HARRINGTON CORPORATION • P.O. BOX 10335 • LYNCHBURG, VIRGINIA 24506-0335 PHONE: 434-845-7094 • FAX: 434-845-8562 • E-MAIL: [email protected] • WEB: www.harcofittings.com Latest price list at www.harcofittings.com PRICE LIST HD20160805 EFFECTIVE SEPTEMBER 1, 2016 HARCO PRICE LIST IPS HDPE Fittings ENGINEERED FOR DURABILITY
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IPS Valves for HDPE ApplicationsBall Valves, Full Bore, Wrench Operated................................................ 54......... FBall Valves, Full Bore, Lever Operated................................................... 54......... FBall Valves, Full Bore, Gear Operated.................................................... 54......... FBall Valves, Full Bore, Wrench Operated, Natural Water........................ 55......... FBall Valves, Full Bore, Lever Operated, Natural Water........................... 55......... FGate Valves with PE Ends...................................................................... 56......... F
Call for other configurations
1. Chlorine disinfectants present in potable water and reclaimed water in the right circumstances have reduced the life of PE piping due to accelerated depletion of the antioxidant package in the PE compound used to make the pipe and fittings. The PE industry is working on guidance for users to consider this effect in their system design. Monitor the Plastic Pipe Institute website (www.plasticpipe.org) for continuing developments.
2. Elevated temperatures and temperature changes can have significant effects on the behavior and performance and thus the design of a PE piping system. These circumstances are often present in above ground applications including the use of PE pipe in casing pipe. These applications are often characterized by long runs that can amplify effects and make necessary the consideration of Poisson’s effect. Elevated temperature requires reduction of the effective pressure rating according to the PE industry recommended design procedure possibly resulting in the choice of a different DR. It also should be understood that elevated temperature reduces the “rating life” of PE pipe and fittings. This latter effect is particularly important at extreme temperatures such as those experienced in hot climates and/or due to direct sunlight. Directional fittings used in these applications take the brunt of the effects and should be structurally isolated. Consult the Plastic Pipe Institute website (www.plasticpipe.org) for details and guidance.
3. Elevated velocities require reduction of the effective pressure rating according to the PE industry recommended design procedure possibly resulting in the choice of a different DR. For instance, when velocities routinely exceed 6.3 feet per second in DR13.5 piping the pressure rating should be discounted. This can occur during daytime supplemental watering when flow management is overridden and multiple irrigation heads are operated simultaneously. Consult the Plastic Pipe Institute website (www.plasticpipe.org) for details and guidance.
4. Take note of the guidance at the bottom of each page and within each header of the fitting of interest.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate fittings from pipe that is at least one standard DR thicker than the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate swage reducers from pipe whose DR is no greater than that of the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Body DR” is the DR of the pipe from which the fitting is made. The “End DR” is the DR of the ends of the fitting. The convention of the PE industry in the case of pressure applications is to fabricate crosses from pipe whose DR is two standard DR’s thicker than that of the DR of the pipe to which it is fused. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to machine the ends of the fittings to match the DR of the pipe.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The Back Up Ring DR indicates the minimum DR of the piping system the Back Up Ring will support structurally.
4
8
10
6
14
3
16
12
NOMINALSIZE
WEIGHTEACH
LISTPRICEDR BOLT
QTYPART
NUMBER
NOTE: Coatings are subject to damage during shipping, handling, and installation including the tightening of bolts and nuts. Coating damage will negate any corrosion protection. These parts are shipped with protective wrapping. Purchaser and user are responsible for the soundness of the coating. Credit for returns will be considered for the value of the uncoated product only.
NOTE: Coatings are subject to damage during shipping, handling, and installation including the tightening of bolts and nuts. Coating damage will negate any corrosion protection. These parts are shipped with protective wrapping. Purchaser and user are responsible for the soundness of the coating. Credit for returns will be considered for the value of the uncoated product only.
WEIGHTEACH
LISTPRICE
3
4
6
8
NOMINALSIZE DR BOLT
QTYPART
NUMBER
10
12
14
16
The Back Up Ring DR indicates the minimum DR of the piping system the Back Up Ring will support structurally.
NOTE: This table is correct. The items shown with DR11 versions do not have DR 13.5 versions. The items shown with DR13.5 versions do not have DR 11 versions. These back up rings may be used with any DR of flange adapter. The higher DR will be the limiting component in the joint.
The Back Up Ring DR indicates the minimum DR of the piping system the Back Up Ring will support structurally.
Bolts in these accessory kits are sized to work with DR11 Flange Adapters and ductile iron DR11 Back Up Rings supplied by Harco. Flange Adapters and Back Up Rings made by others, other DR’s, and Back Up Rings made of other materials may or may not work properly. This is because of the potential for different feature lengths in the components and their stack up relative to the length of the bolts and the positioning of the bolt thread length. A bolt can be too long in that the thread section is out of position.
