下載/瀏覽

Download Report

Transcript 下載/瀏覽

Reporter:Chen-Kun Lin
Adviser:Cheng-Chien Wang
2011.03.18
Introduction
 Epoxy resins are widely used as coatings,adhesives,primers,
semiconductor encapsulation and as matrices for advanced
fibre-reinforced composites.
 Epoxy resin systems can be rendered fire retardant either by
the incorporation of fire retardant additives (e.g. triphenyl
phosphate ,decabromo diphenylether, aluminium ethyl
phosphinate ) or by copolymerisation with reactive fire
retardants (e.g. diglycidylether of tetrabromobisphenol A ).
Introduction
 Among non-reactive compounds containing phosphorus,
derivatives of 9,10-dihydro-9-oxa-10-phosphaphenanthrene10-oxide (DOPO)were shown to induce especially excellent
flame retardant properties in both neat epoxy systems and
their fibre-reinforced counterparts.
Experimental
Preparation of neat epoxy formulations
DGEBA was placed in a glass flask and heated to 80–90 ℃using an oil bath connected to a
temperature controller.
The desired amount of the given hardeners was added slowly to the resin and subsequently
the suspension was mixed using a mechanical stirrer operating at 600–1300 rpm until the
compounds were dissolved and the mixtures were clear again.
60 vol.% of carbon fibres
During mixing the temperature was kept constant at 80– 90 ℃.
Experimental
Experimental
Following the mixing procedure, the hot mixtures were poured into a preheated aluminium
mould at 80 ℃.
All epoxy formulations were cured as follows: the curing cycle started with a 2 ℃ min-1 rise
from room temperature to 180 ℃.
This temperature was maintained for 2 h and curing was completed with a 2 ℃ min-1 climb
from 180 ℃ to room temperature.
Evaluation of the decomposition behaviour& fire behaviour
Results and discussion
Decomposition mechanism of the neat epoxy formulations
Results and discussion
Fire behaviour of the neat resin formulations and
of the carbon fibre-reinforced composites
Results and discussion
Fire behaviour of the neat resin formulations and
of the carbon fibre-reinforced composites
Conclusions
 When 2 was substituted for DDS as a hardener for the neat
epoxy resin system, the LOI was improved significantly; an
increase of about 13% was achieved with a phosphorus
content of 4.5 wt.%.
 A similar impact on flammability was also achieved for the
composite based on DGEBA/DDS/2 with 60 vol.% carbon
fibres and an overall phosphorus content of only around 1
wt.%. The LOI of the composite DGEBA/DDS/2 was
increased by 17% and the UL 94 improved to a V-1
classification from the HB for the analogous DGEBA/DDS
composite.
Conclusions
 Addition of 1 the PHRR and the THE were improved
crucially due to flame inhibition,whereas the charring
induced in the DGEBA/DDS/2 composites could not be
exploited with respect to PHRR and THE.
 The incomplete combustion led to an increase in total
smoke release (TSR) and in CO production.
實驗報告
Zetasize
0225
-140
-120
-100
Zeta
-80
-60
-40
-20
0
1
2
Run
3
Zetasize
-140
0304
-120
-100
Zeta
-80
-60
-40
-20
0
1
2
Run
3