Liquidtight Flexible Steel Conduit

ML19338C796
Person / Time
Site:	Waterford
Issue date:	08/29/1980
From:	UNDERWRITERS LABORATORY, INC.
To:
Shared Package
ML19338C791	List: ML19338C789 ML19338C795 ML19338C796
References
UL-360, NUDOCS 8009050296
Download: ML19338C796 (30)
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G.W88E - v,dE.'Nb Tampa, Floreda Testing Station UNDERWRITERS LABORATORIES,1NC.

AN INDEPENoENT NOT.FOR. PROFIT oFGANIZATioN TESTING FOR PUBLIC SAFETY d

Underwriters Laboratories Inc., founded in 1894, is chartered as a not for-profit organization without capital stock, under the laws of the State of Delaware, to establish, maintain, and operate laboratories for the examination and testing of devices, systems and materials to determine their relation to hazards to life and property.

D A complete description of the organization, purposes, and methods of Underwriters Laboratories Inc. is given in a separate pamphlet entitled " TESTING FOR PUBLIC SAFETY."

The names of manufacturers who have demonstrated an ability to produce products meeting UL requirements are published annually in the following Product Directories.

Electrical Construction Materials ' List Gas and Oil Equipment List Electrical Appliance and Utilization Accident. Automotive, and B'arglary Equipment List Protection Equipment List Hazardous Location Equipment List Marine Products List Fire Protection Equipment List Fire Reustance Index Budding Materials Directory Classified Products Index Quarterly Supplements to Lists and Indexes i

The price list for these publications and ordering information may be obtained upon request from UL, Publications Stock, 333 Pfingsten Road, Northbrook, Illinois 60002.

A Catalog of UL Standards for Safety with costs and ordering information is also available from this of fice.

UNDERWRITERS LABORATORIES INC.

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an independent, not-for-prof t organization testingfor public safety i

1285 Walt Whitman Road. Stelville. L.I N.Y.11747 1655 Scott Boulevard. Santa Clara. Calif. 9505o 2602 Tampa East Blvd.. Tampa, Fla. 33619 October 19,1979 saa ennsit.n aond. northbrook, m. soosz f,

Revision pages for i

h STANDARD FOR LIQUID.TIGIIT FLENIllLE STEEL CONDUIT UL 360, FIR 5T EDITION Accompanying this sheet are revised and additional pages for the first edition of UL 360.

A CIIANGE IN REQUIRE.\\lENTS IS INDICATED-BY A VERTICAL

.\\lARGINAL RULE ON TIIE AFFECTED PAGE. EDITORIAL CliANGES ARE NOT SO.\\l ARKED.

TilESE NEW AND REVISED REQUIRE.\\!ENTS ARE NOW IN EFFECT.

These new and revised requirements are substantially in accordance with UL's bulletins on the subject dated larch 26 and June 26,1979. Note that

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elongation as well as tensile strength should have been mentioned on the first page of the June bulletin because both were changed in Table 12.1 on the second page of the bulletin.

With the inclusion of the accompanying material, the Standard consists of pages dated as shown in the following check list:

Page Date Front cover...

.none q

General in formation

...........'.....none

. February 12.1979 1...

2...

. blank

. April 20,1976 3...

4, 5.

. October 21,1977

. April 20. D76 6, 7 4

8....

........ Feb ruary 12,1979 9,10,10 A,11...

. October 19,1979 12 - 14

...... April 20,19 76 15.............

. October 19,1979 16 - 19............

.... April 20,1976 20, 20 A, 21

.......... 0ctober 19,1979

........ April 20,19 76 22...

Revised and/or additional pages may be is>ued from time to time.

k Transmittal only - not a permanent part of the Standard I

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, FEBRUARY 12,1979 1

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1 UL 360 STANDARD FOR LIQUID.TIGilT FLEXIBLE STEEL CONDUIT t

FIRST EDITION I.

First impression...

April 20,1976 i

This edition becomes effective on December 4,1978, except that Section 6 i

J and the indicated part of Table 12.1 become effective on January 2,1980.

Any effective date included in a note immediate!y following a requirement is established by Underwriters Laboratories Inc.

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COPYRIGHT @ 1976.1979 UNDE.lWRITERS LABOR ATORIES INC.

UL's Standards for Safety are copyrighted to protecs UL's publication rights, not to restr<t their use i

in product design or evaluatiori. See paragraph E of the Foreword.

• Replaces page 1 dated February 22,1978 I

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1 APIllL 20,1976 LIQUID TIGHT FLEXIBLE STEEL CONDt IT - UL 360 5

4 l

oQ TABLE OF CONTENTS a

Fo re wo r d.................................................. 4

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l Ge n e ra l....................................................

5

l. Scope..............................................

5 4

Construction 5

2. Ge n e ra l...........................................'...

5

3. Conduit Weight andJacket Thickaess......................

5

4. Con duit Dia m e ters.....................................

6

5. Corrosion Protection...................................

6 l

Pe r fo r man ce...........................

8 e.t. b --. 6. Resistance and Iligh Current Tests........................

8

7. Impact Test..........................................

9

8. Tens i on Tes t........................................... 9 l

9. Crus hin g Tes t......................................... 1 1

10. Flexibili t y Tes t........................................ 11 l

11. Vertical Flame Test.................................... 11 tL.p-

12. Physical Properties of Thermoplastic Jacket................. 14 l

13. Deformation Test..................................... 18

14. Afechanical Water Absorption Test......................... 19 a

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15. Aloisture Penetration Test

.............. 20

16. Sunlight-Resistance Test................................ 20

17. Test for Secureness of Fittin gs............................ 21 A lar k i n gs.............................................

.... 21 I

18. Details............................................. 21 O

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4 LIQt!!D-TIGHT FLEXtBLE STEEL CONDt'IT - t'L 360,

COCTOBER 21,1977 l

O FOREWORD L

o A.

This Standard contains basic requirements for products covered by Underwriters Laboratories Inc. (UL) under its Follow.Up Service for this category within the limitations given below and in the Scope section of this

,. I Standard. These requirements are based upon sound engineering principles, research, records of tests and field experience, and an appreciation of the problems of manufacture, installation, and use derived from consultation with and information obtained. from manufacturers, users, inspection authorities, and others having specialized experience. They are subject to

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revision as further experience and investigation may show is necessary or desirable.

.B.

The observance of the requirements of this Standard by a manu-r facturer is one of the conditions of the continued coverage of the

.I' manufacturer's product.

C.

A product which complies with the text of this Standard will not necessarily be judged to comply with the Standard if, when examined and tested, it is found to have other features which impair the level of safety contemplated by these requirements.

D.

A product einploying materials or having forms of construction f

differing from those detailed in the requirements of this St'andard may be examined and tested according to the intent of the requirements and, if I

found to be substantially equivalent, may be judged to comply with the Standard.

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l E.

UL, in performing its functions in accordance with its objectives, does not assume or undertake to discharge any responsibility of the manufacturer or any other party.The opinions and findings of UL represent its professional judgment given with due consideration to the necessary limitations of practical operation and state of the art at the time the Standard is processed. UL shall not be responsible to anyone for the use of or reliance upon this Standard by anyone. UL shall not incur any obligation or liability for damages, including consequential damages, arising out of or in connection with the use, interpretation of, or reliance upon this Standard.

3 F.

.\\fany tests required by the Standards of UL are inherently hazardous and adequate safeguards for personnel and property shall be employed in conducting such tests.

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• Replaces page 4 dated April 20,1976 i

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' OCTOBER 21,1977 LIQUID TIGilT FLEX 1BLE STEEL CONDUIT - UL 360 5

1 GENERAL

3. Condtdt Weight Q

and Jacket Thickness j

3.1 The thickness of the finished jacket shall 1.1 These requirements cover flexible steel con-not be less than indicated in Table 3.1 when i

duit provided with an outer thermoplastic liquid-determined as described in paragraphs 3.2 and 3.3.

tight sunlight-resistant jacket, rated for 60'C Revased paragraph 3.1 effective January 3.1978 l

(140* F) and intended for installation in accord-ance with the National Electrical Code as a metal raceway for wires and cables.

3.2 Deletion of paragraph 3.2 effective CONSTRt CTION January 3,1978 j

2. General i

2.1 IJquid. tight flexible steel conduit shall 3.3 The minimum acceptable average thickness employ materials that are suitable for the partic-of the jacket is to be determined by measuring a ular use and shall be made and finished with the specimen of the jacket which has been removed i

degree of uniformity and grade of workmanship from the conduit and buffed to remove any ridges that are practicable in a well-equipped factory.

or other irregularities on the inside surface of the jacket. The specimen is to be selected to include 2.2 Conduit in trade sizes 3/8-11/4 inches the thinnest portion of the jacket as determined shall be provided with a bonding stdr wound visually. Aleasurements are to be made with a enclosed by the conduit comolutions throughout dead-weight dial micrometer having a presser foot the entire length of the. conduit. The material and 0.24- 0.26 inch or 6.1-6.4 millimeters in dian.eter dimensions of the bonding strip shall ensure and exerting a total force at 3.020.1 ounce- (85 3 e

compliance of the fm' ished conduit with the grams) on the specimen - the load being applied y

resistance values before and after the high-current by means of a weight. Five readings are to be taken testing shown in Table 6.1 and shall not adversely at different points on the specimen and the average affect the flexibility and minimum bending radii of taken as the minimum acceptable average thick-the finished conduit.

ness, or by means of an optical device accurate to 0.001 inch or 0.025 millimeter or less.

TABLE 3.1 JACKET THICKNESS IWnimum Acceptable Average Thickness of Jacket r

Trade Size of Conduit Inches e

inches Millirneters 3/8 0.030 0.76 1/2 0.030 0.76 3/4 0.035 0.89 1

0.035 0.89 11/4 0.035 0.89 11/2 0.040 1.02 2

0.040 1.02 e

21/2 0.050 1.27 3

0.050 1.27 31/2 0.060' 1.52 4

0.060 1.52 Revised Table 3.1 e.'fecuve January 3.1978 I

• Replaces page :1. lated April 20,1976 COPYRIGHT @ 1976,1977 UNDERWRfTE RS LA8oR AToRIES INC.

