Rept on Floor & Wall Penetration Fire Stops

ML20053E916
Person / Time
Site:	Arkansas Nuclear
Issue date:	12/12/1980
From:	UNDERWRITERS LABORATORY, INC.
To:
Shared Package
ML20053E913	List: ML20053E912 ML20053E916
References
80NK16616, NUDOCS 8206100205
Download: ML20053E916 (175)
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l l UNDERWRITERS LABORATORIES INC.

0 CHICAGO NORTHBROOK.lLL MELVILLE, MY SANTA CLARA, CALIF an independent, not-for-profit organization testingfor public safety File NC603-2 Project 80NK16616 December 12, 1980 REPORT on FLOOR AND WALL PENETRATION FIRE STOPS Applicant: Bechtel Power Corporation San Francisco, CA Underwriters Laboratories Inc. authorizes the above named company to reproduce this Report provided it is reproduced in its entirety.

The issuance of this Report in no way implies Listing, Classification, or other Recognition by UL and does not authorize the use of UL Listing or Classification Marks or any other reference to Underwriters Laboratories Inc.

on or in connection with the materials used in this investigation.

Underwriters Laboratories Inc., its employees, or its agents shall not be responsible to anyone for the use or g

nonuse of the information contained in this Report, and W

shall not incur any obligation or liability for damages, including consequential damages, arising out of or in connection with the use of, or inability to use, the information contained in this Report.

I t

l l

8206100205 820602 PDR ADOCK 05000313 F

PDR L

i

File NC603-2 Page 1 Issued:

12-12-80 i

I.

TABLE OF CONTENTS Page No.

I.

Table of Contents 1

II.

Abstract Al III.

List of Illustrations 2-6 IV.

General G1 V.

Test Record No. 1 - Floor Test T1 T1-9 A. Test Assembly Materials T1 T1-3 1.

Floor Assembly Materialc T1-1

[)

2.

Penetration FSK-A-002 Materials T1 T1-2 3.

Penetration FSK-A-003 Materials T1 T1-3 B.

Construction of Floor Test Assembly T1 T1-4 C.

Fire Test Method T1 T1-5 D.

Fire Test Results T1 T1-8 E.

Hose Stream Test T1-8 i

F.

Post Test Observations T1 T1-9 VI.

Test Record No. 2 - Wall Test T2 T2-8 A. Test Assembly Materials T2 T2-2 1.

Wall Assembly Materials T2-1 2.

Penetration FSK-A-009 Materials T2 T2-2 3.

Penetration FSK-A-010 Materials T2-2 B.

Construction of Wall Test Assembly T2 T2-3 C. Fire Test Method T2-4 D.

Fire Test Results T2 T2-6 E.

Ilose Stream Test T2-7 F.

Post Test Observations T2 T2-8 VII.

Summary S1 i

l f

O l

P l

File NC60 3-2 Page Al Issued: 12-12-80 i

II-AgSIgaCI Various cable, conduit, and pipe penetrations were installed in a reinforced concrete floor slab (having two abbreviated wall sections integrated with the slab).

In one portion of a. wall, various cable and conduit penetrations were installed in a reinforced concrete slab section.

In another portion of the same wall, various cable penetrations g

were installed in a concrete block section.

These fire (Sj stops were subjected to a 3 hr fire endurance test and a subsequent hose stream test in accordance with provisions outlined for power generating stations in IEEE Standard 634, titled " Standard Cable Penetration Fire Stop Qualification Test."

The performance of the fire stops was found to meet the requirements for a 3 hr rating in accordance with the criteria specified in IEEE 634.

O i

e

File NC603-2 Page 2 Issued: 12-12-80 III.

LIST OF ILLUSTRATIONS FLOOR TEST ASSEMBLY:

ILL. No.

Floor Assembly Plan Drawing 1

Floor Slab Construction Drawing 2

Penetration No. FSK-A-002 3

Penetration No. FS K-A-00 3 4

Appearance of Exposed Surface Prior to Test 5

Appearance of Unexposed Surface Prior to Test (Without Negative Pressure Chamber) 6,7

_s Appearance of Unexposed Surface Prior to Test (With Negative Pressure Chamber) 8 Furnace Temperature 9

Location of Pressure Measurements In Floor Test Assembly 10 Location of Thermocouples on Penetration No. FSK-A-002 11 Location of Thermocouples on Penetration No. FSK-A-0 0 3 12 Thermocouples Nos. 1 through 4 (List of Temperature Versus Time) 13 Thermocouple No. 1 (Plot of Temperature Versus Time) 14 Thermocouple No. 2 (Plot of Temperature Versus Time) 15 Thermocouple No. 3 (Plot of Temperature Versus Time) 16 Thermocouple No. 4 (Plot of Temperature Versus Time) 17 Thermocouples Nos. 5 through 8 (List of Temperature Versus Time) 18 Thermocouple No. 5 (Plot of Temperature Versus Time) 19 Thermocouple No. 6 (Plot of Temperature Versus Time) 20 Thermocouple No. 7 (Plot of Temperature Versus Time) 21 Thermocouple No. 8 (Plot of Temperature Versus Time) 22 Thermocouples Nos. 9 through 12 (List of Temperature Versus Time) 23 Thermocouple No. 9 (Plot of Temperature Versus Time) 24 Thermocouple No. 10 (Plot of Temperature Versus Time) 25

((~]

Thermocouple No. 11 (Plot of Temperature Versus Time) 26 Thermocouple No. 12 (Plot of Temperature Versus Time) 27 i

Thermocouples Nos. 13 through 16 (List of Temperature Versus Time) 28 Thermocouple No. 13 (Plot of Temperature Versus Time) 29 Thermocouple No. 14 (Plot of Temperature Versus Time) 30 Thermocouple No. 15 (Plot of Temperature Versus Time) 31 Thermocouple No. 16 (Plot of Temperature Versus Time) 32 Thermocouples Nos. 17 through 20 (List of Temperature Versus Time) 33 Thermocouple No. 17 (Plot of Temperature Versus Time) 34 Thermocouple No. 18 (Plot of Temperature Versus Time) 35 Thermocouple No. 19 (Plot of Temperature Versus Time) 36 Thermocouple No. 20 (Plot of Temperature Versus Time) 37

File NC603-2 Page 3 Issued: 12-12-80 List of Illustrations (Cont'd)

ILL. No.

Thermocouples Nos. 21 through 24 (List of Temperature Versus Time) 38 Thermocouple No. 21 (Plot of Temperature Versus Time) 39 Thermocouple No. 22 (Plot of Temperature Versus Time) 40 Thermocouple No. 23 (Plot of Temperature Versus Time) 41 Thermocouple No. 24 (Plot of Temperature Versus Time) 42 s

Thermocouples Nos. 25 through 28 (List of Temperature Versus Time) 43 Thermocouple No. 25 (Plot of Temperature Versus Time) 44 Thermocouple No. 26 (Plot of Temperature Versus Time) 45 Thermocouple No. 27 (Plot of Temperature Versus Time) 46 Thermocouple No. 28 (Plot of Temperature Versus Time) 47 Thermocouples Nos. 29 through 32 (List of Temperature Versus Time) 48 Thermocouple No. 29 (Plot of Temperature Versus Time) 49 Thermocouple No. 30 (Plot of Temperature Versus Time) 50 Thermocouple No. 31 (Plot of Temperature Versus Time) 51 Thermocouple No. 32 (Plot of Temperature Versus Time) 52 Thermocouples Nos. 33 through 36 (List of Temperature Versus Time) 53 Thermocouple No. 33 (Plot of Temperature Versus Time) 54 Thermocouple No. 34 (Plot of Temperature versus Time) 55 Thermocouple No. 35 (Plot of Temperature Versus Time) 56 Thermocouple No. 36 (Plot of Temperature Versus Time) 57 Thermocouples Nos. 37 through 40 (List of Temperature Versus Time) 58 Thermocouple No. 37 (Plot of Temperature Versus Time) 59 Thermocouple No. 38 (Plot of Temperature Versus Time) 60 Thermocouple No. 39 (Plot of Temperature Versus Time) 61 Thermocouple No. 40 (Plot of Temperature Versus Time) 62 Thermocouples Nos. 41 through 44 (List of Temperature Versus Time) 63 Thermocouple No. 41 (Plot of Temperature Versus Time) 64 j

Thermocouple No. 42 (Plot of Temperature Versus Time) 65 Thermocouple No. 43 (Plot of Temperature Versus Time) 66 Thermoccuple No. 44 (Plot of Temperature Versus Time) 67 Thermocouples Nos. 45 through 4 8 (List of Temperaturo Versus Time) 68 Thermocouple No. 45 (Plot of Temperature Versus Time) 69 Thermocouple No. 46 (Plot of Temperature Versus Time) 70 Thermocouple No. 47 (Plot of Temperature Versus Time) 71 Thermocouple No. 48 (Plot of Temperature Versus Time) 72

File NC603-2 Page 4 Issued: 12-12-80 List of Illustrations (Cont'd)

ILL. No.

Thermocouples Nos. 49 through 52 (List of Temperature Versus Time) 73 Thermocouple No. 49 (Plot of Temperature Versus Time) 74 Thermocouple No. 50 (Plot of Temperature Versus Time) 75 Thermocouple No. 51 (Plot of Temperature Versus Time) 76 Thermocouple No. 52 (Plot of Temperature Versus Time) 77 Thermocouples Nos. 53 through 56 (List of p)s Temperature Versus Time) 78

(,

Thermocouple No. 53 (Plot of Temperature Versus Time) 79 Thermocouple No. 54 (Plot of Temperature Versus Time) 80 Thermocouple No. 55 (Plot of Temperature Versus Time) 81 Thermocouple No. 56 (Plot of Temperature Versus Time) 82 Thermocouples Nos. 57 through 60 (List of Temperature Versus Time) 83 Thermocouple No. 57 (Plot of Temperature Versus Time) 84 Thermocouple No. 58 (Plot of Temperature Versus Time) 85 Thermocouple No. 59 (Plot of Temperature Versus Time) 86 Thermocouple No. 60 (Plot of Temperature Versus Time) 87 Thermocouples Nos. 61 through 64 (List of Temperature Versus Time) 88 Thermocouple No. 61 (Plot of Temperature Versus Time) 89 Thermocouple No. 62 (Plot of Temperature Versus Time) 90 Thermocouple No. 63 (Plot of Temperature Versus Time) 91 Thermocouple No. 64 (Plot of Temperature Versus Time) 92 1

Thermocouple No. 65 (List of Temperature Versus Time) 93 Thermocouple No. 65 (Plot of Temperature Versus Time) 94 Appearance of Exposed Surface After Test 95 Appearance of Unexposed Surface After Test 96 WALL TEST ASSEMBLY:

Wall Assembly Plan Drawing 97

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Wall Slab Construction Drawing 98

\\_/

Penetration No. FSK-A-009 99 Penetration No. FSK-A-010 100, 101 Furnace Temperature 102 l

Furnace Pressure 103 Location of Thermocouples on Penetration No. FSK-A-009 104 Location of Thermocouples on Penetration No. FSK-A-010 105 Thermocouples Nos. 1 through 4 (List of Temperature Vers us Time) 106 Thermocouple No. 1 (Plot of Temperature Versus Time) 107 Thermocouple No. 2 (Plot of Temperature Versus Time) 108 Thermocouple No. 3 (Plot of Temperature Versus Time) 109 Thermocouple No. 4 (Plot of Temperature Versus Time) 110 Thermocouples Nos. 5 through 8 (List of Temperature Versus Time) 111

