings-with-Gasket.jpg 20C-SW-40-G 2 Inch (in) Nominal Size Standard Wall Iron Pipe Size (IPS) Aboveground Stop Coupling with Gasket Joint |
/Asset/Stop-Couplings-with-Gasket.jpg 20B-SW-40-G 2 Inch (in) Nominal Size Standard Wall ID Belowground Stop Coupling with Gasket Joint |
/Asset/Stop-Couplings-with-Gasket.jpg 10A-SW-40-G 1 Inch (in) Nominal Size Standard Wall Iron Pipe Size (IPS) Belowground Stop Coupling with Gasket Joint |
/Asset/Stop-Couplings-with-Gasket.jpg 50B-MW-40-G 5 Inch (in) Nominal Size Medium Wall ID Belowground Stop Coupling with Gasket Joint |
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Description | N/A Stop coupling is sometimes referred to as a double bell coupling. | |||||||||
Brand | N/A Champion Fiberglass®, Inc. | |||||||||
Type | N/A ID Belowground (Tubular) Stop Coupling with Gasket Joint | N/A Iron Pipe Size (IPS) Aboveground Stop Coupling with Gasket Joint | N/A ID Belowground (Tubular) Stop Coupling with Gasket Joint | N/A Iron Pipe Size (IPS) Belowground Stop Coupling with Gasket Joint | N/A ID Belowground (Tubular) Stop Coupling with Gasket Joint | |||||
Nominal Size | N/A 4 in | N/A 2 in | N/A 2 in | N/A 1 in | N/A 5 in | |||||
Wall Thickness | N/A Standard Wall | N/A Standard Wall | N/A Standard Wall | N/A Standard Wall | N/A Medium Wall | |||||
D | N/A 4.16 in106 mm | N/A 2.40 in61 mm | N/A 2.16 in55 mm | N/A 1.32 in34 mm | N/A 5.20 in132 mm | |||||
L | N/A 8 in203 mm | |||||||||
Conduit Type | N/A Coupling | |||||||||
Color | N/A Black | |||||||||
Weight | N/A 0.59 kg1.30 lb | N/A 0.32 kg0.70 lb | N/A 0.32 kg0.70 lb | N/A 0.04 kg0.09 lb | N/A 0.77 kg1.70 lb | |||||
Industry Standards/Certifications | N/A Underwriters Laboratories (UL) | |||||||||
Application | N/A | N/A | N/A | N/A | N/A Used for more protection in 5" & 6" | |||||
Features | N/A Most Commonly used. | N/A Most Commonly used. | N/A Most Commonly used. | N/A Most Commonly used. | N/A | |||||
Gasket Joint (Triple Seal) | N/A The gasket joint system consists of an integral bell and spigot. The belled end has a triple seal gasket in addition to the interference joint. The triple seal gasket fits into a permanent groove formed during the manufacturing of the conduit. Because of this design, thermoplastic retainer rings, which often fall out during cold weather, are not necessary. The triple seal gasket provides a water tight seal. When properly installed, the triple seal gasket in combination with the interference joint has a pull out strength of 2,000 lbs. Triple seal gasket without interference joint (e.g. after a field cut) has a pull out strength of 500 lbs. | |||||||||
General Information |
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Fiberglass Conduit Specifications for Use Below Ground The conduit shall be fiberglass conduit, also known as Reinforced Thermosetting Resin Conduit (RTRC), manufactured using the single circuit filament winding process. Multi circuit windings are not allowed. The conduit shall have a winding angle as close as possible to 54.75 degrees. The resin system shall be epoxy based, with no fillers, using an anhydride curing agent. The fiberglass shall consist of continuous E-glass roving. The conduit shall not contain any halogen compounds containing chlorine, bromine, fluorine and iodine in more than trace amounts when burning. Conduit and elbows shall be manufactured from the same resin/hardener/glass systems manufactured by the same filament wound system. Fiberglass conduit fittings and accessories shall be manufactured using one of two manufacturing procedures. The first method shall use the same process, methods, and components as used to manufacture the fiberglass conduit. The second method shall use the compression molding process, Sheet Molding Compound (SMC), for the manufacture of the finished component. The SMC material shall be a vinyl ester resin with +30% reinforcement of glass. The glass fibers should be approximately 1" in length. The SMC material shall be fire resistant to UL 2515. Conduit shall be integral bell and spigot or bonded coupling and spigot. Conduit, elbows and fittings are specified for use throughout a temperature range of -60ºF (-51ºC) to 250ºF (121ºC). Manufacturer shall have a current Certificate of Compliance, issued by an independent and accredited company, with an ISO 9001:2008 Quality Management System. |