Bolts in these accessory kits are sized to work with DR11 Flange Adapters and ductile iron DR11 Back Up Rings supplied by Harco. Flange Adapters and Back Up Rings made by others, other DR’s, and Back Up Rings made of other materials may or may not work properly. This is because of the potential for different feature lengths in the components and their stack up relative to the length of the bolts and the positioning of the bolt thread length. A bolt can be too long in that the thread section is out of position.
Bolts in these accessory kits are sized to work with DR11 Flange Adapters and ductile iron DR11 Back Up Rings supplied by Harco. Flange Adapters and Back Up Rings made by others, other DR’s, and Back Up Rings made of other materials may or may not work properly. This is because of the potential for different feature lengths in the components and their stack up relative to the length of the bolts and the positioning of the bolt thread length. A bolt can be too long in that the thread section is out of position.
IPS Transition: Spigot withStiffener x Butt Fusion
LISTPRICE
65-90481302
65-90481103
PARTNUMBER
65-9048090265-90481102
NOMINALSIZE
2
WEIGHTEACH
NOMINALSIZE
FITTINGDR
2 x 3
65-9048110465-90481304
65-90481704
65-9048170265-90480903
65-90481303
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The DR of the socket fusion fitting is the minimumDR of the piping system the fitting will support structurally. Some items can support lower DR’s. Call for details.
The DR of the socket fusion fitting is the minimumDR of the piping system the fitting will support structurally. Some items can support lower DR’s. Call for details.
The DR of the socket fusion fitting is the minimumDR of the piping system the fitting will support structurally. Some items can support lower DR’s. Call for details.
READ CAREFULLY: This chart identifies the number of flex restraints “Needed” to develop the full capacity of the pipe at rated pressure. Note the right hand column identifies the maximum number of flex restraints that can be installed about the circumference of the pipe. Call for larger diameters.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
The “Fitting DR” is the DR of the base fitting from which the fitting is made. This DR is the DR of the piping system for which the base fitting is appropriate to use. The “End DR” is the DR of the ends of the fitting. If the End DR is larger than the Fitting DR the ends have been machined. The “End DR” governs the “rating” of the fitting. Best practice to maximize the life of the fusion between the pipe and the fitting and to reduce the variables present in the fusion process is to match the DR of the ends of the fittings to the DR of the pipe to which it is fused.
Latest price list at www.harcofittings.com PRICE LIST HD20160805
EFFECTIVE SEPTEMBER 1, 2016
Conditions of Sale
CLAIMS: All claims for damage or shortage in transit shall be handled with the carrier by the consignee.
Warehouses in Virginia, Florida, Texas, Arizona and Wisconsin
ENGINEERED FOR DURABILITY
PRICES: Subject to change without notice. Possession of price sheets does not constitute an obligation to sell and orders may be refused without cause.
SUITABILITY: The presence of corrosive soils or carried water may require the use of protective measures such as polyethylene encasement and/or coatings.
HARCO PRICE LISTIPS HDPE Fittings
RETURNS: All returned merchandise must have authorization from Harco. Returned merchandise will only be accepted within one (1) year of the date of invoice. Merchandise must be in new and marketable condition. Freight charges on authorized returns must be prepaid and a restocking charge will be made except for returns resulting from shipping errors on our part or material proven to be defective.
GUARANTEE: The Harrington Corporation (Seller) guarantees to credit against invoice price or, at its option, to furnish, but not to install, replacement parts of like kind, F.O.B. its plant, Lynchburg, Virginia, any item of its manufacture proved to be defective in material or workmanship within one (1) year from date of shipment provided Buyer (or Purchaser) gives immediate written notice of such alleged defect and, if required, returns defective item to Seller’s plant freight prepaid. Items or components not of Seller’s manufacture are not included in the foregoing guarantee but are subject only to any warranty of their respective manufacturers. Seller shall not be liable for the cost of any repairs or work done or materials used by the Buyer because of defective or non-conforming items, unless authorized in writing by Seller. IN NO EVENT SHALL SELLER BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES CAUSED BY BREACH OF THIS GUARANTEE unless applicable federal or state law forbids exclusion of incidental or consequential damages.
WARRANTY: EXCEPT FOR THE ABOVE “GUARANTEE,” SELLER MAKES NO EXPRESS WARRANTIES AND NO IMPLIED WARRANTIES OF MERCHANT ABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE AS TO PRODUCTS SOLD BY US, UNLESS APPLICABLE FEDERAL OR STATE LAW FORBIDS SUCH DISCLAIMER OF WARRANTIES. NO WAIVER, ALTERATION, OR MODIFICATION OF THIS DISCLAIMER OF WARRANTIES SHALL BE VALID UNLESS MADE IN WRITING AND SIGNED BY AN EXECUTIVE OFFICER OF SELLER.