File NC603-2 Page 5 Iss ued: 12-12-80 List of Illustrations (Cont'd)

ILL. No.

Thermocouple No. 5 (Plot of Temperature Versus Tine) 112 Thermocouple No. 6 (Plot of Temperature Versus Time) 113 Thermocouple No. 7 (Plot of Temperature Versus Time) 114 Thermocouple No. 8 (Plot of Temperature Versus Time) 115 Thermocouples Nos. 9 through 12 (List of Temperature Versus Time) 116 Thermocouple No. 9 (Plot of Temperature Versus Time) 117 Thermocouple No. 10 (Plot of Temperature Versus Time) 118 Thermocouple No. 11 (Plot of Temperature Versus Time) 119 Thermocouple No. 12 (Plot of Temperature Versus Time) 120 O'

Thermocouple Nos. 13 through 16 (List of Temperature Versus Time) 121 Thermocouple No. 13 (Plot of Temperature Versus Time) 122 Thermocouple No. 14 (Plot of Temperature Versus Time) 123 Thermocouple No. 15 (Plot of Temperature Versus Time) 124 Thermocouple No. 16 (Plot of Temperature Versus Time) 125 Thermocouples Nos. 17 through 20 (List of Temperature Versus Time) 126 Thermocouple No. 17 (Plot of Temperature Versus Time) 127 Thermocouple No. 18 (Plot of Temperature Versus Time) 128 Thermocouple No. 19 (Plot of Temperature Versus Time) 129 Thermocouple No. 20 (Plot of Temperature Versus Time) 130-Thermocouples Nos. 21 through 24 (List of Temperature Versus Time) 131 Thermocouple No. 21 (Plot of Temperature Versus Time) 132 Thermocouple No. 22 (Plot of Temperature Versus Time) 133 Thermocouple No. 23 (Plot of Temperature Versus Time) 134 Thermocouple No. 24 (Plot of Temperature Versus Time) 135 Thermocouples Nos. 25 through 28 (List of Temperature Versus Time) 136 Thermocouple No. 25 (Plot of Temperature Versus Time) 137 Thermocouple No. 26 (Plot of Temperature Versus Time) 138 Thermocouple No. 27 (Plot of Temperature Versus Time) 139 Thermocouple No. 28 (Plot of Temperature Versus Time) 140 Thermocouples Nos. 29 through 32 (List of Temperature Versus Time) 141 Thermocouple No. 29 (Plot of Temperature Versus Time) 142 Thermocouple No. 30 (Plot of Temperature Versus Time) 143 Thermocouple No. 31 (Plot of Temperature Versus Time) 144 i

Thermocouple No. 32 (Plot of Temperature Versus Time) 145 Thermocouples Nos. 33 through 36 (List of Temperature Versus Time) 146 Thermocouple No. 33 (Plot of Temperature Versus Time) 147 Thermocouple No. 34 (Plot of Temperature Versus Time) 148 Thermocouple No. 35 (Plot of Temperature Versus Time) 149 l

Thermocouple No. 36 (Plot of Temperature Versus Time) 150 j

Thermocouples Nos. 37 through 40 (List of Temperature Versus Time) 151 Thermocouple No. 37 (Plot of Temperature Versus Time) 152 4

Thermocouple No. 38 (Plot of Temperature Versus Time) 153 Thermocouple No. 39 (Plot of Temperature Versuc Time) 154 Thermocouple No. 40 (Plot of Temperature Versus Time) 155 t

I File NC603-2 Page 6 Issued: 12-12-80 List of Illustrations (Cont'd)

ILL. No.

Thermocouples Nos. 41 through 44 (List of Temperature Versus Time) 156 Thermccouple No. 41 (Plot of Temperature Versus Time) 157 Thermocouple No. 42 (Plot of Temperature Versus Time) 158 Thermocouple No. 43 (Plot of Temperature Versus Time) 159 Thermocouple No. 44 (Plot of Temperature Versus Time) 160 Thermocouples Nos. 45 and 46 (List of Temperature Versus Time) 161 Thermocouple No. 45 (Plot of Temperature Versus Time) 162

()

Thermocouple No. 46 (Plot of Temperature Versus Time) 163 Appearance of Exposed Surface After Test 164 Appearance of Unexposed Surface After Test 165 Appearance of Exposed Surface Before Test 166 Appearance of Unexposed Surface Before Test 167 l

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,-UNEXPOSED SURFOCE TEMP,ITdt F -? N w.y ' FLOOR 1EST. s 4 2 ( 3 CHAN(NOS.) 1 n TIME (MIN.) [ 66.7 66.5 s. 66.6 ' 66.6 66.6' 66r6 66.7 66.7 5 66.6 ,,S. 6'6.7 66.7 66.7 10 ^' 16.8 66.8 15 66.7 20 . 6619 66.8 66.9 66.9 66.8 ( 25 66.8 67 67 67=- 67 30 66.9 67 ' 67.1 67 35 ' 66'.7-67 67,i 67.1 i 67.1 (~ 40 x 67.1 16 7. 1' 67.1 67.2 45 67,2' 67.1 67.2 67.2! 67.i 67.2 50 (f 55 ~ 67.3 - '67.2 67.2 67.3 67.2 67.4 (20 67 4' .67.2 67.5 67.3-65 67.2 s 67 5 67.4 67.3 67.4 ( 70 '67.5 67.4 67.4 75 67.4 67.7 67.5 80 67.5 67.4 67,5 6718 (' 85 67.U 67.5 67.9 67:6 67.5 90 b'7.6 67.5 67.9 '67'.7 67.6 67.5 95 (~ 100 67.7 67.6 68 105 ~ 6748 67.6 68.1 110 67.9 6*?.8 68.i n7.7 67.7 (,.. 115 67.8 67.6 67.9 67.5 68.1 67.5 120 67.7 67.7' ~68.2 125 67.8 '67.8 67.9 67.9 67.9 68.3 ( 130 '67.9 67,8 68.4 135 '67.9 68 68.6 "'68 i 68.i 140 69 68.7 68.2 68-2 (' 145 68.i~ 68.2 63.2 ', 68.7 / 150 68.2 4.- 68.2-68.8 155 68.2 68.4 68.'3 ~ 67.9 68.4 l ( 160 68 67.7 '"~" 165 68.3 '" '. '1 ' ~ 68.1 68.4 68 68.1 C) 175 67.9 6'1.6 267.% 180 TABLE NO. 1 i' (. FILE. i A/ChoS-A 4 ~ s' ~ j n_ ~ .i I A

U tL'WMPOSED SURFACE TEMPEF$TURES f-FLOOR TEST TEMP., DEG F 250. T.C. NO. 1 225 --- .. ~. i_. 33, =- =- + 175 -}- - 4-160 b- .b. 335 100 b- =- =- 75 1- ^- n- - ~ 50 25 O ~ '''''''''''''''''''''''''''''' 0 10 20 30 40 50 60 70 SO 90 100 110 120 130 140 150 160 170 180 TIME, NIN. 1 L e j-o r-t~ 8* w I t9 m

) o CO o ..i. ts 1 so w (/ / f, o LJ m i U"/ e = .I O y pa e o c) w LJ ~ Q 0_ .i- .s. o N m T" u. LJ .t. .i. .i. .t. j._ O F o Z f,l M g M U3 U C ( g& l_C y O o U s. O E UJ w '~ I'J.'. "' CO

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Ut$XPOSED SURFFICE TEMPER $TURES FLOOR TEST TEt1P. LEG F 250 ~ t T.C. HO. ' 225 C L. = 299 175 L- ~ ~ 150 ~ ~ 12s g99 75 50 E as L. t .t t .i i t t I t f t t f t l .I .t F t g 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 T I t!E., t!I N. 6N (*t-Or (P m O ~e W (

UC]XPOSED SURFACE TEMPEfGTURES FLOOR TEST TEMP., DEG F 250 T.C. 11 0. 4 225 200 ~ 175 h- =- =- =- 1 199 g25 199 75 CL 50 25 I O ~ ' 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 T I N E., M I ll. I ]n' 3 2 e i> gn N ' h qi 1 P (

l UNEXPOSED SURFACE TEMP DEc, F y FLOOR TEST CHAN(NOS.) 5 6 7' 8 TIME (MIN.) 5 66.5 66.6 66.6 66.5 10 66.6 66.6 68.8 66.6 15 66.7 66.7 68.3 66.6 ( 20 66.7 66.7 67.8 66.8 25 66.8 66.7 67.8 66.9 30 66.9 66.8 67.9 67.1 t 35 66.9 66.9 67.9 67.3 40 67 66.9 68.3 67.5 ((. ) 45 67 66.9 68.7 67.6 50 67.1 67 68.6 67.9 55 67.2 67 68.7 68 60 67.4 67.1 68.8 68.2 ( 65 67.5 67.1 69.1 68.4 70 67.5 67.2 69.2 68.6 75 67.5 67.3 69.2 68.8 ( 80 67.6 67.3 69.7 68.9 85 67.6 67.4 69.6 69.2 90 67.6 67.5 69.5 69.3 ( 95 67.6 67.5 70.3 69.5 100 67.7 67.6 70.1 69.6 105 67.7 67.6 69.7 69.7 ( 110 67.7 67.6 69.8 69.9 115 67.7 67.6 69.6 70.1 120 67.5 67.5 69.3 70 (' 125 67.7 67.5 69.5 70.1 130 67.7 67.7 69.6 70.3 135 67.0 67.8 70 70.5 C 140 67.9 67.8 70.3 70.6 145 68 67.9 70.9 70.9 150 68.i 68 70.9 71.2 l (. 155 68.2 68 70.9 71.3 l 160 68.2 68.1 71.1 71.5 l 165 67.8 67.7 70.5 70.7 l 170 67.9 67.8 70.8 71.1 t 175 68.1 68.1 71.4 71.5 180 67.7 67.7 70.6 70.9 (. TABLE NO. 2 i I l 4 l l FILE ~ l NcGo3.2 ~ ILC.. M l ( t

UNLAPOSED SURFF-ICE TEMPERF'URES s FLOOR TEST TEMP., DEG F c:-- 250, .C. HO. 5 225. - ~ ~ - 200 - ~:- 175. ~; - :- C-a i.- 150 -c 125 ~ ~. C0 ~ - - s -- 75 50

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25 ~ .~ - . ''''''''''''I O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 O TIME. MIN. m I-O 'r"" [ y Irt 0 -4> ' TM l k

UOXPOSED SURFACE TEMPE QTURES FLOOR TEST TEt1P., DEG F 250,- T.C. NO. 6 225 ~- 200 c-- 176 -- - -) - -- 150 125 100 7c; 50 '- + - n-c- - t-25 ~ 0 O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TINE, MIN. r t l C O --r i i i, m w D, N s

