Select a Node by ID
TTI(s)
TTI (s)
TTI (s)
TTP (s)
THR (MJ m ²
THR (MJ/m²)
THR (mJ/m²)
THR (MJ/ m²
THR (MJ.m²)
THR/MJ/m²
THR(MJ/m²)
THR [MJ/m²
THR (MJ/m2)
THR (MJ/ m ²
THR (MJ m²
PHRR (MJ/m²)
LOI (%)
LOI (%)
LOI(%)
LOI (V/V%)
LOI (%)
Tp (C)
Tg (C)
Tg (°C)
Tg (°)
T5 (C)
T1 (C)
Tr (C)
To (C)
Tgb (°C)
Tga (°C)
Tg(C)
Tg a (C)
Tg (°C) b
Tg (°C)
Tg (C)
Tf (C)
Tc (C)
T8 (C)
T (C)
AT (C)
T (°C)
Tension strength (MPa)
Tensile strength (MPa)
Tensile strength [MPa]
Tensile strength /(MPa)
Tensile strength (Mpa)
Tensile Strength (MPa)
Tensile strengh (MPa)
Tmax2 (C)
Tmax (C)
Tmax1 (C)
Tmax (°C)
Tmax (C) max
Tmax ( C )
TGA Tmax (C)
b Tmax (C)
Tx (C)
Tmax1 (C)
Tmax(°C)
Tmax( °C)
Tmax max (C)
Tmax d (°C)
Tmax a()C)
Tmax (°C)b
Tmax (°C)
Tmax (C) N2
Tmax (C)
Tm (C)
Tdmax (C)
Tdm (C)
TdTGmax (C)
Ta (C)
T2max (C)
T1max (C)
Tmax2 (°C)
Tmax (C) air
RTmax (%/°C)
p-HRR (kW/m²)
PHRR (kW/m²)
pHRR (kW/m²)
pk-HRR (kW/m²)
PHRR (kW/m2)
av-HRR (kW/m²)
PHRR (kW/m²
PHRR (kW m ²
p-HRR (kW.m²)
PHRR(kW/m2)
PHRR" (kW/m²)
PHRR" (kW/ m²
PHRR kW/m2
PHRR kW m²
PHRR (kW/m² + 40)
PHRR (kW/ m² 2
PHRR (kW/ m²
PHRR (kW m²
P-HRR (kWm-2)
AyHRR (kW/m²)
Pk HRR (kW/m²)
Peak HRR (kW/m²)
PHRR (W/g)
MAHRE (kW/m²)
IRR (kW/m²)
Av-HRR (kW/m²)
Elongation at break/%
Elongation at break (%)
Elongation at break [%]
Elongation at Break
TSP (m²
TSP (m ²
TSP (m²)
TSP (m )
TSPa (m ²
TSP(m²)
TSP (m ²/kg)
TSP (m ² m²
Tonset o C
Tonset (C)
Tonset a (C)
Tpost (°C)
Tonset (C) +2
Tonset (C)
Tendset (C)
Onset (°C)
Endset (C)
DGEBA (g)
DGEBA (g)
DGEBA (wt%)
DGEBA (%)
Td5% (C)
T5% (C)
T50% (C)
T5%(°C)
T5% (°C)
d5% (C)
Td3% (C)
Td,5% (C)
T5d (C)
T50wt% (C)
T5%C (C)
T5%(°C)
T5%(C)
T5% b (C)
T5% ( C )
T10% (C)
T1% (C)
T-50% (C)
T-5% (C)
T5wt% (°C)
T5% (C) N2
0.1
.1
EHC (mJ/kg)
av-EHC (MJ/kg)
Av-EHC (MJ/kg)
Mean EHC (MJ/kg)
EHC (MJ/kg)
av-EHC(MJ/kg)
av-EHC (MJ/Kg)
av-EHC (MJ.kg-1)
av-EHC (MJ kg-1)
a-EHC (MJ/kg)
EHC (MJ/ kg)
Avg EHC (MJ/ kg)
AvEHC (MJ/kg)
Av-EHC (MJ kg-2)
AEHC (MJ/kg)
Char yield/%
Char yield (%)
Char yield [%]
Char yield (wt%) d
Char yield (%) 700 °C
Char yield (%) (STD)
Char yield
Char Yield (%)
av-CO2Y (kg/kg)
av-COY (kg/kg)
Mean COY (kg/kg)
av-COY(kg/kg)
av-COY (kg.kg-1)
av-COY (Kg/Kg)
av-CO2Y (kg.kg-1)
av-CO2 (kg-kg-1)
av-CO (kg.kg-1)
av- CO2Y (kg/kg)
CO2Y (kg/kg)
AV-COY(kg/kg)
COY (kg/kg)
UL-94 V
UL-94
UL-94
UL- 94
Residue (wt%)
Residue (%)
Residue (wt.%)
Residue (wt %)
Residue (mass%)
residues (wt%)
residue (%)
Residue8 (wt%)
Residue at (wt%)
Residue / %
Residues (%)
Residue Left (%)
Residual (%)
Element o
Element C
Tpeak (C)
Tp 2 (C)
Tp 1 (C)
