NBS Special Publication, Issues 411-415U.S. Government Printing Office, 1974 |
From inside the book
Results 1-5 of 100
Page xviii
... exposure to an open flame , the selec- tion of a Bunsen type of burner is justifiable . This is in contrast to the ... exposure times as com- pared to tests conducted at longer exposure times . Figure 1 shows the effect of flame ...
... exposure to an open flame , the selec- tion of a Bunsen type of burner is justifiable . This is in contrast to the ... exposure times as com- pared to tests conducted at longer exposure times . Figure 1 shows the effect of flame ...
Page 2
... exposure time . Figure 2 shows the test results of a series of nylon fabrics exposed to a 3 second flame and a 3 plus 12 second flame , as described in the proposed standard . The effect of the increased time was to simply shift the ...
... exposure time . Figure 2 shows the test results of a series of nylon fabrics exposed to a 3 second flame and a 3 plus 12 second flame , as described in the proposed standard . The effect of the increased time was to simply shift the ...
Page 8
... exposure to an open flame , the selec- tion of a Bunsen type of burner is justifiable . This is in contrast to the ... exposure times as com- pared to tests conducted at longer exposure times . Figure 1 shows the effect of flame ...
... exposure to an open flame , the selec- tion of a Bunsen type of burner is justifiable . This is in contrast to the ... exposure times as com- pared to tests conducted at longer exposure times . Figure 1 shows the effect of flame ...
Page 9
FLAME RETARDANT TREATED COTTON 1 2 3 4 5 6 7 8 9 10 11 12 Figure 1 . FLAME EXPOSURE ( SECONDS ) The effect of impingement time on char length for a well treated ( top ) and marginally treated ( bottom ) cotton . 9.
FLAME RETARDANT TREATED COTTON 1 2 3 4 5 6 7 8 9 10 11 12 Figure 1 . FLAME EXPOSURE ( SECONDS ) The effect of impingement time on char length for a well treated ( top ) and marginally treated ( bottom ) cotton . 9.
Page 10
... exposure time . Figure 2 shows the test results of a series of nylon fabrics exposed to a 3 second flame and a 3 plus 12 second flame , as described in the proposed standard . The effect of the increased time was to simply shift the ...
... exposure time . Figure 2 shows the test results of a series of nylon fabrics exposed to a 3 second flame and a 3 plus 12 second flame , as described in the proposed standard . The effect of the increased time was to simply shift the ...
Contents
5 | |
20 | |
37 | |
50 | |
59 | |
90 | |
103 | |
125 | |
139 | |
154 | |
165 | |
178 | |
195 | |
201 | |
215 | |
230 | |
237 | |
1 | |
13 | |
21 | |
33 | |
41 | |
57 | |
65 | |
49 | |
50 | |
55 | |
55 | |
vi | |
13 | |
19 | |
37 | |
45 | |
55 | |
63 | |
75 | |
83 | |
91 | |
Other editions - View all
Common terms and phrases
aerosol sprays analysis analyzer antiperspirant Applications atomic beam Building Bureau of Standards burn room calibration calorimeter Capability carbon monoxide carpet ceiling cellulose char length chemical Chemistry combustion concentration Contact corridor cotton crib density detector determine diameter distribution droplet effect electrical electron energy Engineering fabric facility fire department fire investigation Fire Research Fire Safety fire tests firefighters flame retardant flame spread flameover flammability flow frequency Gaithersburg gypsum board hazard heat ignition source inches instrument intensity involved isotopes laboratory laser light scattering Literature mass materials ment micrometer molecular National Bureau NBS Reactor neutron nylon operation optical optical density oxide oxygen particles percent phase Phone phosphorus polymer problems pyrolysis radiant flux radiation range sample Section smoke soffit specimen spectrometer spray structure studies surface Tech techniques Technology temperature test method thermal tion vertical wall