~. _ _ _ _ _ 4' D A C C T's C I I D C A P. C T C M o r r# r s t n r e L'au m: Le c s .s. > se a s. a t t L. ei, i F r l( l U rs E., O FLOOR TEST TEMP. DEG, F ,50 t. .T.C. NO. 7 225 ................~................... .'). 0 0 ..+....... -.. 1, + 150 195 i 100 t 75 .....i...... O ~. - ~- --. - '-- - - - ~. ~ 25 I I O ~ ' O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TIllE, Mill. "Il -r" (* O (m~ D, w

j 0 8 1 0 7 1 0 6 1 S E 0 + 5 1 R U 0 4 T 1 O 3 0 F 1 E 0 P 2 i 1 M 0 E + + + 1 1 T 0 T S 0 N EE t 1 I t CT 0 AO 9 R E FO t I L 0 T RF 8 U S 0 5 7 D 0 + + .' 6 E S 0 .' 5 O P h'. .' 04 &,i 0 i 3 i U F G .' 0 2 E D .' 0 f P 1 f E h T i . ~ .~ 0 ~ ~ 5 g g 0 5 0 5 9 s O 2 e 7 5 2 0 7 5 a 3rm 2 2 1 1 1 2ngO9 t 6' B J

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O N 1 i C. T I! 'l

l DGCg F: UNEXPOSED SURFACE TEMP 9 FLOOR TEST CHAN(NDS.) 9 10 11 12 TIME (HIN.) 5 66.6 66.7 66.5 66.5 10 66.6 66.8 66.6 66.6 15 66.7 66.7 66.6 66.6 20 66.7 66.9 66.7 66.6 4 25 66.9 67.1 66.8 66.7 30 66.9 67.3 66.9 66.0 ( 35 67 67.5 66.9 66.9 40 67.1 67.7 67 66.9 O 45 67.1 67.9 67 67 (. 50 67.i 68.2 67.i 67.1 55 67.2 68.4 67.2 67.1 60 67.2 68.8 67.3 67.3 I 65 67.2 69 67.4 67.3 70 67.3 69.3 69.4 67.4 75 67.3 69.6 67.5 67.5 ( 80 67.3 70 67.6 67.6 85 67.4 70.4 67.8 67.7 90 67.5 70.7 67.9 67.9 t 95 67.5 71 68.1 68 100 67.5 71.3 68.2 68.2 105 67.5 71.7 68.4 68.3 t 110 67.6 72 60.7 68.5 l 115 67.7 72.4 68.8 68.7 120 67.5 72.4 69 60.8 6 125 67.6 73 69.3 69.1 130 67.7 73.4 69.5 69.2 135 67.8 73.9 69.7 69.6 ( 140 67.9 74.3 70 69.8 145 68 74.8 70.3 70.1 150 68.1 75.3 70.6 70.4 i 155 60.1 75.7 70.9 70.7 160 60.2 76.2 71.3 71 l 165 67.9 73.9 70.9 70.3 l T 170 67.9 74.6 71 70.6 175 68.1 74.8 71.4 70.9 180 67.9 73.3 71.3 70.6 TABLE NO. 3 I ' FILE. \\ NC402*L M tt n i _=I --v - -- - - - - _ - - ~.. _

t p t s s i UNEXPOSED SURFACE TEMPERATURES FLOOR TEST i i TEMP., IIEG F i 950 T.C. HO. 9 225 200 e-4 175 150 125 100 l-75 50 e-25 ~ I I I I I I

• I I

I I I I I I I I O ~ ' O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TINE, MIH. q Z 7 F F* 4 D b r 4 L.1 I J

1 o CO f ,4 o r,. .4 to 4 / o GJ w Y o -- i q b .4 o p) o cs O_ n .{. .i. o. b O g e H QM ~ E P.* l4.J (} W O ce O y I o = o _J o H O f La-03 _t o 3$.#1 tw _E o l--I LJ ci9 ._ o W lli O_ ._ o 1 ._ g d ...J o o b ca m ,_ o b E b H iiiili.l1, ili. lii,ili iil....li,,il. .il,i,, g a w o w o w a tn o to a W N O Is 'D 01 O rw W N _ FILE. 7-I OJ OJ OJ .4 ..N_c u_o3.% IlLC k r Q J e O ~ z U. L.

UCh: POSED SURFOCE TEMPEF$TURES FLOOR TEST TEtiP. DEG, F .C. HO. 11 225 -. I L-200 ~ 37g = ~ 160 h-125 ~ g99 ~ 7g ~. gg g, ~ g 1 I I I l l I I i 0 10 20 30 40 50 60 70 00 90 100 110 120 130 140 150 160 170 ISO TIP!E., III H. = 23 o r- '3 , ? m-l bi.j e! P m

LINLAPOSED SURFACE TEMPER 'URES O FLOOR TEST 250. y C. NO. 12 225 --- - ( v'- 200. - ~ ~ - 175 ~ tSQ s. 125 100 75 4. - + - 50 4.--

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25 i- '1GO 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 160 170 180 O ~ ' TINE, Mill. I C. 2.n_I r-O I~ !D I"4 r~ IJ l N .Pa' ,m

7 bsG F UNEXPOSED SURFACE TEMP 3 FLOOR TEST CHAN(NOS.) 13 14 15 16 TIME (HIN.) 5 66.7 66.6 66.7 66.7 10 66.7 66.7 66.8 66.7 4 15 66.7 66.7 71.2 66.7 ( 20 66.7 66.7 69.6 66.7 25 66.9 66.9 68.8 66.9 30 66.9 66.9 68.2 66.9 (f 35 66.9 66.9 68 67 40 67 67 68 67 g 45 67.1 67 67.9 67 (_ 50 67.1 67.2 68 67.i 55 67.2 67.3 68.1 67.2 60 67.3 67.5 68.2 67.2 ( 65 67.5 67.5 68.3 67.3 70 67.5 67.0 68.4 67.4 75 67.6 67.9 68.6 67.5 ( 80 67.8 68.2 68.7 67.5 85 67.9 68.4 68.0 67.7 90 68.1 68.0 69 67.9 (, 95 68.2 69 69.2 68 100 68.4 69.3 69.5 68.2 105 68.7 69.6 69.7 68.3 ( 110 68.8 70.1 69.9 68.5 115 69.2 70.4 70.1 68.8 120 69.3 70.7 70.2 68.8 ( 125 69.6 71.2 70.5 69.1 130 69.9 71.7 70.9 69.4 135 70.2 72.1 71.1 69.6 ( 140 70.5 72.6 71.5 70 145 70.9 73 71.8 70.3 150 71.3 73.6 72.2 70.7 155 71.6 74.2 72.6 71 160 72 74.7 72.9 71.3 165 71.7 74.8 73 71.5 170 72 75.2 73.4 71.9 O 175 72.3 75.6 73.9 72.3 180 72.3 75.7 74.3 72.6 ( TABLE NO. 4 ll i 1 I FILE N C M 3.'2 (' I 11 ta[O a 1

iIV N' D i i ? C TI ClIO Ciis C T { {d O C TIIRt ER ~.s vintmi * ' o t .r ' o s s si m e L. I in Li FLOOR TEST 250 ' DEG F T E t1 P., .C. HO. 13 ~ 325 200 - - - 4~ 175 ?- 150 ~ ~ ~

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,as 100 75 50 5 ~ zg 1 f I 1 1 I 1 f f I I I 1 i i i l f f g 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 T I ff E., P!I tl. 1 zn- -r OF ,F' cm 13 k 4 h t, J

UCIXPOSED SURFACE TEMPEJTURES i FLOOR TEST TEMP., DEG F 250 T.C. NO. 14

I 225 h-4-

I 200 l - ^ - - - 175 4- ~-;. - b. -- 150 ~ ;- ~ ~. - ~ 125 i Igg 7g ....i.... I i [ c0 i ~ 25 ~. - 4. ~-. ~ ~- ''''''''''''I O ~ ' O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TIME, NIN. f d r 1 F I6' m I'l4. O i Wl 0 y b_

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g c. t0 U e o ay, g E g 1"'.' - 'i' ')' CO _I I,r#l C3 I'. 4 b-I o . t.. QJ so a a o r, m O, o.s.. =.%.- j O t o .t. ...i.. .i.... g y m i i I o D. n g s ....l....l....I....l....tm..l...1....l..ml... O m o m o e o to o m o -9 m N e rs m N. o r-m N FILE t a a a w 1 NCGo E-A n.c.3/ w e i O 2: L j. i o. . F- ~ - - _. - - _. - - -..,

Ui: ')XPOSED SURFACE TEMPEFSTORES FLOOR TEST TEMP., DEG F 250 i'. C. NO. 16, h 225 s. i_. 200 175 h-1so p. b-- 125 100 75 ~ i- ~. 50 r jg r e s e O ~ ' O 10 20 30 40 50 60 70 80 90 100 110 120 1.0 140 150 160 170 180 TIME., NIH. r-to rm I'g N i(.3 -.- s.. u s

UNEXPOSED SURFACE TEMP,bsc,pr i FLOOR TEST CHAN(NOS.) 17 10 i9 20 TIME (MIN.) 5 66.6 66.5 66.7 67 10 66.7 66.4 66.7 67 ^ 15 66.7 66.5 66.7 67 o 20 66.8 66.7 66.7 67.i 25 66.9 66.9 67 67.2 30 67 67 67 67.2 } 35 67.1 67 67.1 67.3 ( I 40 67.i 67.i 67.i 67.3 I i 45 67.2 67.1 67.2 67.3 50 67.3 67.1 67.2 67.4 55 67.4 67.2 67.3 67.3 60 67.5 67.3 67.4 67.4 t 65 67.5 67.4 67.5 67.5 70 67.6 67.5 67.6 67.4 75 67.7 67.5 67.7 67.5 1 l C 80 67.8 67.6 67.0 67.5 85 68 67.7 60 67.5 90 60.1 67.0 68.1 67.5 1 t 95 60.3 67.9 68.3 67.6 i 100 60.4 68.1 68.4 67.6 105 68.6 68.2 68.6 67.6 1 ( i10 60.8 60.3 60.9 67.O 115 69 60.4 69 67.8 120 69.1 68.3 68.9 67.7 t. 125 69.3 69.6 69.3 67.7 130 69.6 69 69.6 67.0 135 69.8 69.2 69.O 67.8 ( 140 70.2 69.4 70.1 67.9 145 70.6 69.6 70.5 67.9 i 150 71 69.8 70.8 60 (. 155 71.3 70 71 60.1 i j 160 71.8 70.2 71.3 60.i 165 72 69.6 71 60 .4 71. 6 l 180 73.1 69.5 71.3 68 i ( TABLE NO. 5 ( i- ( (. t FILE o l l-NC603-2 ! !c n.c.A __ J \\ L

0 8 1 0 i 7 1 0 ? 6 1 S 0 E i + 4 5 R 1 U 0 p + 4 T 1 S 3 0 F 1 E i 0 P i 2 1 M E 0 + b + 4 1 1 T 0 T ~ 0 N S EE 1 I CT M AR 0 9 O E FO M L I 0 T RF 8 U S 0 7 D i 0 E 6 S ~ 0 + O 5 P Q .' 04 .' 03 U F G 0 + 4 E 2 D 0 1 P M T ~- 9 V.~ E