Tp (°C)
Tep (°C)
LOI (vol%)
P content (%)
P content (wt%)
content (wt.%) o
content (wt.%) P
content (wt.%) N
P content (wt%)
P content (wt%
content wt%
content (wt.%) S
content (wt.%) Al
content (wt %) o
content (wt %) S
content (wt %) P
content (wt %) N
TMT content (wt.%)
P-content (wt %)
P contents (wt%)b PNP
P content b (wt%)
P content (wt/%)
P content (wt.%)
P content (wt.%)
P content (wt.%
P content (wt. %)
P content (wt %)
MFR content (wt. %)
FR content (wt%)
F-content (wt %)
glass content (wt%)
PBI content (wt%)
P-content (wt%)
P contents (wt%)b PNS
P contents (wt%) PNS
P contents (wt%) PNP
HMCP content (wt%)
Filler content (wt%)
EG content (%)
DOPO P content (wt%)
DOPO EG content (wt%)
DDM (g)
DDM (g)
DDS (g)
DDM (%)
DDS (g)
DDM(g)
DDM(g)
DDM ( g)
DDM(g) (g)
pk-HRR (kW/m2)
pHRR (kWm-2)
p-HRR (kW.m2)
av-HRR (kW/m2)
Mean CO2Y (kg/kg)
AV-CO2Y(kg/kg)
TSR (m ²/m2)
TSR (m ²/m²)
TSR(m²/m²)
TSR (m².m²
TSR (m²)
TSR (m ²/m²
TSR (m ² m ²
TSR (m [2]/m²
Residue (wt% + 1.0)
Ref.
Ref.
Ref
t1 (s)
tp (s)
t2 (s)
pHRR (W/g)
Tds (C)
Td5 (°C)b
Td5 (°C)
Td10% (C)
Td,1% (C)
Td (C)c
Peak SPR (m²/s)
PSPR (m ²/s)
p-SPR (m²/s)
SPR (m ²/s)
Peak SPR (m ²/s)
PSPR (m ²/ s)
PSPR (m²/s)
DOPO-PHE (g)
DOPO (g)
UL-94 rating
UL-94 rating
UL-94 Ratings
UL 94 rating
UL-94 (3 mm)
UL-94 (3.2 mm)
UL94 (3 mm)
UL94(3.2 m)
UL-94 3.0 mm
t-PHRR (s)
TPHRR (s)
TTPHRR (s)
TT-PHRR (s)
THR MJ m ²
THE (MJ/ m ²
T2 (°C)
Tg(°)
Tg °C
T1 a(°C)
Tensile modulus [GPa]
Tensile modulus (GPa)
Tensile modulus /(MPa)
Tensile Modulus (MPa)
Tensile modulus (MPa)
C (wt%)
P (wt%)
N (wt%)
o (wt%)
P (wt.%)
N (wt %)
DOPO (wt%)
APP (wt%)
o (wt %)
P% (wt.%)
P (wt %)
O (wt %)
EP (wt %)
CPD (wt.%)
S (wt%)
P (at%)
O (wt%)
H (wt%)
EP (wt%)
DPOD (wt%)
CY (wt%)
APHP (wt%)
Flexural strength MPa
Flexural strength (MPa)
Flexural strength (MPa
Flexural Stress (MPa)
Entry
Entry
Curing agents
Curing agent
Curing agent HDDM
CY (wt%)
C (wt %)'
C (at%)
WCl6 (wt%)
CNTs (wt%)
C (%)
0.2
.2
Tmax2(°C)
TTI /s
TTI/s
AHd (J/g)
AH (J/g)
AH (Jg-1)
Young's modulus (MPa)
Young's modulus (GPa)
THR (kJ/g)
THR (kJ/g)
HRC (J/gK)
THR (kJ/ g)
Reduction (%) PHRR
Reduction (%) THR
content (%) o
content (%) Si
content (%) N
content (%) Cl
P content
N% (wt.%
N (wt.%)b
N (at%)
SYN (wt%)
N (%)
NEP
EP
mm) Dripping
Dripping
Dripping
bar Dripping
o (at%)
content (wt o
content (%) N/C
UL-94 (3
T10 (C)
Residue at 700 °C (wt%)
Residues at 800 °C (%)
Residue at 800 °C (wt%)
Char residue at 800 °C (%)
Residues at 800 °C(%)
Residues at 800 O C (%)
Residues at 800 C (%)
Residues at 700 °C(%)