6 LIQUID-TIGHT FLEXIBLE STEEL CONDL'IT - t*L 360 APRIL 20.1976 i

4. Conduit Diameters j

4.2 Compliance of all trade sizes of conduit G

i 4.1 Finished steel conduit shall not be larger or with the minimum and maximum internal dia-smaller in intenial ' and external diameter than meters in Table 4.1 is to be determined by means indicated in Table 4.1 when determined as of a vernier caliper with a tolerance of 0.001 inch described in paragraph 4.2.

or 0.025 millimeter or its equiva'ent.

T ABLE 4.1 f

INTERNAL AND EXTERNAL DfAMETE RS - STEEL CONout?

Emiernas Diameter

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Internal D.ameie.

Over Condu.e Oeer Jacitet Travie 5.se M.n.mu m Masmum8 unsmum8 Maaimum M.nemum Maestnum

• 8 of Condues Inches Inc hes Mda.enetees taches Msitameters Inches Estemeters Inches M.sheneters Inches McN emeters leiches Mrihmeters f

3/8 0 484 12.29 0504 1280 0 594 15.09 0 614 15.59 0.690 17 5 0.710 18.0 1/2 0 622 15 80 0 642 16.31 0.732 18 59 0765 19 43 0 820 20.8 0.840 21.3 3/4 0.820 20 83 0.840 21 34 0 930 23 62 0%0 24 38 1.030 25.2 1 050 26 7 1

1 041 26 44 1 066 27C8 1.201 30 51 1 226 31 14 1.290 32.8 1.315 33 4 11/4 1.380 35 05 1.410 35 81 1 540 39.12 1 570 39 88 I630 41.4 1 660 42.2 11/2 1 575 40.1 1 600 40 64 1.735 44 17 1.770 44 96 1.865 47.4 1.900 P3 L

2 2.020 51.31 2.045 51 94 2 180 55.37 2.215 56.26 2.340 59 4 2.375 60?a 21/2 2.480 62 99 2.505 63 63 2 640 67.04 2.675 67 93 2 840 72.1 2.875 73 0 3

3.070 77.98 3.100 78.74 3 295 83.69 3.335 84 71 3.460 87 9 3.500 88.9 31/2 3.500 88 90 3.540 89 92 3.720 94 49 3.780 96 01 3.960 100 6 4 000 101 6 4

4000 101 60 4 040 102.62 4 220 107.18 4 220 108 71 4 460 113.3 4 500 114.3 1

• Ornee.aives a.e acceptanie.e new sin.w we cune..e is p..nen, accm..oacea D, seeaegrosa e e.tv..iit.is G* teams ted Dy ass aufgeopesate enwestateatson.

5. Corrosion Protection of copper on any surface, except edges, after two 1-minute immersions in a solution of 5.1 The corrosion protection of the steel strip copper sulphate.

from which the conduit is formed shall comply r

with the requirements in the Standard for Flexib!c B. A specimen of partially uncoiled conduit

.\\letal Conduit (UL 1) or the strip may be cut from from finished conduit:

acceptable zinc-coated sheet steel. A coating of zinc is not regiaired on the cut edges.

1. Shall not show a fixed deposit of copper after one 1. minute immersion in a solution b

f 5.2 The coating of zine on steel conduit shall be of copper sulphate, and such that all of the following requirements are i

met:

2. Shall not show a deposit of copper on f

more than 25 percent of any surface except A. A specimen of the zinc-coated strip tested

,:dges after two 1 minute immersions in the before forming shall not show a fixed deposit copper sulphate solution.

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APRIL 20.1976 LIQt'ID-TIG tT FLEXIDLE STEEL CONDUIT - UL 360 9

5.3 The solution of copper sulphate is to bc l slows the reaction between the zine and the A

made from distilled water:nd reagent-grade cuprie solution, thereby adversely affecting the test sulphate (CuSO ). In a copper container or in a results. The surface of the zine is to be dry and 4

glass, polyethylene, or other nonreactive container perfectly clean before a specimen is immersed in to which a brigh piece of copper has been added, a the copper sulphate solution. The specimens are sufficient quantity of the cupric sulphate is to be not to be touched by the hands or anything else dissolved in hot distilled water to obtain a solution that might contaminate or damage the surfaces.

that lus a specific gravity slightly higher than 1.186 after the solution has been cooled to a 5.8 A glass, polyeth>!ene, or other nonreactive tcmperature of' 18.3*C (65.0* F). Any free acid beaker hadng a diameter equal to twice the that might be present is to be neutralized by the diameter measured over the specimen of partially addition of approximately I gram of cupric oxide uncoiled conduit is to be filled with the solution of (CuO) or 1 gram of cuprie hydroxide (Cu(OI1)2)

C Pper sulphate to a depth of not less than 3 per liter of solution. The solution is to be diluted inches or 76 millimeters. The temperature of the with distilled water to obtain a specific gravity of solution is to bi maintained at 18.3 1.l* C exactly 1.186 at a temperature of 18.3 C (65.0* F).

(65.02 2.0* F).

r The solution is then to be fihered.

5.9 One of the selected specimens is to be immersed in the solution and supported on end in 5.4 At one endtof a sample length of finished the center of the beaker so that not less than half steel conduit, the conduit is to be carefully unwound from the outside just enough (1) to of its axial length is immersed. The specimen is to L

remain in the solution for 60 seconds, dunng expose to view the inner surface of the formed which time it is not to be moved nor is the solution strip, and (2) to facilitate working cheesecloth to be stirred.

between the tums onto the inner surface to dry that surface during the test. To avoid damaging the 5.10 At the end of the 60-second period, the zinc coating, th(. trip is not to be straightened as it 6

is unwound but is to remain in the helical form specimen is to be removed from the beaker, rinsed with a diameter no larger than about three times immediately in running tap water, rubbed with the conduit diameter.

Three 6-inch of clean cheesecloth (a clean soft-bristle test-tube or 152-millimeter (a..al measurement) specimens are bottle brush in good condition and of appropriate size mav be used to rub the interior surfaces of the to be cut from the partially uncoiled conduit.

specimer. of partially uncoiled conduit, but cheese-cloth is to be used on the other surfaces of this 5.5 Additionally, three straight 6-inch or Specimen and on the unformed stnp) until any I

152. millimeter specimens are to be cut from a loosely adhermg depos,ts of copper are removed, i

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length of the zinc. coated steel before forming.

- and is then to be dried with cican cheesecloth. The tums of the specimen of partially uncoiled condmt

"'" not to be further separated during this process.

l 5.6 With prudent attention to the health and A gun, the hands and other damagmg and con-tire hazards imolved, the six specimens are to be taminating objects and substances are not to touch cleaned with acetone, chloroform, or another the surfaces that were immersed. The part cf the suitabic organic sohent. Each specimen is to be specimen that was immersed is to be examined, cxamined for evidence of damage to the zinc disregardmg the portion of the specimen with; considering each broad surface separately 4

coating, and only specimens that are not damaged m 1/2 are to be selected for use in the test. One specimen i

nwh or 13 millimeters of its immersed end.

of the unformed strip and one specimen of the conduit are to be tested.

5.11 If the part of the specimen that was inunersed has any bright deposit of firmly adhering 5J The two selected specimens are to be rinsed metallic copper outside the I/2 inch or 13-milli-in water and all surfaces dried with clean cheese.

meter end portion, an estimate is to be made and sloth. As much of the water as possible is to be recorded of the percentage of each bioad surface semmed in the drying operation because water that is emered with copper.

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8 LIQUID'I1GHT FLEXIDLE STEEL CONDUIT - UL 360

• FEBRUARY 12,1979 fhe jacket is to be stripped from 4 inches 5.12 Regardless of whether the first dip resulted 6.2 4

or 102 millimeters at each end of a 101/2-foot or in an adherent deposit of copper, the immersior,

washing, rubbing, drying, examining, estimating, 3.2-meter length of the previously. untested and recording operations are to be repeated once finished conduit and the conduit is to be laid out i

using the same specimen and beaker of solution.

straight on a flat, horizontal, noncombustible, After the second dip, the solution in the beakeris nonconductive surface. At least three thermo-to be discarded.

couples are to be applied to the outer surface of r

the conduit beneath theja'cket at the top center of 5.13 - The remaining specimen is to be subjected the conduit and spaced at points approximately 3 to the 2-dip procedure described in paragraphs feet or 914 millimeters to each side of the center.

i 5.8-5.12.

Iow. resistance connectors are to be secured to l

each end of the metal conduit and to a low-voltage

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5.14 Tae results of this test are not acceptable alternating-current supply circuit.

i (1) if there is any adherent copper snowing outside i

the 1/2. inch or 13. millimeter end portion of the immersed part of the specimen of unformed strip 6.3 No specimen is to be moved or otherwise 7

~ after the first or second dip, or (2)if the specin.en manipulated duringany part of this test.

of partially uncoiled conduit shows adherent I

copper after the first dip or more than 25 percent 6.4 A current of 10 amperes is to be passed l

coverage after the second di'p.

through the rnetal conduit and, while the current is flowing, the voltage drop is to be measured PERFO!OIANCE between poinis on the metal conduit that are 10 feet or 3 met ers apart. This voltage is numerically

6. Resistance and liigh. Current Tests equal to the esistance of the conduit in ohms per l

section s errecove unuan 2.1980 100 feet or ?0.5 meters.

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6.1 The electrical resistance of specimens of the f

previously un tested finished conduit shall not exceed the values shown in column A of Table 6.1.

