So do you simply include the HTPB and the isocyanate as separate
components of the formulation?
On 30 March 2018 at 12:48, Troy Prideaux <troy@xxxxxxxxxxxxxxxxxxxxx> wrote:
It's something I've never worried much about. The MW of a typical HTPB
molecule is in the thousands and when you react it with (say) a typical
diisocyanate, it's only the very ends (hydroxyl) of each molecule that are
affected ie. none of the bulk hydrocarbon chain that we generally are
focusing on for our thermochem.
Troy
-----Original Message-----
From: arocket-bounce@xxxxxxxxxxxxx [mailto:arocket-bounce@xxxxxxxxxxxxx] On
Behalf Of James Padfield
Sent: Friday, 30 March 2018 8:50 PM
To: Arocket@xxxxxxxxxxxxx
Subject: [AR] Accounting for cured HTPB in ProPEP
How do you account for cured HTPB in ProPEP and similar thermodynamic
tools?
For example, let's say I have a composite propellant with a binder that uses
R45 HT at 5.70%, and this is cured with IPDI at 0.54%.
There are entires for R45 HT and IPDI of course, but in reality what is
present in
my cured propellant is 6.24% of a cured polyurethane.
I have just noticed that there is an entry in the PEPCODED.DAF file titled
"HTPB/CURATIVE" - is this a generic entry for cured HTPB?
G 475 HTPB/CURATIVE (JOS) 656C 978H 5N 13O 0 0 -498
.0329
Or does it not really matter and I am worrying about something that really
has
no significant effect on the outcome of the calculation?
Thanks,
James