Residue at 800 °C (wt %)
Residue at 700 °C (%) a
Residue at 500 °C (wt%)
Residue at 400 s (wt %)
Residuals at 700 °C (wt.%)
Residual yield at 800 °C (wt%)
Char residue at 800 °C (%
TGA Residue at 800 °C (wt. %)
Char residues at 700 °C (wt%)
Char residues at 700 °C (wt%
PHRR/kW/m2
PHRR (kW m-2
Elastic modulus (GPa)
Elastic modulus (MPa)
EHC MJ/kg
AEHC³ (MJ/ kg)
Cured epoxy resins
Cured epoxy resin (wt.%)
Cured epoxy resin (wt. %)
Vmax (%/°C)
Tmax (°C) Air
amax (% °C)
Thermal conductivity, Wm-1 K-1
Thermal conductivity (W/mK)
ASEA (m ²/kg)
SEA (m/kg)
modulus (GPa)
Modulus (MPa)
av-MLR (g/s)
MLR (g/s)
AMLR (g/m2 s)
AMLR (g/s)
MARHE (kW/m2)
MARHE (kW/m²)
MAHRE (kW.m²)
LOI
LOI
FIGRA ((kW/m2.s)
FIGRA (kW/m²s)
FIGRA b (kW/m2/s)
FIGRA (kW/m2s)
FIGRA (kW/m2.s)
FIGRA (kW/(m2.s))
FIGRA (kW/
FGR (kW/m2/s)
FGR (kW/m2.s)
FGR (kW/ m²/s)
E° (kJ/mol)
Ek (kJ/mol)
Ed (kJ/mol)
E2 (kJ/mol)
E1 (kJ/mol)
E (kJ/mol)
E (KJ/mol)
(kJ/mol)
EP (g)
EP (g)
EP (%)
Char residue (%)
Char residue (wt%)
Char residue (wt.%)
Char residue (wt%) 700 °C
Char residue (wt % %)
Char Residues (%)
Char residues
°C (%)
CY (%)
Y(%)
C (%)b
CY600 (%)
CY500 (%)
tpeak1-HRR (s)
tpeak2-HRR (s)
tpeak2-SPR (s)
tp-HRR (s)
tpeak1-SPR (s)
retardant (wt.%) DOPO
retardant (wt.%) P
retardant (wt.%) Si
(MPa)
o (MPa)
of (MPa)
Of (MPa)
Ob (MPa)
O (MPa)
E° (MPa)
Et (MPa)
concentration (%) o
concentration (%) N
concentration (%) P
Total HR (kJ/ g)
Tmax( C) 2
DTG Tmax ( C )
time of pHRR [s]
Time of pHRR (s)
Time to PHRR(s)
Time to PHRR (s)
Tg(°))
Td30 (C)
Td30 (C)c
TSR/m² m ²
TSR/m² m-²
TSP (m ² kg-1)
THR (MJ.m-2)
THR (MJ m-2)
TGA T5 (C)
T5 b (°C)
T10 C
T 20 o C
T 50 o C
T 10 o C
Residual mass (%)
Residual mass(%)
Rs/S2.cm2
Rct /S2.cm2
R2
R2
Peak temp. (C)
Peak Temp. (°C)
Peak SPR (m² s-1
Peak HRR (W/g)
Peak HRR (W/ g)
PHRR (W/ g)
pk-HRR /kW m-2
PHRR/kW m-2
av-HRR /kW m-2
PHRR/kW m-²
Peak2-HRR (kW m ²
Peak1HRR (kW m ²
PHRR / kW m²
Epoxy content (wt%
POSS content [wt%]
Si (wt.%)
LOI (vol %)
LOI/%
PDT (C)
IPDT (C)
IDT (C)
HRC (J/ goK)
Flexural modulus (MPa)
Flexural modulus (GP
Flexural modulus. (GPa)
Flexural modulus (GPa)
FIGRA (kW/(m2 2 s))
FGR (kW/(m2.s))
FGI (kW/s*m2)
FGI (kW/s*m²)
av-EHC /MJ kg-1
EHC/MJ kg-1
EHC/MJ kg~
Postcuring temperature (C)
Curing temperature (C)
Curing temperature (°C)
Char yields at 800 °C (%)
Char yield at 800 °C (%)
Char residue at 800 °C + 0.2
Char residue at 800
B (C/min)
(C/min)
B (°C/min)
(%/min)
% Increase
% Increase.1
(1 (s)
a-max2 (%/°C)
a-max1 (%/°C)
a-max a (%/°C)
Rmax (wt%/°C)
Viscosity (cP)
Viscosity (cp)
Viscosity (Pa s)