'1he thermoplastic jacket on the same specimen of 6.5 With the voltage. measurement circuit i

the conduit shat! not flame and shall not soften to disconnected, the current through the conduit is to I

the degree that the conduit is exposed when high be increased to the value shown in column B of currents of the values shown in column B of Table Table 6.1 and held at that value until temperatures 6.1 are passed through the soecimen.The electrical measured stabilize as detcrmined by three con-r resistance of the specimens after the high. current secutive readings made approximately 15 minutes rr test and after they have cooled to room tempera-apart. While the temperatures are steady, the jacket

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ture shall then not exceed the values shown in shall not flame or soften to the point that the column C of Table 6.1.

metal conduit shows through it.

TABLE 6.1 HICH-CURRENTS AND RESISTANCE BEFORE AND AFTER HIGH-CUR R ENT TESTING

[

l Trade Size of Maximum Acceptable Resistance in Maximum Acceptable Resistance in Conduit Onms per 100 Feet (30.5 Meters)

High Current Ohms per 100 Feet (30.5 Meters)

Inches Before High-Current Testing in Amperes Following High-Current Testing A

B C

3/8 9.5 12 9.5 L

1/2 3.5 27 3.5 3/4 1.2 68 1.4 1,

0.59 95 0.89 11/4 0.15 162 0.25

• Replaces page S dated April 20,1976 k

CCPYRIGHT @ 1976,1979 UNDERWRITERS LA8oR AToRIES INC.

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' OCTOBER 19,1979 LIQLlID.T1GHT FLEXIBLE STEEL CONDUIT - t'L 36o 9

6.6 Following the high-current test, the conduit TABLE 7.1 C

is to cool to room temperature, after which a (MPACT WElGHT AND, HEIGHT current of 10 amperes is to be applied and the voltage drop is to be measured between points on W'ieh' H*ieni or orop the metal conduit that are 10 feet or 3.05 meters 7','d b0i

, co apart. This voltage is not to exceed the values io n.,

poona, x;iogram,

p..e u.t r.

shown in column C of Table 6.1.

3/8 to 4.5 2.5 0.8

7. Impact Test 1/2 to 4.s 3.5 1.1 3/4 to 4.s s.o 1.s 7.1 Ten specimens of the finished conduit are i

20 9.1 3.s 1.1 to be subjected to the impact of the value of the 3.i/4 20 s.1 s.o 1.5 weight falling freely through the height prescribed 11/2 so 22.7 2.s o.s in Table 7.1. At least seven of the specimens shall 2

so 22.7 3.o o.s withstand the impact to the extent that the 21/2 so 22.7 3.o o.s original outside diameter is reduced no more than 3

so 22.7 4.o 1.2 SC percent.

31/2 so 22.7 4.o 1.2 4

so 22.7 s.o 1.5 7.2 A solid steel block measuring 3 by 4 by 6 inches or 76 by 102 by 152 millimeters and hasing the 4-by 6-inch or 102-by 15': millimeter faces flat and parallel to one another is to be placed on a nonimpact-absorbing surface with the 4-by 6-inch or 102 by 152-millimeter faces horizontal. A

8. wnsion Test straight specimen of the finished conduit approxi-mately 15 inches or 381 millimeters long is to be 8.1 Finished conduit shall be cr.pable of with-laid on the steel block with the longitudinal axis of standing a tension of 300 pounds force (1334

(

the specimen perpendicular to the 6-inch or newtons or 136 kilograms-force) for 1 minute 152 millimeter dimension of the block and the without opening up at any point when tested as center of the specimen above the center of the indicated in paragraphs 8.2-8.6.

upper face of the block.

a.vii.4 parasraph s.1 errective octod.c is,1979 7.3 A weight hasing a mass of 10, 20, or 50 8.2 The apparatus is to consist of a pair of pounds (4.5, 9.1, or 22.7 kilograms) is to be used clamps and a weight or a tensile testing machine to impart the impact to the specimen. The 10- and for exerting 300 pounds force or 1334 newtons or 20-pound (4.5-and 9.1-kilogram) masses are each 136 kilograms force. If a weight is used, a block to have a flat r. ctangular impact surface measuring and tackle or a differential pulley is to be provided 2 by 6 inches or 50 by 152 millimeters, and the to lift the specimen, clamps, and weight (see Figure 50-pound or 22.7 kilogram mass is to have a similar 8.2).

surface measuring 3 by 6 inches or 76 by 152 a.vi a para raph s.2.rrectiv. octod., 19.1979 millimeters. All four edges of the impact surfaces are to be roundedjust enough to prevent the edges 8.3 For a test using a weight and either a block i

from being sharp..\\ leans are to be provided (1) for and tackle or a differential pulley, the clamps are supporting each weight with the center of its to be made of hard wood, and the two pieces impact surface at the height indicated in Table 7.1 comprising each clamp are to be fastened together above the center of the uppermost surface of the by two bolts, enabling the conduit to be clamped specimen, (2) for releasing the weight, (3) for tightly between the jaws without being crushed guiding but not impeding the weight as it falls,and (see Figure 8.1). Two such clamps are to be (4) for preventing the weight from striking the provided.

specimen more than once.

nevii.o p.ragraph s.a errective october 19.1979

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• Replaces page 9 dated ilp-il 20,1976 COPYRIGHT @ 1976.1 70 UN oE RWRITERS LABon AroRIES INC.

10 LIQt'ID-TIGitT FLEXIBLE STEEI. CONDt'IT - UL 360

'OCTO BER 19.1979

~

FIGURC 8.1 FIGURE 8.2

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CLAMP FOR TENSION TEST TENSION TEST USING 6 LOCK AND TACKLE

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Ll 58 174 b

8.4 For a test unne a weight and either a block and tackle or a differential pulley, a 44-inch or J

lil8-millimeter specimen bf the conduit is to be

=-

fastened in the clamps so that its ends project about 2 inches or 51 millimeters beyond the edges of each clamp, thus providing a specimen 36 inches or 914 millimeters long between the clamps which are then to be tightened just enough to pr vent slipping of the specimea.

I amied par ar ph s.4 effective october 19.1979

{

8.4A For a test using a. testing machine, an

18. inch or 457-millimeter specimen is to be gripped in the jaws of the machine. If necessary to prevent the jaws fro m crushing the specimen, round metal plugs are to be inserted into the ends of the specimen. The jaws are then to be separated at the rate of 2.0t0.2 inches per minute or 50 5 millimeters per minute until the specimen is under a tension of 300 pounds force or 1334 newtons or 136 kilograms force. This level of tension is to be maintained for 60 seconds and then released at the Pgr--s same rate at which it was applied. For any ye d( //

adjustment necessary for maintaining the tension ID during the 60 seconds, thejaws are to be separated at the rate of 0.50t0.05 inch per minute or 10 1 h/

millimeters per minute.

3 Added paragraph 8.4 A effective october 19.1979 a

/

SCOG85

• Replaces page 10 dated ilpril :0,1976 COPYRIGHT @ 1976.1979 UNDERWRITE RS LABOR ATORIES INO.

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tOCTOBER 19,1979 LIQUID TIGilr FLEX 1BLE STEEL CONDUIT - UL 360 10A S.5 For a test using a weight and either a blo k g

(

and tackle or a differential pulley, the specimen a l to be suspended by the upper clamp with a loop of rope passing over the hook of the block and tackle lor differential pulley assembly, and a weight exerting a force of 300 pounds or 1334 newtons or i

136 kilograms fon.e is to be attached to the lower clamp. Care must be taken to have the specimen hang vertically for its fulllength and at right angles to the face of the clamps. The specimen, clamps.

and weight are then to be raised gradually, so that tension is applied to the specimen as evenly as possible. The total weight is to be applied within 30 seconds so that the weight just clears the f'cor and hangs freely in air. The weight is to be prevented, by hand, from rotating. The weight is to be supported by the specimen for 60 seconds,and i

then is to be lowered to the floor, and the weight and clamps removed.

Rensed parasras,h 8.5 effective october 19.1979 S.6 After removal of the tension observation is to be made to determine whether ce not the edges of adjacent convolutions of the conduit have separated. The jacket may be stripped to make this determination.

Added paragraph 8.6 effective october 19.1979 tAdditionalpage

(

coevmosT C 197s. is79 usce nwmre ns LA8oR ATomeS INC.

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. m....-

4

'OCTOllER 19,1979 LIQUID.18CitT FLEX 1BLE STEEL CONDUIT - UL 360 11

9. Crushing Test TABLE 10.1 f

FLEXIBILITY TEST MANDREL SIZES 9.1 The center section o'f five specimens of finished conduit, each approximately 15 inches or Trade S; e of Mandres ciameter 331 millimeters long, shall be crushed between two Condon llat square steel plates having slightly rounded enche.

arches Miliimeters edges measuring 6 inches or 152 millimeters on each side moving toward one another at the rate of 3/8-4.0 101.6 0.50 0.05 inch per. minute or 1021 millimeter per 1/2 s.s 1st..?

minute until the overall diameter of the conduit is 3/4 8.s 21s.9 reduced to one half the original value. The force 1

s3.0 330.2 required to crush any specimen of the conduit to i.1/4 1s.0 40s.4 half of its original overall diameter shall be at least 11/2 18.0 4s7.2 as great as the value given in Table 9.1.

2 22.2s ses.2 Revued paragraph 9.t efr-:uve October 19,1979 21/2 29.2s 749.3 3

35.0 889.0 yg. g,1 31/2 40.0 1016.0 MINIMUM ACCEPTAE

RUSHING FORCE FOR ANY 4

48.0 1219.2 SPEL IN T'ade Size (s) 10.2 The outer thermoplastic jacket shall not nchI sbw evMence of Cr3Ching, nor shall the conduit Pounds Newtons Kilograms open at any pomt.