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UNEXPOSED SURFACE TEMP DCfr F y FLOOR TEST CHAN(NOS.) 21 22 23 24 TIME (MIN.) 5 67 66.9 66.9 66.9 10 67.1 66.8 66.9 66.9 i 'i 67.1 66.9 67 66.9 20 67.1 67 67.1 66.9 25 67.2 67.1 67.1 67 30 67.2 67.1 67.2 67 35 67.3 67.1 67.3 67.1 40 67.3 67.1 67.3 67.2 / 45 67.3 67.1 67.4 67.1 k- ') 50 67.4 67.2 67.4 67.2 55 67.4 67.2 67.5 67.2 60 67.4 67.2 67.6 67.3 8 65 67.5 67.3 67.6 67.3 70 67.5 67.3 67.6 67.4 75 67.5 67.3 67.7 67.5 80 67.5 67.4 67.8 67.5 85 67.5 67.4 67.9 67.5 90 67.5 6 7. /- 67.9 67.5 ( 95 67.5 67.5 68.1 67.6 100 67.5 67 5 68.1 67.6 105 67.6 67.5 68.2 67.6 110 67.7 67.6 68.3 67.6 115 67.6 67.6 68.4 67.6 120 67.5 67.5 68.3 67.6 125 67.6 67.6 68.4 67.6 130 67.7 67.6 68.5 67.6 135 67.7 67.8 68.6 67.7 140 67.8 67.8 68.8 67.8 145 67.9 67.9 68.8 67.8 150 67.9 67.9 69 67.9 i 155 67.9 67.9 69.1 68 160 67.9 68 69.2 68 165 67.9 67.7 69.2 67.9 t 170 67.9 67.8 69.3 67.9 ,~ ( ') 175 67.9 67.9 69.5 68 180 67.9 67.8 69.5 68 TABLE NO. 6 ( ' FILE NCC303-f ILtd _J

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UC]XPOSED SURFOCE TEMPEfGTURES FLOOR TEST TEMP., DEG F 0 T.C. NO. 24 225 ~. -. ~ b-200 ~ 175 . ~ - 150 ~ 125 100 ~ 75 s0 p. _~- - - 25 1 I l. 1 l l I 1 I l f l I I l g e i 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TIME., MIN. I"' 2m ~- r f I, a o <ie .-.1...-.

i i UNEXPOSED SURFACE TEMP, DE4 F FLOOR TEST-1 CHAN(NOS.) 25 26 27 28 i i TIME (HIN. ) 5 66.9 66.8 66.9 67.3 i~ 10 67 67 66.9 67.2 15 66.9 67.4 67 67.3 20 66.9 67.2 67.1 67.3 25 67.1 67.3 67.4 67.4 30 67.2 67.3 67.6 67.4 - 1 35 67.i 67.4 67.9 67.4 40 67.2 67.4 68.2 67.S 45 67.2 67.5 68.5 67.5 50 67.3 67.6 68.0 67.5 55 67.3 67.0 69.i 67.5 60 67.4 67.9 69.3 67.5 t 65 67.4 68 69.6 67.6 70 67.4 68.3 69.8 67.6 75 67.5 68.4 70 67.7 80 67.5 68.7 70.3 67.7 85 67.5 -68.9 70.5 67.8 90 67.5 68.9 70.0 67.9 t 95 67.5 69.2 71 60 100 67.5 69.3 71.3 68 105 67.5 69.4 71.5 68.1 i 110 67.6 69.6 71.7 68.3 115 67.6 69.6 72 60.3 120 67.5 69.6 72.2 68.4 125 67.5 69.7 72.4 68.5 130 67.6 69.9 72.7 68.6 135 67.7 70.1 73 60.8 140 67.7 70.3 73.4 68.9 145 67.8 70.5 73.7 69 150 67.9 70.8 74.1 69.3 155 67.9 70.9 74.3 69.4 160 67.9 71.1 74.7 69.7 165 67.8 71.2 74.8 69.6 170 67.8 71.4 75.1 69.9 175 67.9 71.6 75.7 70.2 180 67.9 71.7 75.8 70.4 TABLE.NO. 7 FtLG h Naso 3-y i ILC m 1 ~

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3 DE4 F UNEXPOSED SURFACE TEMPy FL80R TEST CHAH(NOS.) 29 30 31 32 TIME (MIN. ) 5 67 67.0 68 67.9 l 67 67.8 68.1 68 15 67.1 67.8 68.1 67.9 10 20 67.1 67.9 68.2 68 67.3 68 68.3 68.2 l 67.5 68.1 68.4 68.3 25 67.6 68.2 68.5 68.5 30 40 67.8 68.2 68.6 68.6 l 35 68 68.3 68.7 68.9 i 50 68.2 68.3 68.9 69.1 45 i 55 68.5 68.4 69.1 69.5 60 68.8 68.5 69.3 69.8 65 68.9 68.6 69.5 70.2 70 69.3 68.7 69.7 70.6 4 75 69.6 68.8 70.1 71 80 70 68.8 70.3 71.5 5 85 70.4 68.9 70.5 72 4 90 70.8 69.1 70.9 72.5 i 95 71.2 69.2 71.2 73 100 71.6 69.4 71.6 73.6 105 72.1 69.6 72.i 74.2 110 72.5 69.8 72.4 75 72.9 75.5 115 73 70 l 120 73.5 70.1 73.2 76 125 74 70.4 73.7 76.8 130 74.6 70.6 74.2 77.-5 135 75.1 70.9 74.7 78.2-140 75.8 71.2 75.4 79 145 76.4 71.5 75.9 79.8 150 77 71.7 76.5 80.6 l 77.7 72.1 77.1 81.5 160 78.4 72.5 77.7 82.3 1 155 165 78.7 72.5 78.3 82.8 170 79.2 72.7 78.9 83.6 t 175 79.S 73.2 79.5 84.3 180 80.3 74.2 80.2 84.9 TABLE N8. 8 i 1I FILE-NcGo3-M n_ph-f 1 4 g 2 y _--4, ,,,.-.,.a. ~w -,n,,+-wn--. -,--x

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UtSXPOSED SURFACE TEMPEFSTURES FLOOR TEST TEMP., DEG F 250. T.C. NO. 31 225 2OO ~ ~ 175 150 ~ ~ ~ ~ ~ ~ ~ ~ +- 125 ? 100 b- =- l 75 50 ~ 25 t ,l f f t I I f I I f I g 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TIME., NIH. I i 'M 13,1% a, 3 1 J

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UNEXPOSED SURFACE TEMPERATUREG, esq F FLOOR TEST CHAN(NOS.) 33 34 35 36 TIME (MIN.) 5 68.1 67.9 68 68.1 10 68 67.9 68 68 15 68.i 67.9 68 6ff. i i 20 68.2 68 68.1 68.1 25 68.2 68.2. 68.2 68.3 30 68.3 68.3 68.3 68.4 35 68.4 68.3 68.3 68.4 40 68.4 68.3 68.4 68.4 45 68.5 68.4 68.4 68.4 50 68.6 68.5 68.4 68 4 0s ~ 55 68.7 68.5 68.6 68.4 = 60 68.9 68.6 68.7 68.5 65 68.9 68.8 68.8 68.6 (~ 70 69 69 68.8 68.6 75 69.2 69.2 69 68.7 80 69.3 69.3 69.1 68.8 85 69.4 69.6 69.3 68.8 90 69.6 69.7 69.5 68.9 95 69.8 70 69.6 69.1 _100 70.1 70.3 69.8 69.2 105 70.3 70.5 70.1 69.2 i 70.5 70.9 70.4 69.3 110 115 70.8 71.2 70.7 69.4 120 71.1 71.4 70.9 69.4 125 71.4 71.7 71.3 69.6 130 71.7 72.2 71.6 69.7 72.2 72.6 72.1 69.9 l 135 140 72.5 73 72.4 70 145 73 73.4 72.9 70.3 150 73.4 73.9 73.2 70.5 j 155 73.8 74.4 73.8-70.7 i 160 74.3 74.8 74.3 .70.9 165 74.8 75.1 74.5 71.1 170 75.3 75.5 75 71.3 175 75.8 75.9 75.5 71.6 i 180 76.4 76.3 76 71.8 TABLE NO. 9 FILE NcloO3-A 1 lIIQfb

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UNEXP8 SED SURFACE TEMPERATURES; DECy F FLOOR TEST CHAN(N8S.) 37 38 39 46 TIME (MIN.) 5 67.9 68.1 67.8 66.8 10 67.9 68.1 68.1 67 15 67.9 68.2 69.2 6 8. C' 20 68 68.3 71.6 69 25 68.1 68.5 73.4 69.2 20 68.2 68.5 74.5 69.6 35 68.2 68.5 75.7 69.9 40 68.2 68.5 76.3 70.2 45 68.4 68.5 76.6 70.5 ()- 50 68.4 68.5 77 70.8 55 68.5 68.6 77.3 71 60 68.6 68.8 77.7 71.2 65 68.7 68.8 78.1 71.5 70 69.7 68.9 78.7 71.6 75 68.8 69 79.2 71.8 80 69 69 79.8 72.1 85 69.1 69.2 80.6 72.4 90 69.3 69.3 81.3 72.7 95 69.4 69.4 81.7 73 100 69.6 69.5 82.5 73.4 105 69.8 69.6 83 73.7 110 70.1 69.8 83.4 74.1 115 70.3 69.9 83.9 74.4 ( 120 70.5 70 84.3 74.6 125 70.8 70.2 85.2 75 130 71 70.4 85.8 75.5 135 71.4 70.6 86.6 75.9 140 71.8 70.8 87.9 76.4 145 72.2 71.1 88.8 76.8 150 72.6 71.3 89.9 77.3 155 73 71.6 91 77.8 160 73.3 71.9 91.9 78.3 165 73.1 72.1 92.4 79.5 170 73.5 72.3 93.4 80.1 175 73.9 72.7 94.1 80.6 180 74.1 73 94.5 80.9 TABLE N8. 10 l [ 4 i FILE NCoo 3%I. ~ n i, SB i

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UNEXPOSED SURFACE TEMPERATURES, DE4 F FLOOR TEST CHAN(NOS.) 41 42 43 44 TIME (MIN. ) i 5 66.8 66.7 66.9 67 10 66.8 66.7 67.3 67.2 15 66.9 67.1 68 67.8 i 20 67.1 69 68.9 68.7 25 67.5 70 70 69.9 30 68 70.5 71.1 70.9 35 68.6 71.1 72.1 71.8 40 69 71.7 73.2 72_9 t 45 69.4 72.1 74.3 73.8 50 69.7 72.5 75.4 74.9 55 69.9 72.9 76.6 75.9 60 70.3 73.1 77.6 76.8 65 70.6 73.5 78.6 77.7 70 70.8 73.8 79.7 78.8 .75 71 i 74.3 80.6 79.8 4 80 71.3 74.6 81.7 80.7 85 71.7 75 82.8 81.7 ( 90 72 75.5 83.8 82.6 95 72.3 75.8 84.8 83.6 100 72.6 76.2 85.8 84.6 i 105 72.9 76.6 86.8 85.4 110 73.2 77.3 87.8 86.6 115 73.5 77.6 88.8 88.i ( 120 73.7 77.5 89.7 86.2 125 74 78.2 90.6 88.6 j 130 74.3 78.7 91.7 90.5 d. 135 74.7 79.3 92.8 91.6 140 75 79.8 93.9 92.6 145 75.5 80.5 94.9 93.4 ( 150 75.8 Oi 96 94.3 155 76.2 81.6 97 95.4 l 160 76.5 82.3 98.1 96.3 4 165 76.8 82.8 98.7 96.6 170 77.1 83.5 99.6 97 175 77.6 84.1 100.4 97.6 i l ( 100 77.7 84.3 101 97.8 l TABLE NO. 11 '( i i FILE i Mcbo3-A.

