Tg, Index term

lass - transition
lass transition
lass Transition
Tg
TG


Tg, Stop word

% TG
(nm) RTg
/Tg
> Tg
>Tg
After Tg
an δ (Tg)
anδ (Tg)
anδ Tg
at Tg
ATG
atTg
by TG
Change in Tg
CTG
DTG
dTG/
dTg/
E′ (Tg
E′Tg
efore Tg
HTG
J/
MPa
PETG
R (Tg)
R(Tg)
range ofTg
S/cm
STG
T > Tg(tan δ
T Tg(tan δ
Td,Tg
Tf – Tg
Tg (%)
TG (0
Tg (cm3
Tg (eV)
Tg (f)
TG m
Tg − T0
Tg +
Tg) (nm)
Tg+
TGA
TGB
TGD
TGF
TGN
TGP
TGS
TTg
UTG
w Tg
β–Tg
Δ
σdc at Tg


Tm, Index term

elt temp
elt Temp
elting p
elting temp
emperature of melt
Fusion in the
reezing p
Tfus
Tm
TM (°C)
TM (K)
TM (PA11)
TM (TPU)
TMc (°C)
TMp (°C)


Tm, Stop word

 – Tm
%
/Tm/
∆
BET
DTm
elting Peak Enthalpy
FTm
GPa
HTm
or T
ormation
−T
T/T
Tg/Td/Tm
Tg/Tm
Tm (J g−1)
Tm area
Tmax
TMAX
Tmid
Tmin
Tmix
Tm-T
TmTPU
Δ


Td, Index term

5% weight loss
Decomposition
decomposition temperature
degradation temperature
DTGmax
FDT
IDT
IPDT
MDT
Offset temperature
onset [°C]
Onset temperature
Onset TGA curve
Onsets of weight loss
second onset [°C]
T0 (°C)a
T0 [°C]
T10
T2[°C]
T20% [°C]
T20(°C)
T3 (K)
T3[°C]
T30
T5
T–5
T85
T95
Td
Tend
Tf (°C)
TGAc (°C)
Thermal degradation
Thermal stability
Ti (°C)
TI (°C)
Tmax
To (°C)
TON (°C)
Tonset
TOnsetTGA
Tp
TP (°C)


Td, Stop word

%- T
% Td
(h)
(s)
4-DTd
B17T
B45T
B51T10
CM
curing
dewet
Ex
HT1000
HT50
IDT-2BR
Ignition
IN
LCSTend
LCSTonset
m2/g
nm
NT-5
ORTdedop
PAA-T
PBT-5%
PFDT
PNDI-T
rate
SBETd 
T10-
-T10
T10 HB
T100
T10-75
T1080
T5 S1
T500
T54
T560
T5S
Tc, onset
Tdop
Tendob
Tmax (oC)
Tpeak G
Tpre
ZT5
Δ