T5%, °C
T5% + 1 (°C)
Tb. -5% (°C)
Si content
Rmax (% min-1)
Rmax (%/min)
Rmax (% min-1
MLRmax (%/min)
DWmax (%/min)
Reference
Reference
References
Re
Rw (%)
RW (%)
W (%)
Rf (%)
Phosphorus contents (wt.%)
Phosphorus content (%)
phosphorus content (wt%)
Phosphorus content (wt%)
Flexural modulus 0.2-1% (MPa)
Filler content
EG (GPa)
Ef (GPa)
E, (GPa)
E' (GPa)
E (%)
TCE (%)
H (%)
Ef (%)
Eb(%)
Eb (%)
E1 (%)
DOPO (wt%)
DOPMPA (wt%)
DMA Tga, (C)
DMTA Tg (C)
Curing time (h)
Curing time (min)
Burning t ime (s)
Burning time (s)
P Content
Content
Contact angles (°) Owater
Contact angle (°)
BPA-BPP (wt%)
APP (%)
T,(°C)
(°C)
T(°C)
(°C)
°C)
(C)
G'(MPa)
(MPa).1
Ts(MPa)
at 700 °C (wt.%) Calculated values
°C (wt%) Calculated values
800 °C(%) O Calculated value
yP (mJ/ m²
yd(mJ/ m ²
Y (mJ/ m ²
B-Transition (C)
y-Transition (C)
v, (%/min)
t2(s)
residue (%) °C 700 C
residue (%) 500 o
residue (%) C 600
procedures Tf (C)
procedures Tpd(C) d
AMLR g s-Superscript(1)
pk-MLR /g s-superscript(1)
Peak1SPR (m ² s-1
pSPR (m ² s-1
pHRR [kW/m2]
pHRR (W g-1)
PHRR (W/g)
p-COP (g/s)
p-COPR (g.s-1)
p-CO2P (g/s)
PCO2P (g/s)
PCOP (g/s)
N on surface / % 4
o on surface / % 1
C on surface / % 94
k2 [min-1]
ko [min-1
k1 [min-1]
k2 (min-1)
k1 (min-1)
A (min-1)
A (s-1)
k (s-1)
content (%) Si/C
composition (wt.%) S
composition (wt.%) o
composition (wt.%) P
composition (wt.%) N
composition (wt%) N
composition (wt%) o
composition (wt%) P
Avg CO2 (kg/ kg)
atmosphere Char (700 °C, wt %)
atmosphere.1$$ Char (700 °C, wt %)
Air atmosphere T% (C)
atmosphere IPDT (C)
atmosphere.1$ IPDT (C)
atmosphere Tmax (°C)
atmosphere Tmax (C)
Residue at 700 °C (wt%) Calculated values
a-max (% °C-1)
B Relaxation AH kJ mol-¹
a Relaxation AH kJ mol-¹
B Relaxation AS JK mol-¹
Yield Strength (MPa)
WA (J/ m ²
Wc(%)
Ws(%)
WN(%)
Weight ratio BCy
Weight ratio -
Ve (mol-m 3
Ve (mol/ dm³ 3
Ve (mol m -3
Ve (mol/m³)
Ve (mol/dm³)
Ultimate bending strength, ubs (MPa)
Ultimate tensile strength, uts (MPa)
UL94 rating Vertical burning test
UL94 rating Horizontal burning test
UL94 (3 mm) Dripping
UL-94, 3.0 mm Dripping
UL-94 (3 t1 (s)
UL-94 t1(s)
T°C)
TB (C)
AT (C)
Ts
Tsd
Tp,1° C°
Tp,2° C°C
Tp Tp,1 (C)
Tp Tp,2 (C)
Tp (°))
Tp (C) Tp2
Tp (C) Tp1
Tmax6, °C; %/min
Tmax7, °C; %/min
Tmax5, °C; %/min
Tmax4, °C; %/min
Tmax3, °C; %/min
Tmax2, °C; %/min
Tmax1, °C; %/min
Tmax(°C) Air
Tmax/°C
T%(°C) Air
Tg (C) (STD)b
Tmax d (C) (STD)b
T5% (C) N superscript(2)
Tmax (°C + N superscript(2)
Tin (C)
TgDMA/ O C
TgTMA/ o C
Tg(DMA) (C)
Tg,DMA (C)
Tg, °C
T(°))
Tg(DSC) (C)
Tg [°C]b
Tg [°C]b
