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|  DSH 752
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| Definition of a flame for glow wire test
: L# v/ O% x. F5 C6 s( j1 g! x7 B | 11-12$ O& m6 V- m" _, S. N: Y# L( B
| 60695-2-11 & 60695-2-12 & 60695-2-13
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Standard(s): No. Year
# `6 i# Y# Q0 C- [IEC 60695-2-114 Y3 X6 |0 x* F5 N/ b+ x9 J0 F
IEC 60695-2-12
$ g* K, A/ P5 O% b0 dIEC 60695-2-132 r( R1 Q7 w3 N4 s" W1 e# v
DSH 0752
- w, p! ]5 r! j# ]! q2009
" E# B- q7 K' ICategory:
- b5 @3 n6 N# u: V8 X+ WVARIOUS - GENERAL, t5 R7 f0 {" x$ l: V1 z! f
Sub-clauses:( k3 U' u; }. b! S. O7 p2 \
11 - 12# M; ^/ w2 K& i( e3 u4 k! T1 V
Developed by:' u/ M$ u5 m1 w; z
WG4 – WG2
* h3 E5 H6 M0 M+ l U# I" zSubject:
8 l9 N% p$ e/ L0 h0 tDefinition of a flame for glow
; M/ R7 Q2 s. d0 x: `+ m* ?wire test
% O( S5 l0 ?2 S0 c3 T- M( l7 wKey words:
, |( F7 w B0 s* K! k- Glow wire test# T8 r7 Q" R' K2 N# b
- Flame
7 K4 X6 Z. S) `: P: `- Corona Effect
' r( n% ?+ O2 N3 Z- Ionized gasses, g/ v- N* ~6 R" G
- Ignition of the sample) O* E5 _1 G4 _: k
Approved at the 47th CTL
8 Y& d* L" {. g! B, e/ F( e# q3 YPlenary Meeting, year 2010.# }* L! S0 Z' u) r& M
Question:
3 P5 e t; ^) THow is the “Corona-Effect” to be interpreted when performing the Glow Wire Test?
0 A8 P+ Z# y5 J! j/ w7 E+ @: [: ADecision:4 x; R! Y& o5 p: e0 ^3 m" p2 L' }
During the glow wire test (according to the temperature settings required by the standard), the
$ q0 d% _0 e/ H4 l" Gfollowing phenomena can occur:
9 S# `5 H# Z: N0 L# v. m5 M1. If a brightly shining flame is observed directly at the test specimen (see picture 1), this is a% P, y; F' i/ Z1 U# x2 |- h
clear indication of an ignition. Some materials show a colourless transparent flame1 d! K$ N, U+ R7 M8 f# q
instead of a bright shiny flame. This is considered to be ignition of the test specimen, if the
Y) r" k& V& L9 `. k: g: |" Y9 F) Rmaximum flaming time allowed by the standard is exceeded.& L4 |) B5 }( o; [5 }( }
2. Sometimes, a circular corona can be observed around the tip of the glow wire, see picture }+ j3 C8 m; r% ? v4 _
2. This corona consists of ionized gas, predominantly blue in colour and is located in the
1 K. i3 m) ~( y! z" f: L/ _; Eimmediate vicinity of the glow wire. This phenomenon is not considered to be ignition of' c8 }; R7 [! O9 ?
the test specimen, as long as it does not lead to an ignition of the test specimen according
) ?* c, U" D: X# Dto point 1.
+ t) X0 v- C) T4 t3. Furthermore, ionized gasses can sometimes be noticed along the glow wire (see picture
6 m' @# t- ^; C! r6 l3). This effect is also not considered to be ignition of the test specimen, as long as it does: V0 K+ `0 D) ]0 K. n8 \ V9 e4 r
not lead to an ignition of the test specimen according to point 1.
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