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Fiberglass Conduit Specifications for Use Below Ground The conduit shall be fiberglass conduit, also known as Reinforced Thermosetting Resin Conduit (RTRC), manufactured using the single circuit filament winding process. Multi circuit windings are not allowed. The conduit shall have a winding angle as close as possible to 54.75 degrees. The resin system shall be epoxy based, with no fillers, using an anhydride curing agent. The fiberglass shall consist of continuous E-glass roving. The conduit shall not contain any halogen compounds containing chlorine, bromine, fluorine and iodine in more than trace amounts when burning. Conduit and elbows shall be manufactured from the same resin/hardener/glass systems manufactured by the same filament wound system. Fiberglass conduit fittings and accessories shall be manufactured using one of two manufacturing procedures. The first method shall use the same process, methods, and components as used to manufacture the fiberglass conduit. The second method shall use the compression molding process, Sheet Molding Compound (SMC), for the manufacture of the finished component. The SMC material shall be a vinyl ester resin with +30% reinforcement of glass. The glass fibers should be approximately 1" in length. The SMC material shall be fire resistant to UL 2515. Conduit shall be integral bell and spigot or bonded coupling and spigot. Conduit, elbows and fittings are specified for use throughout a temperature range of -60ºF (-51ºC) to 250ºF (121ºC). Manufacturer shall have a current Certificate of Compliance, issued by an independent and accredited company, with an ISO 9001:2008 Quality Management System. |
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Fiberglass Conduit Specifications for Use Below Ground The conduit shall be fiberglass conduit, also known as Reinforced Thermosetting Resin Conduit (RTRC), manufactured using the single circuit filament winding process. Multi circuit windings are not allowed. The conduit shall have a winding angle as close as possible to 54.75 degrees. The resin system shall be epoxy based, with no fillers, using an anhydride curing agent. The fiberglass shall consist of continuous E-glass roving. The conduit shall not contain any halogen compounds containing chlorine, bromine, fluorine and iodine in more than trace amounts when burning. Conduit and elbows shall be manufactured from the same resin/hardener/glass systems manufactured by the same filament wound system. Fiberglass conduit fittings and accessories shall be manufactured using one of two manufacturing procedures. The first method shall use the same process, methods, and components as used to manufacture the fiberglass conduit. The second method shall use the compression molding process, Sheet Molding Compound (SMC), for the manufacture of the finished component. The SMC material shall be a vinyl ester resin with +30% reinforcement of glass. The glass fibers should be approximately 1" in length. The SMC material shall be fire resistant to UL 2515. Conduit shall be integral bell and spigot or bonded coupling and spigot. Conduit, elbows and fittings are specified for use throughout a temperature range of -60ºF (-51ºC) to 250ºF (121ºC). Manufacturer shall have a current Certificate of Compliance, issued by an independent and accredited company, with an ISO 9001:2008 Quality Management System. |
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Fiberglass Conduit Specifications for Use Below Ground The conduit shall be fiberglass conduit, also known as Reinforced Thermosetting Resin Conduit (RTRC), manufactured using the single circuit filament winding process. Multi circuit windings are not allowed. The conduit shall have a winding angle as close as possible to 54.75 degrees. The resin system shall be epoxy based, with no fillers, using an anhydride curing agent. The fiberglass shall consist of continuous E-glass roving. The conduit shall not contain any halogen compounds containing chlorine, bromine, fluorine and iodine in more than trace amounts when burning. Conduit and elbows shall be manufactured from the same resin/hardener/glass systems manufactured by the same filament wound system. Fiberglass conduit fittings and accessories shall be manufactured using one of two manufacturing procedures. The first method shall use the same process, methods, and components as used to manufacture the fiberglass conduit. The second method shall use the compression molding process, Sheet Molding Compound (SMC), for the manufacture of the finished component. The SMC material shall be a vinyl ester resin with +30% reinforcement of glass. The glass fibers should be approximately 1" in length. The SMC material shall be fire resistant to UL 2515. Conduit shall be integral bell and spigot or bonded coupling and spigot. Conduit, elbows and fittings are specified for use throughout a temperature range of -60ºF (-51ºC) to 250ºF (121ºC). Manufacturer shall have a current Certificate of Compliance, issued by an independent and accredited company, with an ISO 9001:2008 Quality Management System. |
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