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e UNEXPOSED SURFACE TEMPER ATURES, DEq F FLOOR TEST CHAN(NOS.) 45 46 47 48 TIME (MIN.) 5 66.8 66.6 66.7 66.7 10 66.9 66.6 66.8 66.7 15 67 66.7 66.8 66.9 20 67.i 66.9 66.8 67.1 25 67.5 67.4 66.9 67.5 30 67.8 67.9 67 67.7 35 68.2 68.4 67.1 67.9 40 68.5 68.9 67 68.2 45 69 69.3 67 68.5 50 69.4 69.6 67.1 68.8 0' 55 69.9 70 67.1 69 60 70.4 70.2 67.2 69.3 65 70.9 70.7 67.2 69.6 70 71.3 71 67.2 69.9 75 71.8 71.3 67.2 70.1 80 72.4 71.7 67.3 70.3 B5 73 72 67.3 70.6 90 73.5 72.3 67.3 70.9 95 74 72.6 67.3 71.2 100 74.6 73 67.3 71.4 105 75.1 73.4 67.3 71.7 110 75.8 73.8 67.4 71.9 115 76.4 74 67.4 72.1 120 76.9 74.2 67.3 72.3 125 77.6 74.6 67.3 72.6 130 78.2 75 67.4 72.9 135 78.9 75.4 67.4 73.2 140 79.6 75.7 67.5 73.5 145 80.3 76.2 67.5 73.9 150 81 76.6 67.5 74.3 155 81.7 77 67.6 74.5 160 82.4 77.6 67.6 75 165 82.7 77.6 67.5 75.1 170 83.1 78.1 67.5 75.5 175 83.7 78.6 67.6 75.9 180 84 78.7 67.5 76.2 TABLE.ND. 12 FILE /VQ&O3 ff, iu:./d

UK MPOSED SURFACE TEMPEFSTURES FLOOR TEST TEt1P., D E o-F f.C. 11 0. 45 225 399 175 7-150 125 100 7-L- 75 ~ 5- ~ 59 ~ 7 25 I I '*I. I O ~ ' O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 T IME, itIll. r' o r- \\ %" ?% L i-O

UK MPOSED SURi nCE TEMPEFOTURES FLOOR TEST TEMP., DEG F 250 7.C. HO. 46 225 200 ~ h-175 160 ~ las .~. 100 ~. 75 59 . f.. 25 f .I 1 I I I I. I f I I 3 1 f i i i g 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TIME., N I ll. 1 g-- <~ I lD I ,o m lM 0 I,8 i, - M ed es@ M I

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UflXPOSED SURFACE TEMPEfeTURES FLOOR TEST TEMP., DEG F T.C. NO. 48 22q C-. 200 L-175 h-150 g35 100 L-75 ~ go L. 75 ~. 0 O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TIME, M I!1. po - Y8 T. -r i d' U1 l, I 1 I s 1m

UNEXPOGED SURFACE TEMPERATURES, DCQ F FLOOR TEST CIMil(NOS. ) 49 50 51 52 TIME (ti1N.) 5 66.0 67.2 67.4 67.3 10 66.9 67.2 67.4 67.3 15 67 67.2 67.4 67.4 20 67.i 67.4 67.5 67.6 25 67.3 67.7 67.6 68 30 67.6 67.9 67.7 68.4 35 67.8 68.i 67.8 60.8 40 68.i 68.4 67.9 69.3 4F 68.4 68.7 67.9 69.7 50 68.8 68.9 67.9 70.2 SS 69.2 69.3 67.9 70.8 ( ') 60 69.6 69.6 68 71.3 65 70 70 68.1 72 70 70.3 70.4 68.i 72.6 75 70.8 70.8 68.1 73.1 80 71.2 71.2 68.2 73.7 85 71.7 71.6 68.3 74.4 90 72.2 72 68.3 75.i 95 72.6 72.4 68.4 75.7 100 73 72.9 68.4 76.4 105 73.5 73.3 68.4 77.1 110 74.i 73.8 68.5 77.7 i15 74.5 74.2 68.6 70.4 120 75 74.6 68.5 79.1 125 75.6 75.3 60.7 79.O 130 76.2 75.9 68.8 80.6 135 76.0 76.4 68.9 81.4 140 77.4 77 69.i 82.2 145 78 77.7 69.3 83 150 70.6 78.3 69.4 83.9 155 79.2 78.9 69.5 84.7 160 79.8 79.5 69.7 85.5 165 79.9 80 69.8 86.1 170 80.4 80.6 70.i 86.9 175 80.8 81.2 70.4 87.6 180 81 81.6 70.6 88.3 p] \\ TABLE NO. 13 Fl!.E } I NCbOPP! q ILtL d ! i .___J t

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u n v c. p_. o m.v ei_ic.cripc-r E Mi P E faT i_l Rs u *._> e e ri r .s iu n u i v iu n i FLOOR TEST TEMP., DEG F 250 V.C. HO. 52 2 e, 200 ~ - ~: - ~ ~ - --- - ~-- -- 175 150 -+ loc .a QQ ......~.... 75 t-1- s. 5O ...s. 9 c- ~" O ~ ' O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 TIME, MIN. Z ~n 7" p-G T'" e m, N N k - +

UNEXPOSED SURFACE TEMPER ATURES, DccrF FLOOR TEST CH Ai1( NOS. ) 53 54 55 56 TIME (HIN. ) 5 67.i 67.2 67.3 67.5 10 67.2 67.2 67.3 67.5 15 67.2 67.3 67.3 67.5 20 67,2 67.5 67.4 67.5 25 67.3 67.9 67.4 67.7 30 67.4 68.3 67.5 67.8 35 67.4 68.6 67.5 67.O 40 67.4 68.0 67.6 67.8 45 67.5 69.2 67.6 67.8 50 67.5 69.5 67.6 67.0 [V') 55 67.5 69.7 67.6 67.9 60 67.5 70 67.7 67. '? 65 67.6 70.2 67.7 67.9 70 67.5 70.5 67.8 67.9 75 67.5 70.7 67.7 68.1 80 67.6 70.9 67.8 68 85 67.6 71.2 67.0 68.1 90 67.6 71.4 67.0 68.2 95 67.7 71.7 67.8 68.3 100 67.6 71 <7 67.0 68.4 105 67.5 72.2 67.7 68.5 110 67.5 72.4 67.0 68.6 115 67.5 72.6 67.8 68.6 120 67.4 72.3 67.8 68.7 125 67.4 72.9 67.8 68.0 130 67.5 73.2 67.9 68.8 135 67.5 73.5 67.9 68.9 140 67.5 73.O 68 6'/. i 145 67.5 74.3 68 69.2 150 67.5 74.5 68 69.3 155 67.6 74.9 68.1 69.5 160 67.6 75.3 68.1 69.6 165 67.5 75.7 67.9 69.6 170 67.6 76.1 68 69.7 175 67.7 76.6 68.1 70 180 67.7 76.9 68 70.2 n (d) TADLE NO. 14 i FILL ~ NC 603 -:t.1

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UNEXPOSED SURFACE TEMPERATURES, DEQ F FL.00R TEST CHAN(tl0G.) 57 50 5 '? 60 TIME (MIN.) 5 67.5 67.5 6' 67.4 10 67.4 67.5 6 67.3 15 67.4 67.5 6; a 67.4 20 67.5 67.6 65 5 67.4 25 67.7 67.0 6: 5 67.4 30 67.8 68.1 67.6 67.5 35 67.7 60.3 67.6 67.5 40 67.0 68.6 67.6 67.5 45 67.9 60.9 67.6 67.5 50 67.9 69.2 67.7 67.5 g3 55 67.9 69.6 67.7 67.5 Q,) 60 67.9 70 67.7 67.S 65 60 70.4 67.7 67.6 70 68 70.8 67.0 67.6 75 60 71.2 67.0 67.6 80 69 71.6 67.0 67.7 05 68.2 72 67.8 67.6 90 60.2 72.5 67.9 67.7 95 68.2 73 67.9 67.7 100 68.2 73.5 67.9 67.7 105 60.3 74.1 67.8 67.6 110 68.4 74.5 68 67.5 i15 60.4 75 67.9 67.5 120 68.3 75.3 67.9 67.3 i 125 60.4 75.'7 67.9 67.4 130 68.4 76.4 60 67.4 135 68.4 76.7 68 67.5 1 140 60.6 77.5 68.1 67.5 145 68.8 78 60 67.5 150 60.0 78.5 60.2 67.5 t 155 60.8 79.1 68.2 67.5 160 68.9 79.7 68.2 67.5 165 69 79.8 67.0 67.5 170 69.2 80.3 68 67.6 175 69.4 80 0 68.2 67.7 180 69.5 81.2 67.7 67.7 ,rx U TABLE NO. 15 J l ucon-4 ~ n.cR_ ; o

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n UL IXPOSED SURFACE TEMPE:d'TURES l FLOOR TEST TEMP., DEG F 950 V.C. NO. 59 22g s 260 1 ~- 175 i l r l igg 12g 4.. ......f. . {. t i 100 4 l s .l* 75 50 ~ i-b h.- ~- ~ 25 .) 4-j 6 4 1. 1. l l l I l .l 1 l l l 1 l l l l g 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 .l 7 TIME, NIN. L 4 d i 1 I l i F 4 I i k-F"- i G lDF i eM I O Y

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UNEXPOSED SURFACE TEt1PERATURES, DA F FLOOR TEST CHAN(NOS.) 61 62 63 64 T I t1E ( MIN. ) 5 67.4 67.7 67.4 67.5 10 67.4 67.6 67.5 67.5 15 67.4 67.7 67.4 67.5 20 67.5 67.7 67.5 67.5 25 67.7 67.9 67.6 67.6 30 67.7 67.9 67.7 67.7 35 67.0 60 67.7 67.7 40 67.0 60 67.9 67.7 45 67.9 60 67.9 67.O 50 67.9 60 60.i 67.O (^ ) 55 67.9 60.i 60.2 67.O v 60 67.9 60.1 60.4 67.9 65 60 60.i 60.5 67.O 70 60 60.i 60.6 67.9 75 60 60.2 60.G 67.9 80 60 60.3 69 67.9 05 60.i 60.3 69.2 67.9 ( 90 60.i 60.3 69.4 67.9 95 60.1 60.3 69.6 60 100 60.i 60.3 69.0 60 t 105 60.i 60.3 70 60.1 i10 60.i 60.4 70.3 60.i 11S 60.1 60.4 70.5 60.2 i 120 60,i 60.4 70.6 60.i 125 60.2 60.4 70.9 60.i 130 60.3 60.4 71.3 60.2 135 60.3 60.4 71.6 60.3 140 60.4 60.5 71.9 60.3 145 60.5 60.6 72.3 60.3 150 60.6 60.6 72.6 60.4 155 60.7 60.6 73 60.4 160 60.7 60.6 73.2 60.5 165 60 6 60.7 73.3 60.3 4 170 60.9 60.9 73.7 60.3 175 69 69 74 60.4 100 69.1 69 74.2 60.3 t -,i ) \\/ TADLE NO. 16 I o RLE NC609-;2. ILt2 8 A '