3/8 2s00 11121 1134 1/2 2000 8896 907

11. Vertical Flame Test 3/4.1.11/4 1800 8007 816 11/2.2.21/2 1500 6672 681 3.3 1/2.4 11.1 Vertical specimens of the fim. hed condu.it s

(.

with the jacket in place shall not flame longer than Revued Table 9.1 effect4ve october 19.1979 1 minute following any of three 60.second applications of flame, the period between applications being as short as 30 seconds. No specimen shall convey flame during, between, or after the three applications of flame.

11.2 The test is to be performed on unaged specimens and on specimens that have been con-ditioned in a full-draft circulating-air oven for 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> at 100.0 1.0'C (212.0 1.8* F). The oven is

10. Flexibility Test to be operating at full draft at the mdicated 10.1 Specimens of the finished conduit are to be temperature at the time that the specimens that are g

1 tested at room temperature in all trade sizes and at to be conditianed are placed in the oven (see minus 10.02 2.0* C (plus 14.023.6* F) in the paragraph 12.6). Specimens having widely different 3/8-1-1/4 inch trade sizes using mandrels having properties or composition are to be conditioned in diameters as specified in Table 10.1. The cold separate ovens. Unaged and conditioned specimens specimens are to be exposed to air at the low are to be tested in close succession and at a room temperature indicated for I hour before being temperature of 24.0!8.0*C (75.2 14.4* F). Unaged tested. Each specimen is to be wrapped for one full specimens are to be maintained at this room turn around the appropriate mandrel, with just temperature for 30 minutes or longer before being enough tension applied to cause the specimen to tested. Conditioned specimens are to have a con form closely to the curved surface of the IG-96. hour rest period at this room teraperature mandrel.

following their removal from the oven and prior to Revued paragraph 10.1 effecuve January 3.1978 their being tested.

L

' Replaces page 11 dated October 21,1977 COPYRIGHT C 1976.1979 UNDE RWRITE RS LABOR ATORIES INC.

" 12 LIQUID-1tGitT ILEXIBLE STEEL CONDU;T - UL 360 APRIL 20,1976 FIGURE 11.7 ESSENTIAL DIMENSiUP!S {OR t

VERTICAL FLAME TEST Proportions are exaggerated for clarety of detail KRAFT PAPER FLAG V'

SPECIMEN

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h

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V VERTICAL PLANE PARALLEL 10" TO SIDES OF ENCLOSURE (254MM)

AND CONTAINING AXIS

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OF SPECIMEN AND AXIS ff OF BARREL l

PLANE OF TIP la

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OF BARREL I f (38MM),

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.f Nw y

BARREL

'/A 3" (76MM) t

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MIN. TO OF

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LOWER BURNER A

SUPPORT A

FOR 4 SPECIMEN I

9-f"(24lMM)

M AX. TO TOP SURFACE OF COTTON 20*,

SCl264 l

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=..

.wnis. x imr.

i::!rinan.u r i.i.xin:Is 1.1.i.coNot ir - t t. 360 13 i

i i 1.:t The te-t is to be condm ted in a ihree-side g wedge ami aound t he base of the burner. The jig is ms tal cm lo me in m eshanst hood or cabinet. 'll..

I to be adpsted tinvard one side or the other of the l

q metal cm bsme is to be 12 im hrs or :hl3 mith-cnclosm c to place the longitudhial axis of the mHcn wide. I I im hcs m :155 millimeters deep. 21 h.nrcl in the same sertical olane as the longitudinal in ches or tilo millimriers high, and the top and axis ol the specimen. 't he plane is to be parallel to front are to be open. an 18-inch or 457-millimeter the sides of the enclosure. The jig is also to be t

sperimen (ut hum a sample length of the finished adjusted toward the rear or front of the enclosure conduit is to be secured with its longitmlinal axis to position the point A, which is the interscetion scriit.d in the center of the enclosure (see Figure of the longitudinal axis of the barrel with the plane

{

11.1). A flat.1/ l-1-inch thick (6-25 millimeters).

of the tip ol' the barrel, 1-1/2 inches or 38 hmimntal layer of untreated surgical cotton is to millimeters from the point B at which the emer the llom of the enclosure. The upper surface extended longitudinal axis of the barrel meets the I

of the cotton is to be no moie than 9-1/2 inches or outer surface of the specimen. Point B is the point i

211 millimeters below point B. which is the point at which the tip of the blue inner cone is to touch g

at which the tip of the blue inner cone of the test the center of the front of the specimen. The llame touches the specimen (t his is shown in specimen is to be adjusted scrtically to prevent Figm e 11.1 ).

point B from being any closer than 3 inches or 76 I

millimeters to the lower clamp or other support for

!1.4 A Tisti gas burner (such a burner differs the specimen.

i hom a Bunsen bmher in that 6he air llow as well as l

the llow ol gas is adijntable) with or without a gas FIGURE 11.2 j

pdot light attached is to supply the llame. Ihc wgoog j

b.uiet of the bmner is to attn : 1 inches or 102

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mi!!imetei s above. the air inIcts, and its inside 3-diameter is to bc :i/S inch' or 9.5 millimeters. While y

the barrel is scrtical and the burner is well away hom t he specimen. the.nerall height of the llame 9

is to be adjusted to appmximately 4 inches or 100 d

millimeters. The blue inner cone is to be 1 1/2 ise uw inches or 38 millimeters high and the temperature 3[

I its tip is to be 836*C (1300'F) or higher as issum X

3 h.

L at l

measured by a potentiometer equipped with a C$Ef g

chromel alume! (nickel-chromium and nickel.

evanen g

man canese-alu min u m) thermocouple before and t25 "*

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4 aher the ecst but not during the test. Without 2cr distm bing the adjustments for the height of the g*

flame, the vahe supplying.ps to the burncr flame a 3,,,

anel the sep:nate v:dte supplying gas to any pilot.

j llame.nc to be closed.

seizi4 q

11.5 A wedge (acceptable dimensions are shown i

in Figure 11.2) to which the base of the humer can 11.6 In the absence of a gas pilot light on the be secured is to be prenided for tilting the barrel burner, the support for the burner and wedge is to 20 degrees from the vertial while the hengitudina; be arranged to enable the burner to be quickly axis of the barrel re: ins in a vertical plane. The removed fro m and precisely returned to the burner is to be accured to the wedge and the position described in paragraph 11.5 without assembly is to be placed in an adjustable support distmhing the layer of cotton on the floor of the jig. A I/4-1 im h-thit k (6-25 millimeters) layer of enclosure or the cotton on the wedge and around untreated surgical cotton is to be placed on the the ba3e of t he burner.

L

^s.

t s

s J

14 -

uqt'ipeticiir i1.istiu.t; sir.it.I. enNotTr - t:1. %o Arnit 20.1976 I

J A half-inch wide or 13 millimeter wide strip ti rina procedure. The duration of flaming of the 11.7 i

of unreinferced 5 mil thick (approximately 0.1 spn.inien after each removal of the gas llame is to q lL millimeter) 60-pound kraft paper. (500 be recorded.

v 25 by 36 inch 635-by 914-millimeter or 3

ungur ned sheets have a mass of 60 pounds or 11.11 Note is to be taken and recorded of f

27.2 kilograms mass) that is gummed on one side is whether any llaming or glowing particles or 4

to be used to make an indicator flag. The gumming flaming drops are emitted by the specimen.

is to be moistened just sufficiently to facilitate adhesion. With the gum toward the specimen, the 11.12 If more than 24 percent of the indicatu 1'

strip is to be wrapped around the specimen once flag is burned away or charred (soot that can be with its lower edge 10 inches (254 millimeters) removed with a cloth or the fingers and brown abose B, the point at which the blue inner cone is scorching are to be ignored) after any of the three to touch the specimen. The ends of the strip are to applications of Game, the product is to be judged f

be. pasted together evenly and trimmed to pmvide to have conveyed flame along its length. If the p# 7 a flag that projects 3/4 inch or 19 millimetcrs from specimen emits flamir; or glowing particles or the specimen toward the rear of the enclosure with Haming drops at any time that ignite the cotton on the flag parallel to the sides of the enclosure (see the burner, wedge, or Door of the enclosure Figure 11.1).

(llameless chairing of the cotton is to be ignored),

j the product is to bejudged to have conveyed flame I

11.8 If the burner has a kas pilot lieht, the valve to combustible materials in its sicinity. Any j

. supplying gas to the pilot is to be opeacd and the product from which a specimen continues to flame 3

pilot lit. If the bumer does not have a gas pilot longer than 60 seconds after any application of the light,it i to be supported as indicard in paragraph gas flame is to be judged to have conveyed llame to e

11.6 in a position away from the specimen and combustible materials in its vicinity.

then lit. This operation and the remainder of the r

test are to be conducted under a forced-draft

12. Physical Properties exhaust hood or cabinet operating to provide of ThermoplasticJacket adequate removal of smoke and fumes but avoiding O

drafts that affect the name.

12.1 The physical properties of the thermo-plastic jacket shall ensure that the performance of unaged and aged specimens, tested with the 11.9 If the burner has a gas pilot licht, the valve apparatus and according to the methods described l

supplying gas to the bumer is to be opened to in parauraphs 12.2-12.21, is in accordance with apply the llame to the specimen automatically.

Table 12.1.

f This valve is to be held open for 60 seconds, closed for as little as 30 seconds, opened for 60 seconds, Apparatus for Making Physical Tests etc. for a total of three 60 second applications of the gas llame' to the specimen with as little as 30 Power-Driven Testing Machine seconds between applications. If the bumer does not have a gas pilot light, the burner is to be moved 12.2 lelongation and tensile-strength tests are to a

into position ta apply the gas Game to the be made on a power-driven machine provided with g'i specimen, kept there for 60 seconds, removed for a device that indicates the actual maximum load as little as 30 secomls, etc. for a total of three applied to the specimen. 11 a machine of the i

60-second applications of the gas name to the spring-hal.mce type is used, provision is to be made r

specimen with as~'little as 30 seconds between to prevent recoil of the spring. The machine is to applications.

he adjusted to make the speed of the power-actuated grip 202l inches per minute or 500!25 millimeters per minute. The applied tension as 11.10 in no case is the gas Game to be reapplied indicated by a dial or scale is to be precise to 2 to the specimen until any Gaming of the specimen percent or less of the value read, and a suitable set

[

4 from the previous application of the gas flame of weights is to be prmided for calibrating the ceases of its own accord even though waiting for machine. A meihod for calibrating the machine is' the specimen to cease Gaming may result in more gisen in the American Society for Testing and chan 30 seconds between applications of the gas Materials Standard Method for Tension Testing of

~ flame. Glowing is not to be considered in this -

Vule;mie.ed Rubber, (ASTM D 412-1968).