T [°C]
T10 [°C]b
Tg[°C]
T,(°C)
Tg (C) DSC
Tg (C) DMA
TID (C) (STD)b
TD5 (C) (STD)b
T g
Tg
Temperature (C)
Temperatures Tmd (C)
Temperatures Tfd (C)
Temperature [K]
Peak temperature (C)
Td30%/°C
Td5%/°C
T5%/°C
Td,1% (°C)
Td, 2%(°C)
THR/MJ m-²
THR/MJ m-2
THR/MJ m 2
THE / MJ m ²
HRC (J/gk)
TGIC-DOPO (g)
TGIC-DOPO (wt.%)
TGA in air 5% loss (°C)
TGA in N2 5% loss (C)
TGA analysis LOI (%)
TGA analysis T5% (C)
TGA analysis Tmax (C)
TGA analysis T10% (C)
DMA analysis Tg (C)
TGA T5% (C)
TGA T2% f (C)
TGA T70% (°C)
TGA T50% (°C)
TGA T50 (C)
T80 [°C]
T10 [°C]
T5wt%(°))
T50% + 1 (°C)
T5% (C) air
T5% (C) Air
T5% (C)$$ N2
T5% (°C N2
T5 [°C]ª
CTE T10% (C)
Sq (nm) Before
Sz (nm) Before
S (nm) Before
Storage modulus at 30 C (MPa)
Storage modulus at T8+40°C (MPa)
Storage modulus at 250 °C (MPa)
Storage modulus at 25 °C (GPa)
Storage modulus at 200 °C (MPa)
Storage modulus at 150 °C (MPa)
Storage modulus at 0 °C (MPa)
Storage modulus 30 C above T,/(MPa)
Storage modulus (MPa)
Storage Modulus (MPa)
Storage Modulus (E'g) at 30 °C (Mpa)
Storage modulus E' (MPa) at 25 °C
Storage modulus E' (MPa) at Tg + 30 °C
DMA Storage Modulus [MPa]
Second heating Tm2 (C)
Second heating Tm1 (C)
Second heating AHm1+2 (J/g)
Second cooling (J/g)
Second cooling T (C)
STZ (wt%)
SAFT (C)
Rs/S2.cm2 2
Re/S2.cm2 2
Rpo/S2.cm2
Rpo/s2.cm2 2
R (%) S2- S1
Rf (%) S0-S1
R (%) S1-S
Residue in wt.% + 1.0
Residue at 700 °C (wt%) Test values
Residue at 700 Test values
Residue Test values
R (MO cm²
Rct (MS cm²
R1peak/T1peak (% min-1/°C)
R2peak/T2peak (% min-1 1/°C)
Postcure temperature (C)
Post cure temperature (°C)
Postcure time (h)
Postcuri time (m
Post cure time (h)
Peak2HRR (kW m-²)
Peak1-HRR (kW m²)
Peak HRR (kWm-2)
Peak2CO2P (gs-1)
Peak2COP (gs-1)
Peak1COP (gs-1)
Peak1CO2P (gs-12)
Peak1-SPR (m² s-1)
Avg HRR (kW/ m²
Amine grafted percentage/%
PGMA grafted percentage/%
PEI-Si mol (%)
PEI-Si wt (%)
The P-HRR (kWm-)
N content material in wt.% + 0.4 wt.%
P Content material in wt.% + 0.1 wt.%
N content in wt.% + 0.4
P Content in wt.% + 0.2
N content final residue in wt.% + 0.4 wt.%
P Content final residue in wt.% I 0.1 wt.%
P (%)
Air atmosphere MLRmax (%.min. 1)
N subscript(2) atmosphere MLRmax (%.min. 1)
N (%)b
M of F- rPPO (x103 3 g/mol)
Mn of F- rPPO (x103 g/mol)
Mean SEA (m ²/kg)
Mw (g/mol)
Mc (g/mol)
Mn (g/mol)
MPP in wt.%
MPZnP in wt.%
DGEBA [mol]
MDEA [mol]
LOI value (%)
LOI value (vol.%)
KC (MPa m 1/2
KC (MPa m 1/2)
K (MPa.m 1/2)
K (MPa . m 1/2
Impact strength (kJ/m²)
Izod impact strength (kJ m ²
Impact strength (kJ/ m²
Impact strength (kJ m ²