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UNEXPOSED SURFACE TEMPERATURES, DEIc F e FLOOR TEST CH AN( t/OS. ) 65 TIME (MIN.) 5 67.3 10 67.3 15 67.4 20 67.5 25 67.6 ~0 67.6 35 67.7 40 67.7 45 67.7 50 67.O [, 55 67.O %J 60 67.0 65 67.9 70 67.9 75 67.9 00 67.9 05 60 90 68 95 68 100 68.i 105 68 110 68.1 115 68.1 120 68.i 125 68.1 130 68.3 135 68.4 140 68.4 145 68.5 150 68.7 155 68.6 160 68.7 165 68.6 170 68.0 175 6 8. '? 100 68.0 m i TABLE NO. 17 i ' FILE NC 60.5R = 1 ILL; N3 o 1

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UNEXPOSED SURFACE TEMPERATURES (JALL TEST DEG, F 500 .T.C. HO. L ~ 5' ~~';- - -~ 460 ~ ~ ~;.-

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h k 1 t 1 a' UNEXPOSED SURFACE TEMPERATURES UALL TEST 500 !T.C. N O. 2. ~ 450 a-a- ~- ~ - ~. - - ~ - - ~ - - 400 r- .? - 30 + -. - 300 .c..... .;....a. 250 ~ .-?- ?- e. v .? ?- v e, ?- 200 +- 4 I 250 100 . ~ ~- ~ 50.~.... 1 O ~ ' l l 0 -10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 i TIME., MIN. h r {* hF em ON 03 P v

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Uf1EXP OSED SURFACE TEMPERATUREG, DEG F WALL TEST CHAN ( f40S. ) 5 6 7 O TIHE(MIN. ) 5 65.7 65.2 64.0 64.0 10 65.7 65.i 64.6 64.O 15 66.4 65 64.6 64.9 20 67.i 65 64.7 65 25 67 65 64.8 65 30 68.2 65 64.8 65 35 70.2 65 64.8 65 40 72.8 65 64.9 65.2 O 45 75.9 65 64.9 65.3 V 50 79.5 65.i 65 65.5 55 83.4 65.2 65.1 65.8 60 G7.6 65.3 65.3 66.2 65 92.4 65.6 65.6 66.8 70 96.7 65.0 65.9 67.5 75 101.6 66.2 66.3 68.4 00 106.0 66.5 66.0 69.5 OS 112.5 67.1 67.4 70.6 90 117.3 67.6 68.i 71.9 95 121.7 60.3 68.8 73.4 100 128.3 69.i 69.7 75 IOU 137.1 69.9 70.6 76.7 110 144.7 70.9 71.7 70.6 115 150.9 72.1 72.0 80.6 120 153.i 73.3 '74 02.7 125 i44.3 74.6 75.4 04. */ 130 145.4 75.9 76.0 87 135 140.7 77.5 70.3 89.3 140 147.7 79 GO 91.9 145 156.9 80.7 81.7 94.5 150 166 82.4 83.4 97.2 155 172.7 84.2 85.4 100 160 103.2 86.1 87.4 103.1 165 20*7.3 88.2 89.5 106.9 170 234.6 90.5 91.7 110.2 I,3) 175 247.6 93.2 93.0 113.2 d 180 254.7 95.9 96.2 116.4 TAltLE NO. 2 FILE %L99:& ILL.#/- 4 __ _...J

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T.C. NO. 8 4 O

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UNEXPOSED SURFACE TEt1P ER ATUR ES, DEG F WALL TEST CH Atl(NOS. ) 9 10 11 12 T It1E (HIN. ) 5 65.6 65.8 65.6 65.3 10 65.6 65.9 65.6 65.4 15 65.5 65.9 65.5 65.4 20 65.7 6 5.'7 65.6 65.4 25 66.4 66.1 65.7 65.4 30 66.2 66.3 65.8 65.5 35 66.3 66.4 65.9 65.6 40 66.8 66.7 65.9 65.0 (,) 45 67.5 67.1 66.2 66.1 'V 50 60.6 67.9 66.4 67 55 70.i 68.7 66.O 68 60

• /1.0 70.2 67.3 68.5

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r File NC603-2 Page G1 Issued: 12-12-80 IV. GENERAL The subject of this Report is the fire test investi-gation of various cable, conduit and pipe penetration fire stops installed in floor and wall assemblies. The purpose of this program was to evaluate the fire performance of these fire stops when tested in general accordance with the method outlined in IEEE 6 34 (Standard Cable Penetration Fire Stop p Qualification Test). () The program plan consisted of constructing a reinforced-concrete floor slab with two openings to accommodate various type penetrations and a reinforced concrete wall slab which included various conduit penetrations. The floor slab was inserted into a test frame, with vermiculite slabs positioned around the slab to fill the remaining area of the test frame opening. The wall slab was installed in a concrete block wall. Also, an opening was formed in the concrete block wall for an additional penetration. One fire stop system (cables, conduits, pipes, or cable trays, and the associated materials used to fill the opening) was installed in each of the openings provided in the floor and wall assemblies. The floor and wall assemblies were then subjected to fire exposure with the furnace temperatures controlled in accordance with the Standard time-temperature curve as described in the Standard IEEE 634 (ASTM E119, UL 26 3). During the wall test, a positive pressure with respect to the test area was maintained within the furnace chamber. During the floor test, a pressure differential was maintained between the exposed surface and unexposed surface of the test assembly in order that a specified positive pressure exposure condition developed from within the furnace chamber relative to the unexposed surface. Temperatures on the unexposed side of the assembly (cable, fire stop material, interface between {)s fire stop and cable or cable tray) were recorded. Immediately s, after fire exposure of each test assembly, a water spray stream hose stream test was conducted in accordance with the speci-fications of the Standard IEEE 634. The program was supplemented by other tests and examinations which provided additional information regarding the physical properties of the materials used in the test assembly.

File NC603-2 Page T1-1 Issued: 12-12-80 v. TEST g3COgD N O. 1-FL003 TEST A. TEST ASSEMBLY MATERIALS: 1. FLOOR ASSEMBLY MATERIALS Steel Supports - The floor slab (with penetrations) was supported along its north and south sides by W8x20 steel beans, 13 ft, 10 in. long, which in turn were supported by 4 by 6 by 3/4 in. structural steel angles bolted to the () stirrups of the test frame. Concrete Floor Slab - The reinforced concrete floor slab, which contained two openings, was constructed as shown in ILL. 2. The 6 ft, 1-1/2 in, by 6 ft, 5 in. slab was cast with normal weicht concrete consisting of Type II Portland cement, torpedo sand, 3/4 in. size gravel, water, and Darex air entraining agent. The average strength and density of the concrete,as determined from standard 6 by 12 in, cylinders aged 7 days, were 3660 psi and 146.0 pcf, respectively. The floor slab was reinforced with No. 4 and 6 deformed steel bars. Two 6 by 6 by 1/2 in. thick structural steel angles were used along two opposite sides to stiffen the slab along these sides, which rested on the steel beam supports. Filler Slabs - Reinforced vermiculite concrete slabs were used to fill the remaining test frame area about the test assembly. Sand-cement grout and mineral wool batts were used to fill joints between the filler slabs and floor slab, and about the periphery of the filler slabs and test frame. Cementitious Material - The steel beams and portions of the filler slabs were protected with an approximate 1-1/4 in. thickness of cementitious mixture applied with spraying equipment.

2. PENETRATION FSK-A-002 MATERIALS pb Silicone Foam - The foam used was a two part composition of Type DC3-6548 silicone foam (Parts A and B) provided and installed by Brand Industrial Services, Inc.

Metal Box - The metal box enclosure, as shown in ILLS. 3 and 5, for the silicone foam was 14 by 37 by 12 in, deep with two open sides and 1 in, wide flanges for attachment to the floor slab with 1/4 by 2-1/4 in. long masonry anchors. The box was constructed from 16 MSG (0.062 in. thick) galvanized steel.

File NC603-2 Page T1-2 Issued: 12-12-80 Cellular Concrete - The cellular concrete consisted of water, sand, Type I Portland cement, and foaming agent. The strength and density of the concrete at 7 days, as determined from standard 6 by 12 in. cylinders, averaged 1490 psi and 123.0 pcf, respectively. Cables - Various sizes and types of cables were installed into the opening. Information concerning the cable code number and number of cables used in the penetration is rs shown in ILL. 3. Cable Tray - A 7 ft long by 24 in. wide open ladder cable tray was used. The legs of the tray were fabricated from 0.112 in. thick galvanized steel and were channel-shaped, 4 in. wide with 1-1/2 in, deep legs. The rungs of the tray were fabricated from 0.083 in. thick galvanized steel and were 1-1/2 in wide by 7/8 in. deep, spaced 6 in. CC along the legs of the tray. Conduits - One 3 in. diameter, two 2 in. diameter and one 1-1/2 in. diameter Schedule 40 steel conduits were used. Support For Penetrating Items - Several steel angles and a steel plate were used to support the penetrating cable tray and conduits. The angles were 2 by 2 by 1/4 in. thick and the plate was 2-3/8 in, wide by 1/2 in. thick.

3. PENETRATION FSK-A-003 MATERIALS Silicone Foam - Same as in Penetration FSK-A-002.

Metal Box - The metal box enclosure, as shown in ILLS. 4 and 5, for the silicone foam was 13-1/2 by 55 by'6 in, deep with two open sides and 1 in, wide flanges for attachment to the floor slab with 1/4 by 2-1/4 in. long masonry anchors. The metal box was fabricated from 16 MSG (0.062 in. thick) galvanized steel. Elastomer Coating - A 1/8 in, thickness of Type 170 (Parts A and B) elastomer coating was applied to the inside bottom of the metal box prior to the silicone foam installation. The elastomer was provided and installed by Brand Industrial Services, Inc. Cellular Concrete - Same as in Penetration FSK-A-002. Cables - Various sizes and types of cables were installed into the penetration. Information concerning the cable code number and number of cables used in the penetration is shown in ILL. 4.

File NC60 3-2 Page T1-3 Issued: 12-12-80 Cable Trays - Two 6 f t, 6 in. long by 18 in. wide open ladder cable trays were used. The legs of the trays were 4 fabricated from 0.112 in. thick galvanized steel and were channel-shaped, 4 in, wide with 1-1/2 in. deep legs. The rungs were fabricated from 0.083 in. thick steel and were 1-1/2 in, wide by 7/8 in, deep, spaced 6 in. OC along the legs of the tray. Conduits - Two 4 in. diameter and one 1 in. diameter Schedule 40 steel conduits were used. () Support For Penetrating Items - Several steel angles and steel plates were used to support the penetrating cable trays and conduits. The angles were 2 by 2 by 1/4 in. thick and the plates were 3 in, wide by 1/4 in. thick. B. CONSTRUCTION OF FLOOR TEST ASSEMBLY: The floor test assembly was constructed in a test frame as shown in ILL. 1. The steel supporting angles were placed along the east and west sides of the test frame and the two steel beams were spaced 6 ft, 3/4 in. OC about the east-west centerline of the i test frame. The lower flanges of the beams were welded to the support stirrups and the beans were restrained at their ends by steel shins to prevent rotation and longitudinal expansion, respectively, during the fire exposure. The concrete floor slab was placed at the center of the test frame with the north and south sides of the slab bearing 3 in. on the two steel beams. The filler slabs were placed in the remainder of the test frame opening and sand-cement grout and mineral wool batts were used to fill the joints between the filler slabs, test frame and concrete floor slab. The various conduits and cable trays were placed in each -s of the floor slab openings as shown in ILLS. 3 through 7, and welded to the steel angle and plate support framework. The cables were then installed in the trays and wire-tied to the rungs of the trays with 18 MSG galvanized steel tie wire. An opening in the bottom of each metal box was cut out to the approximate shape of the penetrating items. The metal boxes were then secured to the bottom of the floor slab with masonry anchors spaced as shown in ILLS. 3 and 4. The penetrating items (conduits, cables and cable trays) were installed with 1 ft exposed within the furnace (below the bottom of the metal box) and with 3 ft protruding on the unexposed side of the floor slab.

