Document qOove6Qe4Z7qZ2J71qQNmEmE

r American Society of Heating and Ventilating Engineers Guide, 1937 9 Chapter 34--Pipe, Fittings, Welding random lengths of 16 to 22 ft, although when ordered with, plain ends, 5 per cent may be in lengths of 12 to 16 ft. Five per cent of the total number of lengths ordered may be jointers which are two pieces coupled together. Extra-strong pipe is generally furnished with plain ends in random lengths of 12 to 22 ft, although 5 per cent may be in lengths of 6 to 12 ft. In addition to IPS copper pipe, several varieties of copper tubing are in use with either flared or compression, couplings or soldered joints. Dimen sions of copper water tubing intended for plumbing, underground water service, fuel-oil lines, gas lines, etc., have been standardized by the U. S. Government and the American Society for Testing Materials. There are three standard wall-thickness schedules of copper water tubing classified in accordance with their principal uses as follows: Class K--Designed for underground services and general plumbing service. Class L--Designed for general plumbing purposes. ^ Class M--Designed for use with soldered fittings only. In general, Type K is used where corrosion conditions are severe, and Table 2. Nominal Weights of Welded and Seamless Steel Pipe Types L and M where such conditions may be considered normal as, for instance, in heating work. Types K and L are available in both hard and soft tempers; Type M is available only in hard temper. Where flexibility is essential as in hidden replacement work or where as few joints as possible are desired as in fuel-oil lines, the soft temper is commonly used. New or exposed work generally employs copper pipe of a hard temper. All three classes are extensively used with soldered fittings. Standard dimensions, weights, and diameter and wall thickness tolerances for these classes of copper tubing are given in Table 5. Copper pipe is also available with dimensions of steel pipe. Refrigeration lines used in connection with air conditioning equipment also employ copper tubing extensively. For refrigeration use where tubing absolutely free from scale and dirt is required, bright annealed copper tubing that has been deoxidized is used. This tubing is available in a variety of sizes and wall thicknesses. EXPANSION AND FLEXIBILITY The increase in temperature of a pipe from room temperature to an operating steam or water temperature 100 F or more above room tem- Nominal Pipe Size Inches SCHED. 10 Plain Ends SCHED. 20 Plain Ends Schedule 30 Plain Threads ami Coup lings Schedule 40 Plain Ends Threads ami Coup lings SCHED. 60 Plain Ends SCHED. 80 Plain Ends SCHED. 100 Plain Ends SCHED. 120 Plain Ends SCHED. 140 Plain Ends SCHED. 160 Plain Ends xx , 0.25* 0.25* 0.43* 0.43* 0.32* 0.54* % 0.57* 0.57* 0.74* X X 0.86* 0.86* 1.14* 1.14* 1.09* 1.48* 1 ^1 1 94 ixl 1.68* 1.69* 2.18* 2 JK 2.28* 2.29* 3 ; 00* ^ 77 2IX 2X ........ 3 2.72* 2.74* 3.66* '3.68* 5.80* 5.82* 7.58* .7.62* 3.64* 5.03* 7.67* 10.3* 4 86 7 45 10.0 14.3 3X 4 9.11* 9.21* 10.8* 10.9* . ,* 12.5* 15.0*' 10 n 77 6 5 6 14.7* 14.9* 19.0* 19.2* 20.8* 28 6* 27,76 1 4 rrn 45.3 8 22.4 24.7* 25.0* 28.6* 28.8* 35.7 43.4* 50.9 60.7 67.8 74] 7 10 28.1 34.3* 35.0* 40.5* 41.2* 54.8* 64.4 .77.0 89.2 105.0 116.0 12 . :______ 14 O. X). 36.8 16 O. D. 42.1 18 O. t). 47.4 20 O. D. 52.8 33.4 45.7 52.3 59.0 78.6 43.8* 45.0* 53.6 54.6 62.6 82.0 105.0 ______ ........ ... .... ____ 63.3 82.8 105.0 123.0 _55_._0_ 73.2 88.6 85.0 107.0 ____ 108.0 133.0 i37.0 171.0 167.0 209.0 108.0 126.0 140.0 161.0 131.0 147.0 171-.0 190.0 165.0 193.0 224.0 241.0 208.0 239.0 275.0 304.0 251.0 297.0 342.0 374.0 24 O. D. .63.5 94.7 141.0 171.0 231.0 297.0 361.0 416.0 484.0 536.0 30 O. D. 99.0 158.0 197.0 Weights' are given---I-n----p--o---u--n--d--s----p---e--r----l-in---e--a--r---f--o--o--t---a--n---d----a--r-e----f-o---r---p--i-p--e----w---i-t--h----p--l-a---i-n----e--n--d--s----e--x--c-e---p--t---f-o--r---s--i-z--es--whi:c--h----a--r-c-I -1 commercially, available with threads and couplings for which both weights are listed. _ ( uj *The,weights marked with asterisk in Schedules 30 and 40 are identical with weights for standard-weight pit* hi v| former lists; those in Schedules 60 and 80 are identical with weights for extra-strong pipe in former lists. tjj Schedule Numbers indicate approximate values of the.expression 1000 x P/S. .if 626 Table 3. Dimensions of Welded Wrought-Iron Pipe Pipe Size X X % X % 1 ix IX 2 2X 3 3X 4 5 6 8 10 12 14 0. D. 16 0. D. 18 0. D. 20 0. D. Outside Diameter 0.405 0.540 0.675 0.840 1.050 1.315 1.660 1.900 2.375 2.875 3.5 4.0 4.5 5.563 6.625 8.625 10.75 12.75 14.0 16.0 18.0 20.0 Nominal Wall Thicknesses for Schedule Numbers Schedule 10 -- -- -- 0.250 0.250 4). 250 Schedule 20 Schedule 30 -- ------ --------------- -- -- 0.312 0.312 0,312 0.375- 0.283* 0.313* .0.336* 0.375 0.375 0.437 0.500 Schedule 40 . - Schedule 60 0.070* 0.090* 0.093* 0.111* 0.115* 0.136* 0.143* 0.148* 0:158* 0.208* 0.221* 0.231* 0.242* 0.263* 0.286* 0.329* 0.372* 0.414 0.437 0.500 0.562 0.562 _______ -- -- ________ ,, .. ..... -----------A.. -- ___ ______ 0.510* 0.574 0.625 0.687 0.750 Schedule 80 . 0.098* 0.122* 0.129* 0.151* 0.157* 0.183* 0.195* 0.204* 0.223* 0.282* 0.306*. 0.325* : 0.344* 0.383* 0.441* 0.510* 0.606 0.702 0.750 -------------- All dimensions are given in inches. The decimal listed for the respective pipe sizes represent their nominal or average wall dimensions and include an allowance for mill tolerance of 12.5 per cent-under the nominal thickness. Thicknesses marked with an asterisk in Schedules 30 and 40 are identical with thicknesses-for standardveight pipe in former lists; those-in Schedules 60.and.80 are identical with thicknesses for extra-strong pipe in former Usts. ' '"" ' * The Schedule Numbers indicate approximate values, of the expression 1000 x P/S.. 627 '/ \