Sean,
This one may help ?

http://www.google.ro/url?sa=3Dt&rct=3Dj&q=3D&esrc=3Ds&source=3Dweb&cd=3D5&v=
ed=3D0CDIQFjAE&url=3Dhttp%3A%2F%2Fwww.researchgate.net%2Fprofile%2FMohamed_=
Morsy4%2Fpublication%2F4049794_Thermal_aging_tests_on_XLPE_and_PVC_cable_in=
sulation_materials_of_Saudi_Arabia%2Flinks%2F02bfe51030aaf73f5b000000.pdf&e=
i=3DiVgQVczfL4e7UajBg7gK&usg=3DAFQjCNHqNj41Y5DKS9S0pcbrOPJ4B-3ZUw&sig2=3Dmw=
nHotCVoVMTCNNVFp5Kug&bvm=3Dbv.88528373,d.d24

On Mon, Mar 23, 2015 at 7:35 PM, Sean Breheny <shb7@cornell.edu> wrote:

> Hi all,
>
> I am looking at an application where 105C rated PVC insulated wire may
> spend several years at 90C. I am trying to find information on whether th=
is
> is feasible (i.e., whether the insulation will still be intact with
> reliable mechanical and electrical properties like flexibility). My initi=
al
> searches seem to indicate that this is an active research area, which is
> surprising given that there are surely quite a few power supplies out the=
re
> which run hot and have PVC wire so it would seem like it would be fairly
> easy to gather data from the real world.
>
> Any pointers?
>
> Thanks,
>
> Sean
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