File NC60 3-2 Page T1-4 Issued: 12-12-80 Prior to installation of the silicone foam, the elastomer coating for Penetration No. FSK-A-003 was applied to the inside bottom of the metal box. Also, the various cables of each cable tray were separated and spaced evenly using Kaowool loose fill ceramic fiber between the cables. The same ceramic fiber and a Type DC 732 caulk were used to dam the gaps between the metal box and the penetrating items. The silicone foam, with an average density of 19.4 pcf, was injected into each metal box filling the metal n boxes as shown in ILLS. 3 and 4. The silicone foam was (_) injected through the fill holes in the metal box of Penetration FSK-A-002 to represent a field installation where the silicone foam is injected after installation of the cellular concrete. The silicone foam for Penetration FSK-A-003 was in-jected through the floor slab opening through the open top of the metal box to represent installation of the silicone foam prior to the cellular concrete installation. The cellular concrete was poured over the silicone foam filling the openings in the floor slab flush with the unexposed side of the floor. After installation of the cellular concrete, the exposed surfaces of the steel beams were coated with an approximate 1-1/4 in. thickness of cementitious mixture. The dry material was first mixed with water and then spray-applied directly onto the beam surfaces with some overspray onto the filler slabs of the test assembly. As a final step, steel caps were screwed onto the ends of the conduits of the penetrations on the exposed side of the test assembly. The cable ends were coated with a silicone rubber sealant on the unexposed side of the test assembly. The conduits and cables were capped to retard the passage of hot gases and smoke through the penetrating items. The appearance of the exposed surface prior to the fire test is shown in ILL. 5. The appearance of the unexposed surface prior to the fire test is shown in ILLS. 6, 7, and 8. C. FIRE TEST METHOD: i Equipment - The standard test equipment of Underwriters Laboratories Inc. for testing floor assemblies was used for the fire endurance test.

File NC60 3-2 Page T1-5 Issued: 12-12-80 Also, a 4 ft, 3 in. by 5 ft, 6-1/2 in. size plywood enclosure with reinforced glass on two sides (for visual observations during the test) was placed over the penetrations on the unexposed side of the floor slab in order to create a pressure dif ferential between the unexposed side and the exposed fire side of the test slab. This enclosure, as shown in ILL. 8 employed a damper door over a 6 in. diameter opening on one side and a circular duct connected to a 5-13/16 in. diameter opening on the opposite side of the enclos ure. The other end of the duct was connected to a fan plugged into a variable voltage device to adjust the fan speed and negative pressure in the enclosure. The top of O' the enclosure was hinged in order to vent the enclosure of s smoke and steam during the fire test. Sample Conditioning - The concrete floor slab had aged 77 days prior to the fire test, of which 25 days were in an accelerated curing environment with a temperature level of 300 to 400 F. The silicone foam had aged 2 days prior to installation of the cellular concrete and 13 days prior to the fire test. 1 The cellular concrete had aged 10 days prior to the fita test. Measurement and Observation - The temperatures in the furnace were measured with 16 thermocouples located 12 in. from the exposed surface and symmetrically located in the furnace chamber as shown in ILL. 9. The temperatures of the fire stops, penetrating items, 4 and the floor slab on the unexposed side of the assembly were measured with 65 thermocouples as shown in ILLS. 11 and 12. The thermocouples were covered with asbestos pads or ceramic fiber material. (~% The pressure within the furnace with respect to the \\_) pressure within the enclosure on the unexposed side of the floor slab was measured at three locations. The pressure within the furnace with respect to the atmosphere was measured at two locations on the filler slabs. The pressure measurement locations are shown in ILL. 10. Throughout the fire test, observations were made of the character of the fire and its control, the conditions of the exposed and unexposed surfaces and all developments pertinent to the performance of the fire stops with special reference to integrity and flame passage through the assembly.

File NC603-2 Page T1-6 Issued: 12-12-80 D. FIRE TEST RESULTS: Character And Distribution Of Fire - The fire was luminous and well-distributed, and the furnace temperatures followed the Standard Temperature-Time Curve as outlined in the Standard IEEE 634 (ASTM E119, UL 263) and shown in ILL. 9. Pressure Within The Furnace Chamber - A negative pressure was maintained on the unexposed surface in order gg that the pressure of the exposed side of the floor slab was s'j naintained at an average +0.04 in, water relative to the pressure of the unexposed side of the slab for the 3 br fire exposure duration. The pressure range was +0.03 to +0.05 in. water. The furnace pressure at the exposed face of the filler slabs was +0.02 in water relative to the atmosphere after 1 hr of fire exposure. Observations Of The Exposed Surface - The following observations were made of the exposed surface during the fire test. Time (Hour: Min) Observations 0:2 Cables flaming profusely with black smoke issuing from them. 0:6 Smoke from cables obscuring visual obser-i

vations, l

0:15 Cables still flaming. 0:30 Cables still flaming. A chalky white substance has developed on the cables and metal boxes. 1:25 A report was heard coming from the east side of the test assembly. 1:27 An approximate 3 by 3 ft by 1/8 in. thick bottom layer of the filler slab east of the floor slab had spalled into the furnace. 1:40 A2 ft (approximate) long crack had occurred at the bottom of the south simulated wall section of the floor slab (east side). 2:10 A 3 in. (approximate) wide portion of the east corner of the south simulated wall section had cracked off. The steel support beams had deflected approximately 1 in, at their centers. j

File NC603-2 Page T1-7 Issued: 12-12-80 Time (IIour : Min) Observations 2:35 Flaming from cables has diminished. Exposed surfaces of both penetrations is chalky white in appearance with some orange blotches. 2:50 Light flaming from cables of both penetrations. 3:00 The furnace fire was extinguished. 7-Observations Of The Unexposed Surface - The following (j observations were made of the unexposed surface during the fire test. Time (llour : Min) Observations 0:4 No apparent changes from the start of the test. 0:17 No apparent changes. 0:20 Light smoking from east edge of test frame. 1:05 Light smoking from east and west sides of test frame near stirrups. No apparent changes to unexposed side of floor slab. 1:34 No apparent changes. 2:05 Light steam coming from intersection floor slab and east filler sla'o. 2:14 No apparent changes on unexposed side of penetration. 2:20 Some cracking occurred in filler slabs. () 2:40 Negative pressure enclosure removed from floor slab. Furnace pressure at exposed surface of floor slab was +0.04 in. water relative to the atmosphere. 2:54 Light smoke emanating from the conduits of Penetration FSK-A-002. The unexposed side of the floor slab and penetrations had no other changes relative to the condition of the unexposed side at the start of the test.

File NC603-2 Page T1-8 Issued: 12-12-80 Temperatures Of The Assembly - The temperatures of the fire stops, penetrating items, and floor slab on the unexposed side are shown in ILLS. 13 through 94. E. HOSE STREAM TEST: Sample - The hose stream was applied to the exposed surface of the floor slab 5 min, 59 sec after the fire endurance test. () Method - The test was conducted in accordance with the Standard, IEEE 634. The assembly was subjected to the action of a 75 psi (at the nozzle base) 75 gpm water stream applied with a 1-1/2 in, spray nozzle (set at a 30 deg included angle) at a distance of 10 ft from the exposed surface of the floor slab penetrating items. The water stream was applied for 50 sec and transversed both penetrating sections of the 6 ft, 5 in. by 5 ft, 1-1/2 in. tes t slab. Results - The fire stops withstood the water hose stream test without developing any openings that would permit the penetration of the water stream. F. POST TEST OBSERVATIONS: Exposed Surface - The following general observations were recorded: Most of the exposed surfaces of the cables, conduits, cable trays, and bottom of the metal boxes were covered with a white film. The metal boxes were warped and bowed out on the sides. The galvanized coating had blistered. The flanges of the boxes remained in contact with the bottom of the floor, p (_j The cable jacket materials had been partially consumed and had cracked exposing some of the copper conductors. The cable trays had distroted slightly. The visible portions of the silicone foam material were brittle and crumbled easily when touched.

=.. File NC603-2 Page T1-9 Issued: 12-12-80 l Unexposed Surface - The following general observations were recorded: The cables, conduits, and cable trays appeared undamaged. The cellular concrete had some small, hairline cracks adjacent to the cable trays and one of the 4 in. diameter conduits. The surfaces of the concrete floor slab and cellular concrete had darkened due to some smoking within the negative pressure enclosure. No other significant changes were noted. The appear-1 l ance of the exposed and unexposed surfaces after the fire j and hose stream tests is shown in ILLS. 95 and 96. i i O i l l l 1

File NC603-2 Page T2-1 Issued: 12-12-80 VI. T E S T RECORD N O. 2-WALL TEST 4 A. TEST ASSEMBLY MATERIALS:

1. WALL ASSEMBLY MATERIALS Concrete Blocks - The concrete blocks were nominally 12 by 8 by 15-1/2 in., formed with two core holes and having a minimum 1-1/4 in, face shell and a 1-1/4 in. minimum web thickness.

Concrete Wall Slab - The reinforced concrete wall slab was constructed as shown in ILL. 98. The 5 ft, 6 in. by 3 ft, 1 in, by 18 in. thick slab was cast with normal weight concrete consisting of Type II Portland cement, torpedo sand, 3/4 in. gravel, water, and Darex air entraining agent. The strength and density of the concrete at 7 days, as determined from standard 6 by 12 in. cylinders, averaged 3660 psi and 146.0 pcf, respectively. The wall slab was reinforced with Nos. 3, 4, 5, and 6 deformed steel bars. Ten 4 in, diameter Schedule 40 steel sleeves were located in the slab as shown in ILL. 97. Lintel'- The lintel above the Penetration FSK-A-009 consisted of two 6 by 3-1/2 by 1/4 in. thick steel angles. Cementitious Material - Tha exposed side of the test assembly, excluding the 5 ft, 6 in. by 5 ft, 10 in. pene-tration area, was protected with an approximate 1 in. thick-ness of cementitious mixture spray-applied with water.

2. PENETRATION FSK-A-009 MATERIALS Cellular Concrete - The cellular concrete consisted of water, Type I Portland cement, and a foaming agent.

The () density of the concrete at 7 days, as determined from standard \\> 6 by 12 in. cylinders, averaged 28.1 pcf, respectively. Cables - One size and type of cable was installed into the opening. Information concerning the cable code number is shown in ILL. 99. Eighteen of these cables were installed with nine cables 4 ft long and the remaining nine cables 5 ft long. Cable Tray - A 5 ft long by 24 in, wide open ladder cable tray was used. The legs for the tray were fabricated from 14 MSG (0.084 in. thick) galvanized steel and were channel-shaped, 4-7/8 in. wide with 3/4 in, deep legs. The rungs for the tray were fabricated from 15 MSG (0.069 in. thick) galvanized steel and were 2-1/8 in, wide by 3/4 in. deep, spaced 6 in. OC.