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'OCTO DER 19,1979 LIQUID TIGHT FLEXIBLE STEEL CONDtJT - UL 360 15 e

(,

T AEjLE 12.1 PHYSICAL PROPER TIES OF THERMOPLASTIC JACKET Condition of Specimen at Minimum Acceptable Average Time of Ultimate Elongation (1. Inch or Minimum Acceptable Average Measurement 25.M Ilimeter 8sach Marks)a.D Tensde Strength" Unaged 1 inch or 25 millimeters 1600 pounds per square inch or i100 percent)*

11.0 meganewtons per square meter or 1103 newtons per square centimeter or 0.745 kilogram force per square mallimeter Aged in a full.draf t circulating-air 45 percent of the result 85 percent of the result with oven for 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> at 100.01 with unaged specimens unaged specimens 1.0'C (212.021.S'F)

Aged in ASTM oil No. 2" for 168 70 percent of the result 70 percent of the result hours at 60.0!1.0'C (140.0 w'th unaged specimens with unaged specimens 1.8' F)

I

'The endicated bench maru separation and rninimum acceptable ultimate elongation are mandatory on Aor:I 20.1978.

Previous to tnat date, an acceptable alternatsve is to use 2-inch or 50-miHemeter gauge marks wetn a min 6 mum acceptable uitsrnate elongatson of 2 inches or 50 m*Hameters (IVO percent).

"The methoos of preparation of samones. of selection and conditioning of soecimens. and of mawing the measurements and calculataons for ustemate elongation and tensile strength are ancicated in paragraphs 12.2-12.19.

" ASTM oil No. 2 is measumsweierng and of a petroleum base. Measurea at 210.0*F (998.9 C). its Saybott Universal C

viscosity is 2 0015 seconos 1443-190 meter secono at 310'K). Its amiene coint is 93.013.0*C (199.415.4'F). Its open cuo faasn oosnt is 4 75 210.0'F (246.115.6 C).

Revised Table 12.1 effective october 19,1979 FIGURE 12.1 ole FOR CUTTING SPECIMENS re expected a be only approximately a.s acs um Specimen

(,

..s uu um; those shown for the die. If the dimensions of the sample make use of this shape impractical, a die 002

• 250,4 p ),

me having a constricted portion 0.125 plus 0 002

(".o6uu minus 0.000 inch or 3.00 plus 0.05 minus 0.00 J ii.cs '. - -

l (zsuu)I l

,I millimeters wide (ASTAl die D) is to be used.

it.38.OB WCH l

g33:2wu)

Paragraph 12.3 acceptable alternative to

/

1.0 01.04 iN C H paragra ph 10.3 A until Apnl 20.1978,on which 1

//

~Ni f

(2 51 yuJ date paragaph 12.3 replaces paragraph 12.3 A f

1

/

a-R= #.00!.0 9 NCg R =,s G : 0 4 WCH f

(2s:zuu) 0* tt uu) 12.3 A The die (ASTal die B) for cutting seii7c specimens is to produce specimens that have the Figure 12.1 acceptable alternative to form and dimensions shown in Figure 12.1 A. If the Y*dN12 fre^n$a"c', 6,*ure*i $."17"*"

dimensions of the sample make use of this shape impractical, a die having a constricted portion Die for Cutting Specimens 0.125 plus 0.002 minus 0.000 inch or 3.00 plus 0.05 minus 0.00 millimeters wide (ASTAI die E) is to be used.

12.3 The die (AST31 die C) for cutting specimens is to have the form and dimensions shown in

-arasraph i2.3 A acceptadie arternative to pa,acraph 12.3 untii Apn 20, i978, on.h,ch Figure 12.1. The dimensions of a resulting die cut

&te paragraph 12.3 replaces paracraph 12.3A

• Replaces page 15 dated February 12, 1979 COPYRIGHT @ 1976.1979 UNDERWRITERS LABOR ATORIES INC.

_m__

,~

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16 LIQUID

• TIGHT FLEX 18LE STEEL CONDUlT - UL 360 APRIL 20.1976 i,

l FicURE 12.1 A dpparatus for Aging l

DECUT SPECIMEN 12.6 The apparatus for the air-oven aging of I,R]

specimens is to be essentially as indicated in the 8

American Society for Testing and Alaterials

[

" Standard Specification for Forced-Convection 2,

l

/

y laboratory Ovens for Electrical Insulation" ie (ASTA1 D 2436-1968) and is to circulate the air i

4 f

"l N 4

within the aging chamber at high velocity. A j, -

portion of the air may be recirculated, but a

_ 1, l

ia i -.

substantial amount of fresh air is to be admitted 6

j g-continuously to ensure maintenance of a high

{

oxygen content in the air surrounding the seosos specimens. The exhaust ports of the oven are to bc ngure 12.t 4 acceptabie atternative to adjusted to achieve 200 or more complete fresh-air i

ngure 12.1 untai anni 20.187s. on which changes per hour. The blower or other means for i

date Figure 12.1 replaces Figure 12.1 A.

circulating the air is to be located entirely outside the aging chamber. The oven is to maintain the t

Specimen Alarker specified temperature within 1.0* C (1.8' F).

Prosision is to be made for suspending each I

12.4 The specimen marker is to consist of a specimen vertically within the chamber without stamp with parallel metal blades capabic of touching the sides of the chamber or any other marking fine lines with ink on a specimen without specimen.

damaging the thermoplastic. The lines (bench J

- marks) are to be 1 inch or 25 millimeters apart and Preparation of Specimens for Physical Tests are to be applied at right angles to the axis of the specimen centrally located on the constricted 12.7 Samples for the physical tests are to be f.

portion of the specimen. Because the width of a taken from finished conduit or from the product (7,

mark increases while a specimen is being stretched, during manufacture, and the tests are to be measurement of clongation is to be made with conducted at a temperature of 24.028.0* C reference to the center of each mark - that is, with (75.2 14.4* F).

reference to a point halfway between the edges of each mark.

12.8 A test specimen of the jacket is to be Paracraph 12.4. in second sentence the worchng dje Cut from a sample that has been cut longi-

• • (bench marks) are to be 1 anch or 25 mdhmeters apart"

- tudin31}y, removed from the metal conduit, and effective on Apnl 20.1978. Untsl that time, an acceptable alternatne wordant is "(gauge marks, buffed in accordance with.aragraph 12.9. The test 1

are to be 2 inches or 50 mdhmeters apart" specimCn is to have no surface incisior.s or imperfections.

Buffing Alachine 12.9 If rcriuired, buffing is to be done by means of a suitab!c grinding machine (see paragraph 12.5) 12.5 A power-driven buffing machine (grinding anc without causing excessive heating of the wheel) is necessary for buffing irregularities from insulation. When removing the impressions or other die cut specimens. The abrasive wheel is to be of unevenness, buffingis not to be carried beyond the about No. 36 grit (particle size of 0.486 millimeter point at which the unevennessjust disappears. Ifit 0.019 inch), and the. diameter and rotary is necessary to reduce the thickness of the sample or velocity of the wheel are to give the whcci a for the preparation of test specimens,it is accept.

peripheral speed of J000-5000 feet per minute or able to slice the insulation nearly to the required 20-25 meters per second. The machine is to be thickness and then finish by buffing. In any case, provided with a slow feed that ensures removal of the final buffed surface is to' be smooth. The very little compound at each cut, thereby avoiding buffing is to be done at least 30 minutes prior to overheating of the specimen.

testing of the specimens.

L

.e es -

i Al'Hil. 20 iHG l.lQt ID li' lll II lTntl.3: $113 l f.UNDl'Il - I 'I-M'O II 12.10 A sample ol lhe thermoplastir jai ket i-g corresponding points on the opposite edge. These be cut into appio.imatch 7-inth or 18mmillimei.

! measurements are to be made with a dead weight i

O sections. Each such scetion of compound is to be dial micrometer having a presser foot 0.250 0.010

[

buffed to remose any irregularities, a test specimen inch or. 6.4!0.1 millimeters in diameter and is then to be cut from it with a die as described in exerting a total force of 3.0 0.1 ounces (85 3 paragraph 12.3, and the specimen is to be maiked grams force or 0.84 0.02 newton) on the specimen with two lines 1 inch or 25 millimeters apart as

- the load bting applied by means of a weight. If r

shown in Figtuc 12.1. The width of each specimen the res~ults of measurements by this method are in between the two marks is to be checked carefully.

doubt, referce measurements are to be made by Paracraph l 2.lO in second sentence. the wordmL means o[ an optical dCsice calibrated to rCad i

" "'" d a't h ' "

'*1 *ch ' 2s md imeters ap'

directiv as shown m Figure 12.1" ef fectne on Aprd 20.1978.

' to at least 0.0001 inch or 0.001 milli-l t'ntd that time. an acceptable alternatise wording is md U.