Impact strength (kJ m -2
Intensity (MPa) b
Intensity (MPa)b
Impact strength (kJ/m2)
Impact strength (J)
Impact strength (KJ/m²)
Heating rate °Cmin -1
Heating rates (q) (°C min-1
Heating rate o Cmin -1
Heating rate (B) (°C min-1
Heating rate (B) (°C/min)
Heating rate (C/ min)
Heating rate B (C/min)
HRC (J/g k)
Glass transition temperature Tg (C)
Glass transition temperature °C
GPTMS mol (%)
GPTMS wt (%)
GIC (J/m²
GIC (kJ m ²
GIC (J m ²
GIC (kJ/m²)
E' at 50 °C (MPa)
G' at 25 °C (GPa)
E' at 130 °C (GPa)
D Peak Peak position (cm-1)
G Peak Peak position (cm-1
First-order model qe1 (mg/g)
First-order model k1 (min-1)
Final residue in wt.% + 1.0 wt.%
Final residue in wt.% I 1.0 wt.%
Cal. residue in wt.%
Final residue in wt.%
Filler Content Wt. %
Feed terpolymer weight fraction
Feed terpolymer* weight fraction
FPI (m ²/s/ kW)
FPI (m ²/sW
Eg kJ mol-1
Et (kJ mol-1
E2 (kJ mol - 1
E kJ mol-¹
E (kJ.mol-1)
E (KJ mol-1
Epoxy group/(mmol/g)
Epoxy groups (mmol g-1)
E (kJ/mol) Kissinger
Ea (kJ/mol) Kissinger
EG (g)
E44 (g)
EHC in MJ/kg
E1(kJmol-1)
E-51 (g)
E-51(g)
E'(30 °C)b (MPa)
E'@50 °C (MPa)
E'30 MPa
E'80 MPa
E' at 30 °Cb (MPa)
E' at Tg+30°C (MPa)
E' at 30°C (MPa)
E' at 30 C (MPa)
E' at (Tg + 40) °C (MPa)
E' at 50 a C (GPa) b
E' at 40 °C, MPa
E' at 300 °C/ MPa
E' at 25 °C/ MPa
E' at 200 °C/ MPa
E' (MPa)d
E' (MPa) At 30 °C
E' (MPa) at 40°C
E' (GPa) at 30 °C
E' (GPa) at 220 °C
E' (MPa) At Tg + 30 °C
E [V]
E [eV]
ES1 [eV]
Df at 100 MHz
Dk at 100 MHz
Density (g/cm³)
Density (g cm³) 3
DSC Tgo c (C)
DSC Tg (C)
* DGEBA (wt%)
DGEBA wt (%)
DGEBA wt%
DGEBA mol (%)
Curing temp. (°C)
Cox/C
Cox/ Ca
Content of P (wt.%)
Content of TAP (wt %)
Content of CoSAb (wt%)
Content of APPb (wt%)
Cone results FO (s)
Cone results TTI (s)
Cone results THR (MJ/m²)
Cone results TSR (m ²/m²)
Cone results PHRR (kW/m²)
Conductivity (S/m)
Conductivity S/cm
Char yields at TOF (%)
Char yields at 800
Char yields at 700 °C (wt.%)
Char yields at 700 C (wt.%)
Char yield at 600 °C (wt.%)
Char yield at 600 °C (mass%)
Char yield at 600 °C
Char yield at 550 °C %
Char yield [%]d,e
Char C (%)
Char (%
CTE (x10-5, °C-1) Rubbery region
CTE (x10-5, °C-1) Glassy region
CS* [MPa] (SD)
CS+ [MPa] (SD)
CF-POPh2 (wt %)
CF-PPh2 (wt %)
CF-PO(OPh)2 (wt%)
C800 of neat novolac resin (%)
C800 of modified novolac resin(%)
Avg. HRR (kW m-2)
Avg. EHC (MJkg-1)
Avg CO (kg/ kg)
Average CO yield (kg/kg) (AV-COY)
Average CO2 yield (kg/kg) (AV-CO2Y)
Area (%) C1s (C=0)
Area (%) C1s (C=C/C-C)
Area (%) C1s (C-O)
Air atmosphere Td,1% ( C)
Air atmosphere Res (wt%)