~ W / File NC603-2 Pagg T2-2 Issued: 12-12-80 Q Cable Tray Support - The framework for support of the cable tray consisted of 2 by 2 by 1/4 in. thick steel ,ngles ' welded together and attached to both the' exposed and unexposed sido of the test assembly with masonry anch' ors. The framework extended approximately 26 in. away from the wall on the unexposed side and 11 in, away from the wall on the;cxposed side.

3. PENETRATION FSK-A-010 MATERIALS 1

Metal Box - The metal box enclosure for the silicone foam was 44 by 26 by 10-1/2 in. deep with one open side and 1 in, wide flanges for attachment to the concrete wall slab (with 1/4 by 2-1/4 in. Jong masonry anchors). Fill holes were located in the face of the metal box as shown in ILL. 100. The metal box was fabricated from 14 MSG (0.078 in. thick) galvanized steel. Silicone Foam - The silicone foam used was a two part composition of Type DC3-6548 silicone foam (Parts A~and B) provided and installed by Brand Industrial Service, Inc. Conduits - 14 conduits secured to the metal box (with locknuts) consisted of nine 4 in. diameter, one 3 in. diameter, one 2 in. diameter, and three 1-3/4 in. diameter-Schedule 40 steel conduits. ~ i Cables - Various sizes and types of cables were installed into the conduits through the metal box and through the sleeves of the wall slab. Information concerning the cable code number and number of cables used in each conduit and sleeve is shown in ILL. 100. Ceramic Fiber - The ceramic fiber material used to dam up the conduit and floor slab sleeve openings was 1 in. O thick, Type CER-WOOL 2400 (4 pcf), manufactured by Combustion Engineering Company. B. CONSTRUCTION OF WALL TEST ASSEMBLY: A concrete block wall was constructed within the m 1-test frame, with two openings provided to accommodate pen.9-trations as shown in ILL. 97. The concrete blocks at the periphery of Penetration FSK-A-009 were filled with either sand-cement grout or normal weight concrete. t ? / l. p

File NC603-2 Page T2-3 Issued: 12-12-80 For Penetration FSK-A-009, the cable tray with the various cables resting in the tray, as shown in ILL. 99, 4 rested at the center of the wall opening, on the support angle framework. The cellular concrete was poured into the wall opening (in two stages) using plywood to dam up the opening. The cellular concrete was flush with both the exposed and unexposed side of the wall. The cables and cable tray were installed with 1 ft exposed within the furnace and with 3 ft protruding on the unexposed side of the wall i (except for 9 cables which protruded 2 ft.'Som the wall). For Penetration FSK-A-010, the conduits were secured to the metal box with locknuts, as shown in ILL. 100. The metal box was then secured to the wall slab with masonry anchors, spaced 6 in. OC as shown in ILL. 100. The cables were installed penetrating through the conduits, metal box, and upper five wall slab sleeves. Prior to installation of the silicone foam, the openings in the conduits and wall slab sleevec at the intersection of the metal box were dammed up with a 1 in. thickness of the ceramic fiber material. The cables extended 12 in. into each conduit on the exposed side and protruded on the unexposed side 3 to 5 ft from the surface of the ceramic fiber damming material in the wall slab sleeves. The silicone foam was then injected through the fill holes in the metal box, filling the metal box. The density of the silicone foam averaged 19.9 pcf. The cable ends on the unexposed side of the wall were capped with a silicone rubber sealant. The steel conduits attached to the metal box were capped with a 1/4 in. thick steel plate welded to the end of each conduit. The conduits and cables were capped to retard the passage of hot gases and smoke through the penetrating items. Ten days prior to the fire test, the exposed side Os of the wall assembly, excluding the test penetrations and surrounding wall areas,was protected with cementitious mixture applied by mixing with water and spraying to an approximate thickness of 1 in. The appearance of the exposed and unexposed surfaces prior to the fire test is shown in ILLS. 166 and 167, respectively.

2 File NC603-2 Paga T2-4 Issued: 12-12-80 C. FIRE TEST METHOD: Equipment - The standard test equipment of Under-writers Laboratories Inc. for testing fire resistive wall assemblies was used for the fire endurance test. Sample Conditioning - The concrete wall slab had aged 79 days prior to the fire test, of which 25 days were in an accelerated curing environment with a temperature level of 300 to 400 F. () The silicone foam had aged 14 days prior to the fire test. The cellular concrete had aged 12 days (from the initial pour) and 8 days (from the final pour) prior to the fire test. I Measurement and Observation - The temperatures in the furnace were measured with.12 thermocouples placed 6 in. away from the exposed surface and symmetrically located in the furnace chamber as shown in ILL. 102. j The temperatures of the fire stops, penetrating items on the unexposed side of the assembly were measured with 46 thermocouples as shown in ILLS. 104 and 105. The thermo-couples were covered with asbestos pads or ceramic fiber material. The pressure within the furnace with respect to the test room was measured at five locations, distributed over the height of the furnace, as shown in ILL. 103. Throughout the fire test, observations were made of the character of the fire and its control, the conditions of the exposed and unexposed surfaces and all developments pertaining to the performance of the fire stops with special reference to integrity and flame passage through the assembly. D. FIRE TEST RESULTS: g-] V Character and Distribution of Fire - The fire was luminous and well-distributed, and the furnace temperatures followed the Standard Temperature-Time Curve as outlined in Standard IEEE 634 (ASTM E119, UL 263) and as shown in ILL. 102. Two ( thermocouples recorded cooler than standard temperatures due to shielding caused by location above the metal box of Penetration FSK-A-010. Pressure Within The Furnace Chamber - The observed pressure at the several measurement locations within the furnace chamber during the fire test is shown in ILL. 103. After 15 min test time, a +0.04 in, water pressure was main-tained in the furnace at the penetration portion of the test assembly. 4 1---,g w --

File NC603-2 Page T2-5 Issued: 12-12-80 Observations Of The Exposed Surface - The following observations were made of the exposed surface during the fire test. Time (Hour: Min) Observations 0:3 Cables of Penetration No. FSK-A-009 beginning to flame. The cementitious material is i darkening. 0:14 Flames are issuing from the conduits of Penetration FSK-A-010. Cables of Penetration FSK-A-009 are flaming profusely. 0:31 Flaming is continuing from the ends of the conduits, from the intersection of the conduits and the metal box, and from the fill holes in the metal box of Penetration FSK-A-010. The cables of Penetration FSK-A-009 are still flaming. The cementitious material has rewhitened to its original color. 0:45 The conduits and metal box appear to be covered with a chalky white substance. 0:58 Cables and conduits are still flaming. 1:17 No apparent change - flaming continues. 1:47 Visual observation obscured by flames in furnace. 2:11 A loud report was heard coming from inside the furnace. 3:00 The furnace fire was extinguished.

File NC603-2 Page T2-6 Issued: 12-12-80 Observation of the Unexposed Surface - The following observations were made of the unexposed surface during the fire test. Time (Hour: Min) Observations 0:7 No apparent change in the appearance of the l unexposed surface from the start of the test. 0:33 No apparent change. () 0:47 The color of the grout in the holes of the concrete blocks around Penetration FSK-A-009 is darkening. 1:16 Moisture has appeared on the surface of some of the aforementioned grout. 1:45 No apparent changes since 1:16 test time. 1:52 Light stem is emanating from grout in the holes of the two concrete blocks adjacent to the north and south side of Penetration FSK-A-009, respectively. 2:32 Light smoke issuing from sleeve "A" (refer to ILL. 101) of Penetration FSK-A-010. 2:47 Heavy smoke is issuing from Sleeve "J" (refer to ILL. 101). 2:51 A black liquid is dripping from Sleeve "J. " 2:54 Heavy smoke is continuing to issue from Sleeve "J." l Temperatures of the Assembly - The temperatures of the es g \\ fire stops and penetrating items on the unexposed side are i shown in ILLS. 106 through 163. i l l

File NC603-2 Page T2-7 Issued: 12-12-80 E. IIOSE STREAM TEST: Sample - The hose stream was applied to the exposed surface of the wall assembly 2 min, 34 sec after termination of the fire exposure test. Method - The test was conducted in accordance with the Standard, IEEE 6 34. The assembly was subjected to the action of a 75 psi (at the nozzle base), 75 gpm water stream applied with a 1-1/2 in. spray nozzle (set at 30 deg included f~x angle) at a distance of 10 ft from the exposed surface of the ~') wall. The water stream was applied for 48 sec and transversed f both penetrations in the 5 ft, 6 in. by 5 ft, 10 in. wall test area. Results - The fire stops withstood the water hose stream test without developing any openings that would permit the penetration of the water stream. F. POST TEST OBSERVATIONS: Exposed Surface - The following general observations were recorded: The cable tray of Penetration FSK-A-009 had distorted slightly and was discolored. The jackets of the cables in the tray had been partially consumed exposing an approximate 1 in. length of the copper conductors. The remainder of cable jacket material was blistered and friable. The exposed surface of the cellular concrete had cracked and was easily crumbled for a depth of 1 in. The metal box of Penetration FAS-A-010 was blistered. The sides of the box had bowed outward. The flanges of the l box remained in contact with the wall. The silicone foam in the box was brittle and easily crumbled. There was not foam material in the upper 1/2 to 1 in. portion of the metal box. (y) The portion of the cables inside the metal box were easily l broken and the cable jacket was cracked and charred. The cable jackets at the intersection of the wall slab sleeves and the silicone foam (in the metal box), appeared to had softened but did not char or crack. The silicone foam at this location was still pliable. The ceramic fiber damming material was intact and still white in color. l i

I f File NC603-2 Page T2-8 Issued: 12-12-80 i Unexposed Surface - The cables, cable tray, sleeves (except sleeve "J"), ceramic fiber damming material in the sleeves, and the cellular concrete appeared undamaged. Inside of sleeve "J" there was some silicone foam which had liquified at the bottom of the sleeve. The concrete slab had been discolored below sleeve "J" due to the drip-ping of the black liquid during the test. l The appearance of the exposed and unexposed surfaces 5 after the fire and hose stream tests is shown in ILLS. 166 and 167, respectively. + 4 1 1 i l i l l l l l t

Filo NC603-2 Page S1 Issuud: 12-12-80 VII. S,U_ M M A_ R_ Y_ In consideration of the nature of this investigaticn, the foregoing Report is to be construed as information only and should not be regarded as conveying any conclusions or recommendations on the part of Underwriters Laboratories Inc. regarding the acceptability of the construction or performance of the product for Recognition by any code or standerd or for any other purpose. Each cable penetration fire stop withstood the fire endurance test as specified without passage of flame or gases hot enough to ignite the cable or other fire stop I material on the unexposed side for the duration of the 3 hr i fire test. Transmission of heat through each cable penetration fire stop did not raise the temperature on its unexposed surface above 700 F. Each fire stop withstood the hose stream test without the hose stream causing an opening through the fire stop. Report by: Reviewed by: A?/ 01.7~ M. CUNNINGIIAM K. W. IIOWELL Senior Project Engineer Associate Managing Engineer Fire Protection Department Fire Protection Department MC/KWil:is t \\ D}}