" marked oth two hncs 2 inches or 50 mdhmeters Paragraph 12.12 A acceptable altematsve to paragraph 12.12 a part as rhowit in Figure 12.1 A" unniApn! 20.1978 on which date paragraph 12.12 rrplaces paragraph 12.12 A T

12.11 The use of a press for operating the die is recommer.ded. If the die is struck with a mallet

• 12.13 Elontption and tensile-strength tests are to care is to be taken to see that all points of the be conducted simultaneousiv, using specimens that cutting edges of the die are in contact with the hase not been subjected p'reviously to any test.

compound. The cutting is to be done on a smooth Each specimen is to be clamped in position with surface of material that cannot damage the cuttin4 both 1 inch or 25-millimeter hench marks outside edges of the die, of and between the grips. The movable grip is to be adjusted to make the specimen taut but not under F

12.12 The thickness of the specimen is to be the tension. The grips are then to be separated at a rate l

smallest of four measurements to 0.001 inch or of 20 1 inches per minute or 500 25 millimeters q

0.01 millimeter. two of which are to be made at per minute until the specimen ruptures. During 1/2,mch or 13 mdlimeter intervals between the separation, the distance between the marks is to be bench marks on one edge beginning 1/4 inch or 6 obsersed continuously to faciutate observing the millimeters from either mark. The other two distance at the instant of rupture with a precision measuiements are to be made at correspondin4 of at lent 0.1 inch or 2 millimeters. The distance points on the opposite edge. These measurements at iupture is to be recorded. The clongation is the are to be made with a dead-weight dial micrometer incicase in dis tance bet ween the marks, which r

having a presser foot 0.250!0.010 inch or 6.4 0.1 originally were 1 inch or 25 millimeters apart. The millimeter in diameter and exerting a total force of temperature of the ambient air is to be recorded.

3.0!0.1 otmces (85 3 grams force or 0.84 0.02 Paragranh i 2.1 a. in secona and tast sentences the wardine newton) on the specimen - the load being applied "I inc h or 25 millimeter" effectne on Apn! 20.1978.

by means of a weight. If the results of measure-

'""' t h' t u me * " ' ce' n # '"""'" * 'd * *

• • 2-inch or 50-mdismeter

• ments by this method are m doubt, referec measurements are to be made by me:ms of an 12.14.\\fter runture of the specimen, the 9

optical device calibrated to read directly to at least maximum load in pounds, meganewtons, newtons, 0.0001 inch or 0.001 millimeter.

or kilograms force is to be noted from the dial or Parar.r.iph 12.12 acceptable alternative to scale and recorded tangelher with the ori"inal para graph 12.12 A until Aprd % 1978. on whah date paragraph 12.12 replaces paragraph 12.12 A I

of the tensile strength. If a sp,ccimen breaks omside 12.12.\\ The thickness of the sI>ccimen is to be the mas ks or a.t..a_ load that v. ields a tensile-strength taken as the smallest of six measurements to 0.001, or cloncuion value below the minimum indicated inch or 0.01 millimeter, three of which are to be in Table 12.1, the test results for that specimen aie j

made at 1/2-inch or 13-millimeter intersals t[he di4 regarded and another specimen is to be

{

between the stuge marks on onc edge beginning tested, t he results f:om which are to be considered

^

1/2 inch or 12 millimeters from either mark with pnal. The overall resuhs.ne to be expiessed as the r

the other three measurements being made at average for tluce specimens.

9 L

• Is LIQt'ID-TIGIlf f LEXIBLE STEEL LONDt*Ir - t;L 360 Arptil 20,1976 Calculation of Area th: oom temperature following their removal fmn ille oven and prior to their being subjected to i

12.15 The cross-sectional. area of the test the physical tests. Specimens that hase been Q

specimen of a jacket is to be computed by means subjected to oilimmersion are to be blotted lightly of the formula to remove any excess oil, and are then to be suspended in air at the above-mentioned room A = WT temperature for 3.5-4.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> before being sub-l jected to the physical tests. Specimens that are m which A is the cross-sectional area of the narrow aged in the air oven are to be suspended vertically center portion of the specimen in square inches, in a manner that ensures against their touching one square centimeters, or square millimeters; W is the -

another or the sides of the chamber. Specimens width of the narrow center portion of the having widely different properties or compositien i;

specimen in inches, meters, centimeters, or milli-are to be aged in separate ovens.

1 meters; and T is the thickness of the specimen in

~

inches, meters. centimeters. or. millimeters.

12.19 The-oil-immersion vessel is to be of stainless-steel or glass of dimensions suitabic for I

Test Results suspending the die-cut specimens vertically in the oil. The vessel is to be filled with the specified oil i

4 12.16 The tensile ~ strength of a specimen is to be (see note to Table 12.1) and placed in a liquid 6

computed by means of the formula bath having an automatic temperature control that maintains the specimens at the specified tempera-S=E-ture. The oil in the immersion vessel is to be heated i

^

to.the specified temperature before the specimens 4

are immersed. The die. cut specimens are to be in which S is the tensile strength in pounds per suspended vertically in the oil and covered with a l

square i..ch, meganewtons per square meter, new-suitable cover.

f tons per square centimeters or kilograms force per square millimeter; P is the maximum load in

13. Deformation Test Ash i pounds, meganewtons, newtons, or kilograms t]

force: and A is the cross-sectional area as indicated 13.1 Specimens of the thermoplastic jacket m paragraph 12.15.

removed from finished conduit shall not decrease more than 50 percent in thickness when subjected Acce! crated Agir.g to a force of 2000 grams exerted by a flat surface 3/8 inch or 9.5 millimeters in diameter while at a 12.17 All buffm.g and die-cutting operations are to temperature of 121.0 1.0*C (249.8 1.S* F) for 1 I'

]

be completed at least 30 minutes before the hour.

I specimens are placed in the air oven for aging or i

are immersed in oil..\\leasmements for determinin4 13.2 A sample of jacket 8 inches or 203 milli-i the cross-sectional area are to be made before the met'crs longis to be removed from finished conduit specimens are aged or immersed in oil. _The marks and buffed just enough to remove any impressions (see paragraph 12.4) for thc determination of there might be on the surface and achieve a elongation are to be placed on the specimens afte!

uniform thickness. From the buffed sample, a l

theirJemoval from the air oven m wruch they were rectangular specimen 1 inch or 25 millimeters long i

aged. For oilimmersion, the marks are to be placed and 9/16 inch or 14 millimeters wide is to be cut.

. on the specimens before thev are immersed m oil.

The thickness T of the specimen is to be t

12.18 Physical tests are to be made on both aged measured to the nearest 0.001 inch or 0.01 i

and unaged specimens at the same time and at a millimeter by means of a dead weight dial micro-room temperature of 24.0 8.0*C (75.2tl4.4* F).

meter whose picsser foot exerts a load of 85:3 L*naged specimens are to be maintained at this grams on the specimen. The presscr foot is to have room temperature for not less than 30 miautes a flat face 1/4 or 3/8 inch, or 6.4 or 9.5 millimeters prior to being subjected - to physical tests, and in diameter. The anvil of the instrument is to be at specimens that have been subjected to air. oven least 1.5 inches or 38 millimeters in diameter and is aging are to have a rest period of 16-96 hours at to be parallcl to the face of the presser foot.

f b!

1 i.

1 e

, - _ ~

v

=

APRIL 20,1976 LIQLlID-llGIIT FLEXIBLE STELL CONDt'IT - IJL 360 19 The thickness T at elevated temperatur"i<

cooled, and weighed as described in paragraph 13.3 2

l 14.3, after which they are to be placed in the water g

to be determined from measurements made b3 i

dead. weight dial micrometer with a presser foot bath at the temperature specified in paragraph 14.1 3/S inch or 9.5 millimeters in diameter and for 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br />. They are then to be transferred to graduations of 0.001 inch or 0.01 millimeter. The distilled water at room temperature, removed one micrometer is to be actuated by a weight of at a time, shaken, blotted, and reweighed as sufficient magnitude to cause the foot of the described in paragraph 14.5. The specimens are micrometer to press on a specimen positioned then to be dried, cooled, and weighed again as between the foot and the anvil with a force of outlined in paragraph 14.6. The immersed surface 2000 grams, area in square inches or square centimeters is to be determined by means of the following formula 13.4 With the appropnate weight in place on its with all dimensions expressed in inches or centi-spindle, the micrometer with the 3/8-inch diameter meters:

or 9.5-millimeter. diameter presser foot is to be placed beside the test specimen in a full draft S = 2 (length X width) + 2T (length + width) circulating-air osen that has been preheated to a temperature of 121.021.0*C (249.8!1.8* F). The in which T is the thickness of buffed specimen.

specimen and micrometer are to remain side by side in the osen for 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> of preliminary heating i

at full draft. At t,he end of t,he hour, the specimen 14.3 The specimens are to be carefully cleaned is to be pkced on the anvil of the dial micrometer.

of all foreign material by means of a cloth wet with The loaded presser foot is to be gently brought to ethyl alcohol. The specimens are then to be dried bear on the specimen and is to continue to bear on in a vacuum over calcium chloride for 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> at the specimen while the micrometer and specimen 70.0 1.0*C (158.0:1.8* F), and cooled to room remain in the osen for an additional hour at full temperature in a desiccator. Each specimen is to be draft at a

temperature of 121.0: 1.0* C weighed to the nearest milligram promptly after 1

(249,8:1.S* F).

removal from the desiccator, and this weight is to

(, '

be designated as Ws.

13.5 At the end of the second hot.r, the thick-ness T2 of the specimen is to be read directly from 14.4 The water bath is to consist of a suitable l

the dial on the loaded micrometer and is to be sitreous-enameled-steel or glass sessel containing recorded to the nearest 0.001 inch or 0.01 milli-tap water whose temperature is to be maintained at meter.

70.021.0*C (158.0 1.8* F). The sessel is to be provided with a close-fitting sheet metal cover 13.6 The jacket is not acceptab!c if T is Icss plate (galvanized if of sheet steel) having means to 2

than half of T.

support the specimens vertically in the water. The i

water level is to be maintained flush with th:

14..\\lechanical Water Absorption Test underside of the cover plate.