Air atmosphere R700 C (wt.%)
Air atmosphere R800 C (wt.%)
AH ads (kJ/mol)
AS ads (J/mol K)
AH(1g-1)
A1 (x108 min-1)
A2 (x106 min-1)
AG(kcal/mol)
A Hf(kcal/mol)
DDS (wt%)
* DDM (wt%)
% increase in K
% increase in o
% increase in E
decrease rate (%) THR (MJm-)
decrease rate (%) TSP (m²
Td5%
Td5%
Td15%
DGEBA
DGEBA
£0.1
vertical burning testing Maximal fl time (sec)
vertical burning testing Total flaming time (sec)
Tig (s)
tign (s)
(2 (s)
residue Y at 700°C Cal.
residue Y at 700°C Exp.
rating Dripping
rating$$ Dripping
Dp (nm)
dp (nm)
by weight N (%)
by weight P (%)
by weight MAP (%)
atmosphere MLRmax (wt%/°C)
atmosphere Res a (wt%)
Air atmosphere MLRmax (wt%/°C)
B Relaxation Tloss °C
a Relaxation Tloss °C
^Get($1) [eV]
^Get(T1) [eV]
Wet conditions ~T, tan8 (°C)
Wet conditions ~Tg, onset (°C)
Dry conditions ~Tg, onset (°C)
Dry conditions ~Tg, tand (C)
Calculated strand density (mol/g)
Weighted strand density (mol/g)
Water absorption 168 h (wt%)
Water absorption 672 h (w
Water absorption (%) I
Water absorption (%) II
Ve (mol/L)
Ue (mol/m³)
P (mol/m³)
UPDGEBA
UL94 (3 mm) av-t1(s)
UL94 (3 mm) av-t2(s)
Sec-amino group/(mmol/g)
Total Amino group/(mmol/g)
T%(°C) Nitrogen
Tmax(°C) Nitrogen
TGA in N2 850 °C residue (%)
TGA in air 850 °C residue (%)
TEOS mol (%)
TAP (g)
TEA (g)
DTA (g)
PCTP (g)
APHP (g)
Sq (nm) difference
Sz (nm) difference
S (nm) difference
Sq (nm) After
Sz (nm) After
S (nm) After
Swelling (%)
Swelling ratio (%)
Sn cage [mmol] none nan nan
Sn cage type none nan nan
Sn cage [g] none nan nan
Sample composition (mass%) DY070
Sample composition (mass%) PT-30
Sample composition (mass%) DOPO
Sample composition (mass%) DGEBA
Sample composition (mass%) AR917
Resin infusion time (Non- treated)
Resin infusion time (Plasma- treated)
Released P ratio in total P (%)
Reserved P ratio in total P (%)
Remainder of original total N content in % + 6-40%
Remainder of original total P content in % 8 -13%
Reaction exotherm (kJ/mol epoxide) 70 °C
Reaction exotherm (kJ/mol epoxide) Total
Reaction exotherm (kJ/mol epoxide) 60°C
Reaction exotherm (kJ/mol epoxide) 50°C
Reaction exotherm (kJ/mol epoxide) 40°C
Rate at Tmax (%/min)
Rate at Tmax (%/°C)
R / kW.m / kW-m-2 / kW-m-2
RHE / kW.m / kW-m-2 / kW-m-2
R2peak/T2peak
R3peak/T3peak
R1peak/T1peak
Pmon (g/cm³)
Ppol (g/cm³)
Pd 1N° (um)
Pd 4N (um)
PROP
PROP.1
PPD (g)
POSS content [mol]
PBI (g)
PEI (g)
PDI
PDId
CNT (g)
BIM (g)
BICP (g)
Erb (MPa)
C-O area (%)
O-C-0 area (%)
C-C area (%)
Nitrogen T5% (C)
Nitrogen Tmax (C)
Nitrogen T% (C)
Multiple reflection (dB) Exp.
Multiple reflection (dB) Theory
Monomer conversion (%) (evaporation)
Monomer conversion (%) (extraction)
Mean am
Mean apo
Mass ratio ATPB
Mass ratio DBA
FR (g)
MFR (g)
MAPPO (%)
Interior Si
Interior o
Interior P
Interior C
Exterior o
Exterior Si
Exterior P
Exterior C
In N2 E (kJ/mol)
In air E (kJ/mol)
IFSS (MPa)
ILSS (MPa)
G (kJ/m²)
D Peak Half- height width (cm-1
G Peak Half- height width (cm-1
Flexural stress max (MPa)
Flame retardant LOI
Flame retardant UL94
Exterior N
Error.2
Error.3
Error.1
Error
DOL-epoxy resin (g)
Epoxy resin (g)
DKL-epoxy resin (g)
Epoxy adhesive Y°
Epoxy adhesive rd
CNT/Epoxy adhesive rd
CNT/Epoxy adhesive Y
E (kJ/mol) Ozawa
Ea (kJ/mol) Ozawa
EP/9%BPA-BPP
EP/9%BPS-BPP
E44 (wt%)
Distribution ratio (L/g) N-CMC-SAL
Distribution ratio (L/g) U-CMC-SAL
Disbonding radius repeat 2 (mm)
Disbonding radius repeat 3 (mm)
Disbonding radius repeat 1 (mm)
DDS
DS
DPO-PHE (g)
DOPMPA (g)
DMTA E (MPa)
DMTA E' 30 (MPa)
DMA E' 190 MPa
DIB (wt%)
DGEBA tand
DGEBF tand
DGEBF
DGEBA/GMA/RAMA 1/2/13 tff: An,An,An A-1 - B-2 -> C-3 -> D
DGEBA/GMA/RAMA 2/1/17 tff: An,An,An A-1 -> B-2 -> C-3 -> D
DGEBA/GMA/RAMA 1/1/1 tff: An,Fn,Fn A-1 -> B-2 - C-3 -> D
DGEBA/15%PA-AEP
DGEBA/20%PA-AEP
DGEBA-amide (Fig. 1A)
DGEBA-anhydride (Fig. 1B)
DGEBA amount [g] 027 " ",'""_"" " ",'""_""
DGEBA amount [mmol] 0725 "_",'""_"" "_",'""_""
D2000 amount [mmol] 086 " ",'""_"" "_",'""_""
D2000 amount [g] 067 "_",'""_"" "_",'""_""
Curing agent DDS/MDS
Curative
Curatives
Composition (g) STZ
Composition (g) TGDDM
Composition (g) PDAP
Composition (g) DOPO
Composition (g) DDS
Composition (g) DDM
Composition (g) PDAP (wt%)
Composition (g) P (wt%)
Chemical Structure
Chemical structure
Calculation method CBT
Calculation method ECM
Calculation method Area
CY-exp (wt%)
CY800-exp (%)
CY-cal (wt%)
CY800-cal (%)
CPE n
CPE1 n
C=O area (%)
COOR area (%)
C-O Area (%)
C-C C-H C=C area (%)
C-O-C C-OH area (%)
C-N Area (%)
C-C Area (%)
BPS-BPP (g)
BPS-BPP (wt%)
BPA-BPP (g)
BPOPA (%)
BPOPA (g)
BPAF (phr)
BPO (phr)
Atomic ratio (%) O1s
Atomic ratio (%) P2p
Atomic ratio (%) N1s
Atomic ratio (%) Cls
Atomic ratio (%) B1s
Absorption (dB) 9 GHz Exp.
Absorption (dB) 9 GHz Theory
Absorption (dB) 12 GHz Theory
Absorption (dB) 12 GHz Exp.
40 °C
50 °C
20 °C/min Tp (C)
5 °C/min Tp (C)
15 °C/min p °C)
10 °C/min Tp (°C)
20 °C/min AH (J/g)
5 °C/min AH (J/g)
15 °C/min AH (J/g)
10 °C/min AH (J/g)
.6
0.6
.5
0.5
+0.5
.4
0.4
.3
0.3
+0.1
+0.5.1
+5.1
+0.1.1
+0.1.2
+0.1.3
(c) C (MPa)
(c)y (MPa)
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