14.1 Specimens of the thermoplastic jacket pre-14.5 The specimcns are to remain in the hot pared from finished conduit shall absorb no more water for 168 houis, after which the cover plate than 25.0 milligrams of water per square inch or no with the spccimens is to be removed from the more than 3.9 milligrams of water per squara vessel and transferred to a similar vessel filled with centimeter of immersed surface during immersion distilled water at room tem perat ure. Each in tap water.'ar 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> at a temperature of specimen is to be removed and shaken to dispose 70.0:1.0*C (158.0 1.8* F).

of loose witer, and any remaining surface moisture is to be blotted off lightly with a clean, lintless, 14.2 The specimens are to be segments of the absorbent cloth. Each specimen is to be weighed to jacket, apinnimately 4 inches or 102 mil!imeters the neat;es t milligra m within 3 minutes after long by 1 iach or 25 millimeters wide, buffed to removal from the water, and this weight is to be remose all corrugations, and then cleaned, dried, designated as W.

2 S

9 1

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IMAGE EVALUATION NNN TEST TARGET (MT-3) lll'0

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[5 !ld8 ll.8 1.25 1 IA 1.6 L--

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MICROCOPY RESOLUTION TEST CHART 4

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TEST TARGET (MT-3) i 1.0 E E8 IE y,';j lie I.I j,'"HM IM 1.25lllIA[1.6 i

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4 MICROCOPY RESOLUTION TEST CHART

1. 4 4

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. ' 20 IJQLllD.11GIIT FLEXtDLE STEEL CONDL'IT - L'L 3Go

' OCTOBER 19,1979 TABLE 15.1 14.6 The specimens are then to be dried m. a OlSTURE-PENETRATION MANDREL DI AMETER

(-

vacuum over calcium chloride for 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> at 70.0 1.0* C ( 158.0!1.S* F), cooled to room temperature in a desiccator, and weighed to the Trade sen. or Manor.i oiameter conma nearest milligram promptly after removal from the desiccator. This weight is to be designated as W.

3 14.7 The amount of water absorbed per square 3/8 4.0 102 inch or per square centimeter of immersed surface 1/2 s.s iss is to - be determined by one of the following 3/4 8.s 21s formulas, depending on whether W3 is less or i

is.o saa s

greater than W:

1.i/4 ts.o 40s 11/2 18.o 457 2

22.25 56s g,, _ g,

• if W3 is less than Wt 21/2 29.2s 749 S

3 as.o 88s 31/2 40.0 101s W

- W,if h,a.is greater than Wt I

4 48.o 1219 2

S i

in which Wi is original weight of the sample in milligrams, W2 is weight of the sample in milli-grams after immersion, W3 is weight of the sample in milligrams after final drying, and S is the total

~ immersed surface of the specimen in square inches or square centimeters.

16. Sunlight. Resistance Test 16.1 Specimens of thejacket taken from finished conduit that has been conditioned for 720 hours0.00833 days <br />0.2 hours <br />0.00119 weeks <br />2.7396e-4 months <br /> as

15. Aloisture Penetration Test indicated in paragraphs 16.3-16.6 shall, when prepared and tested as indicated in paragraphs 16.7 15.1 There shall be no esidence of moisture and 16.8, shall have values of tensile strength and within specimens of finished conduit that are bent ultimate elongation that are not less than 80 for 180 degrees around a mandrel of the diameter percent of the tensile strength and ultimate shosm in Table 15.1 and then immersed in the elongation of unaged specimens.

U-shape in water at room temperature for 14 and neva.a parasraph ts.i ert etiv. october to,1979 l

28 days.

15.2 Specimens of finished conduit are to be i

U. shape around a mandsel of the 16;2 Deletion of paragraph 16.2 effective bent - in a diameter indicated in Table 15.1. The ends of the October 19,1979 conduit are to be taped or tied to hold them in this

. U conformation and the mandrelis to be removed.

The specimens are then to be placed vertically in a tub or tank of water at room temperature with the ends projecting 2 inches or 50. millimeters out of the water. The specimens aic to remain inanersed for 14 and 28 days and are than to be removed from the water and examined. There is to be no evidence of moisture within the conduit.

L

-

• Replaces page 20 dated April 20,1976 COPYRIGHT @ 1976.1979 UNoE RWRITE RS LABoRAToRIE*b INC.

toctOut.K 19. l'A3 LIQt:fiaillGitT FLEXtBLE STEEL CONDUIT - UL 360 20A 16.3 Five romplete specimens of-the finie I i 16.5 Aleans are to be prodded to enable each

(

condnit are to be mounted. vertically in :he I specimen to pass through a fine spray of water specimen drum of carbon arc. radiation and water.

once during each revolution of the drum in the spray expo 3me equipment that is similar to the cycle of 3 and 17 minutes repeated as noted in Type D apparains described in the American paragraph 16.6. The water is to be clean, its pH is i

Society for Testing and A!aterials " Standard to be 6.0-8.0, its temperature is to be 16.0 5.0*C liccommended Practice for Operating Light-and.

(60.0 9.0* F), - and the water is not to be Water Expumic Apparatus (Carbon. Arc. Type) for recirdulated unless these conditions are maintained.

Exposure of Nonmetallie Alaterials", ANSI / ASTM While the arcs are in operation but the spray is off, G 23-19@ (il 1975). The specimens are to be the equilibrium black. panel tempermre of the centered betweer the top and bottom of the drum.

drum is to be 6325*C (14529'F).

The ' drum of the apparatus used is to be 31 inches Revised parasraph 16.5 effective october 19.1979 or 787 millimeters in diameter (the diameter from the face of the specimen on one side of the drum 16.6 With the drum revolving continuously at to the face of'a specimen on the opposite side of one revolution per minute, with the arcs operating the drum is to be about 30 inches or 762 continuously and carrying a current of 15-17 millimeters).17 3/-l inches or 451 milliraeters high, amperes apiece at a drop in potential of 120-145 i

and is to iesohe at the rate of one revolution per volts rms, and with prudent attention to the minute. The apparatus is to have arcs between two eyesight and other health risks presented by the sets of eenical c;hbon e!cctrodes that are 1/2 inch arcs, the spray is to be operated for 3 minutes on 1

or 13 millimeteis in diameter and are individually and 17 minutes off.This cycle is to be repeated six enclosed in clear globes of heat. resistant optical times resulting in operation with each specimen glaw (9200.PN Pyrex glass or its equivalent) that is being subjected to radiation from the arcs for a opaque at wave lengths shorter than 2750 total of 102 minutes and to the water spray with angstrom units (2.75 x 10-7 meter) and whose radiation from the srcs for a total af 18 minutes, i

transminion improves - to 91 percent at 3700 This sequence is to be repeated rest iting, in turn, a.ngstrom units (3.70 x 10-7 meter). The same in a ~ total clapsed operating time of 720 hours0.00833 days <br />0.2 hours <br />0.00119 weeks <br />2.7396e-4 months <br />. The

(

horieontal plane i3 to bisect both arcs and is to apparatus is to be turned off aften the total 1

intersect each specimen at its midpoint. The globes operating time of 720 hours0.00833 days <br />0.2 hours <br />0.00119 weeks <br />2.7396e-4 months <br />. The specimens are to are to be replaced after whichever of the following cool to room temperature before being removed occurs fhst : eit her 2000 hours0.0231 days <br />0.556 hours <br />0.00331 weeks <br />7.61e-4 months <br /> of use or from the drum for testing.

appearailCC in the globCs of pronounCCd dis.

Added paragraph 16.. effectave october 19.1979 coloration and/or milkiness. The globes are to be washed with detergent and water, rinsed i

thoroughly, and air dried at room temperature immediately before each day's operation.

Remed par.icraph 16.3 effectare october 19.1979 I ti.4 Itadiation from the arcs is to be prevented by positise nonmakeshift froni reaching means persons within sight of the apparatus. Ventilation is to be prosided to prevent contamination of the specimens by the products of combustion in the arcs, and these products and t.;c ozone generated are to be pre :.aed from being in any significant concentra':on in air breathed by persons.

R.%ed paragraph 16.4 effecuve october 19 t979 fildditionalpage j

l e

COPYRIGnT @ 1976,1979 UNDERWRITE RS t.A8oR ATORIES INC.

1 m, -

' OCTOBER 19.1979 LIQlflD.TICIII I LEXIllLE STEEL CONDL'IT - tlL 360 21 16.7 ' The metal conduit is to be removed from 18.2 If the conduit manufacturer operates more l

than one factory in which he makes liquid-tight

(

the five conditioned spectraens and from fiw identical unaged specimens. Die-cut specimens are flexibic steel conduit, the marking mentioned in to be prepared from the jacket conditioned in the paragraph 18.1 shall include a suitable distinctive apparatus and are to include the portic. 3 of the identification of the factory. The factory jacket closest to the arcs. The surfaces facuig the identification may be in code.

af cs are not to be buffed.

Added paragraph 16.7 effecuve october 19.1979 18.3 Embossed (raised) lettering is acceptable.

16.8

'the~ five conditioned specimens of Jacket Ink printing is acceptable if it complies with the and the fise unaged specimens of jacket are to be durability requirements in paragraphs 18.4--18.8.

testect separately and in close succession for tensile Indent printing is acceptable if the thickness of the strength and ultimate elongation. The respective jacket is not reduced below the value shown in averages are to be calculated from the five tensile-Table 3.1.

strength and ultimate-clongation values obtained for the conditioned specimens and are to be 18.4 Ink printing of the manufacturer / factory divided by the averages of the five tensile-strength markings required in paragraphs 18.1 and 18.2 is and ultimate clongation valves obtained for the acceptable on the outer st.rface of the thermo-unaged specimens. The jacket is not acceptable if plastic if the printing on each of 12 specimens of either the tensile strength pr ultimate-clongation ti.; finished conduit remains legible after being ratio is less than 0.80.

rubbed repeatedly with braided cotton tape as Added paragraph 16.8 effecuve october 19.1979 described in paragraphs 18.5 ' 8.8.

18.5 Twelve straight specimens are to be cut from a sample length of finished conduit bearing the required markings ink-printed legibly on the C,

outer surface of the jacket. The sample and specimens are to be handled as little as possible and

17. Test for Secureness of Fittings are not to be wiped, scraped, or otherwise cleaned in any way.

17.1 Specimem of finished conduit shall with-stand the pull' described in paragraph 17.2 without damage to the conduit or slipping of the fittings.

18.6 Three of the specimens of complete conduit are to be aged for 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> in a full draft 17.2 Conduit specimens are to be assembled to circulating-air oven operating at a temperature of tcceptable fittin;s and then tested by a weight 70.0 1.0*C (158.0tl.8* F) and are then to be exerting a force of 150 pounds (667 newtons or 68 removed from the oven and allowed to cool to kilograms force) between each fitting and th'c room temperature for approximately 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> before conduit for 5 minu :s.

being tested. Three other specimens are to be immersed for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> in water kept at a tempera.

AIARKINGS ture of 60.0 1.0*C (140 Otl.8* F) and are then to be removed from the water, shaken to remove

18. Details most of the water, and then given time to dry and cool to room temperature for approximately 1 18.1 The name or trademark of the man n-hour before being tested. Three different facturer of the conduit - or any other suitable specimens are to be immersed for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> in distinctive marking by means of which the ASTAI oil No. 2 (see note h to Tabic 12.1) kept at organization responsible for the product can a tempera. ore of 60.021.0*C (140.0 1.8* F) and I

readily be identified - shall be durably and legibly are then ts be removed from the oil, wiped with a marked at 24-inch or 610 millimeter or shorter soft abso. bent cloth that is clean, and then given -

intervals on the outer surface of the jacket on time to cool to room temperature for approxi.

(

every length of finished conduit. The acceptable mately I hour before being tested. The three b-means of achieving this marking are indicated in remaining specimens are to be tested without any paragrapft 18.3.

conditioning.

• Replaces page 21 dated April 20,1976 COPYRIGHT @ 1976.1979 UNDE RWRITE RS LABORATORIES INC.

I

t 22 LIQtlID TIGHT FLEXLLE STEEL CONDt:IT - UL 360 APRIL 20.1976 18.7 The cotton. tape abrasion test is to be made printed area of the jacket from moving out from g

using the apparatus illustrated in Figure 18.1 or underl the tape. The tape is then to be lowered such apparatus in multiple. The apparatus and the

' gently into place on the specimen.

specimens are to be in thermal equilibrium with the surroundin:; air at a temperature of 23.028.0*C 18.8 The table is to be started in its horizontal (73.4 14.4* F) throughout the test. The tape is to reciprocating motion (simple harmonic motion) at be No. 50 2/20 unbleached cotton braid approxi-the rate of approximately 28 cycles per minute, mately 1/2 inch or 13 millimeters wide. A new each cycle consisting of one enmplete back-and-3 length of tape is to be used for each specimen, the forth motion (approximately a 6-1/4-inch or i

tape is to be attached to the reciprocating table 160-millimeter ) stroke. The table is to be stopped (while the table is at one end ofits travel) and the after 50 cycles. The nine conditioned specimens

\\

free end of the tape is to be attached to a weight are to be examined for legibility of the printing.

exerting a force of 1/2 pound (2.2 newtons or 0.23 The three unconditioned specimens are to be kilogram force). The tape is to be lifted and a subjected to an additional 50 cycles of rubbing specimen placed in the slot as shown in Figure with the other side of the cotton tape before being 18.1, with the printing at the center of the arc of examined if the printing is illegible on two or contact between the tape and specimen. The ends more of the 12 specimens, the conduit of which of the specimen are to be secured to prevent the the specimens are representative is not acceptable.

3 FIGl'4E 18.1 SIDE AND ROLLER-END V12WS OF PRINTING TEST APPAR ATUS

]

COTTON SMALLER THAN 6

DIAMETER OF DOWEL (J.5MM)

[' :

TAPE HOLE IN ROLLER

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SPECIMEN UNDER TEST d

(ARC OF CON-Il A

I TACT WITH ll

\\s Q

TAPE IS 135*)

ll, g

U TO RECIPROCATING q

s TABLE llI 4*

l (IO2 MM)

I senr2 WElGHT 32 (21M S P ECIMEN UNDER TEST h __-;

g:M

na COTTON TAPE

%j8 1u APPROX.l6 7

4.4 A P P R O X.16

+2 (1.5 MM) 8 6:!)

(1.5 MM)

FIXED DOWEL (73MM')fM 4

--- R OL L E R

'25" b-h

'g (3 5 "M) 7 a

g (a,yy)

(3 MM) saurs L

EXHIBIT D ANACONDA Metal Hose p

P.O. Box 3, p

d,i 4/

Mattoon,liiinois 61933 Telephone: 217 234 8844

=

AN ACOND A 1phstnes r4exten 7, 1990 anily Broe.'Inc.

Does 53267 Neer Orlanne,;EA 74130 cohjects 1.) Soft. 3/s" -hidtight wiring conduit, 43399M143 3.) 1000 ft. 2* Ditto

, 434059-0143

. 3.) S00 ft. 3* Ditto

, 434079-0143 4.) 500.ft. 4" Ditto

., 434009-0143 nafaerences P-0. 01-95988,. Mark WP-3-1564a9, Lou 1564-249B, Rev. 5 Centleseres We heareby certify that the foregoing !satarial has been produced 'in ah with our s*ma@ed anill practioe to meet the requirassents of yonnu p==1 rr order No. 9138-N Rel. 9104-N.

All. orders and contracts are accepted subjset to the company's published tar:ss of sals.

core mateerial conforms to requirements of U.L. 360.

Jacket :pakarial identical to amterial 44s** has provided shtisfactory performance in ciamalated nuclear power plant "Ixma* entposures and flamability e

composures as described in 12sts 3231714 and 1245 3831974 Yours truly,

(

tt J. T. Stilliona I.aboratory Tochehim th MD!hL EDU3 DIVISLG Amccetta mus2cJe &%ss ccMPANT cubscribed and sween to before chippel to thiry 7th d;ny of, narch,1030.

"h-Services Inc.

r.g/g g

/

c/o unterford s3s Unit #3, nwy 10 u.

<. e.o....,-., n e. ~,....... o 2 :, r,..,

Taft, LA 70088 Uo R blia ~

nark:

W:P-3-1564-D

EXHIBIT E LIST OF PURCHASERS OF ANACONDA TYPE NWC CONDUIT PERRY NUCLEAR POWER PLANT COMANCHE PEAK #1 & #2 NUCLEAR POWER PLANT The Cleveland Electric Illuminating Co.

Texas Utilities Company Perry, Ohio Glen Rose, Texas OYSTER CREEK NUCLEAR GEN. STATION #1 SOUTH TEXAS PROJECT Jersey Central Power & Light Houston Lighting & Power Company Toms River, New Jersey Palacios, Texas INDIAN POINT #3 POWER PLANT WATERFORD #3 NUCLEAR POWER PLANT Consolidated Edison Louisiana Power & Light Co.

Indian Point, New York Taft, Louisiana ZIMMER NUCLEAR POWER PLANT PALO VERDE NUCLEAR POWER PLANT Cincinnati Gas & Electric Arizona Public Service Moscow, Ohio Wintersburg, Arizona CATAWBA NUCLEAR PiANT BYRON NUCLEAR POWER PLANT Duke Power Company Commonwealth Edison Clover, South Carolina Byron, Illinois HARTSVILLE NUCLEAR PLANT A & B BRAIDWOOD NUCLEAR POWER PLANT Tennessee Valley Authority (T.V.A.)

Commonwealth Edison Hartsville, Tennessee Braidwood, Illinois PHIPPS BEND NUCLEAR POWER PLANT CLINTON NUCLEAR POWER STATION Tennessee Valley Authority (T.V.A.)

Illinois Power Company Surgionsville, Tennessee Clinton, Illinois ST. LUCIE POWER PLANT, UNIT 2 MIDLAND NUCLEAR PLANT Florida Power & Light Consumers Power Company 12 miles north of Stuart, Florida on AIA Midland, Michigan GRAND GULF NUCLEAR POWER PLANT MILLSTONE POWER PLANT Mississippi Power & Light Northeast Utilities Port Gibson, Mississippi Waterford, CT.

PILGRIM STATION NUCLEAR POWER PLANT WPPS NUCLEAR PLANT UNITS #3 and #5 Boston Edison Company Washington Public Power Supply System Plymouth, Massachusetts Satsop, Washington YANKEE ATOMIC POWER PLANT WPPS NUCLEAR PLANT UNITS #i and #4 Yankee Atomic Electric Co.

Washington Public Power Supply System Rowe, Massachusetts Richland, Washington j

THREE MILE ISLAND NUCLEAR PLANT, UNIT #2 NINE MILE POINT NUCLEAR STATION, UNIT #1 Metropolitan Edison Niagara Mohawk Power Corp.

Middletown, Pennsylvania Scriba, New York Public Service Electric & Gas Co.

JAMES A FITZPATRICK NUCLEAR POWER STATION c/o UE & C Niagara Mohawk and Power Authority of Foot of Buttonwood Road State of New York Hancocks Bridge, New Jersey 08038 Town of Scriba Oswego, New York

EXHIBIT F Special Exhibit for Installation Precautions Example 1-1/2" NWC Nuclear Wiring Conduit Anaconda Type NWC 1-1/2 P/N 434047-0143 INSTALLATION FRECAUTIONS this product must not be installed with Inside Bend Diameter less than 40' Attached template should be used to examine installations to ensure IBD exceeds the minimum.

Failure to comply with above minimum IBD can result in cracking of outer cover and subsequent loss of liquid tightness.

Sharp bends at fittings must be avoided.

i 1

I s

,