1March 9, 2007

Epoxy B inder S ystems for Civil Engineering

C l ic k a b le l in k s a r e u n d e r l in e d

A T E -E 3 1 0 /2 00 6

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T h e in f o rm a t io n p r o v id e d h e r e in w a s b e l ie v e d b y H e x io n S p e c ia l t y C h e m ic a ls (“H e x io n ”) to b e a c c u r a t e a t th e t im e o f p r e p a r a t io n o r p r e p a r e d f r o m s o u r c e s b e l ie v e d t o b e r e l ia b le , b u t i t is th e r e s p o n s ib i l i t y o f t h e u s e r to in v e s t ig a t e a n d u n d e r s t a n d o t h e r p e r t in e n t s o u r c e s o f in f o rm a t io n , t o c o m p ly w it h a l l la w s a n d p r o c e d u r e s a p p l ic a b le to th e s a fe h a n d l in g a n d u s e o f th e p r o d u c t a n d to d e t e rm in e t h e s u i t a b i l i t y o f th e p r o d u c t fo r i t s in t e n d e d u s e . A l l p r o d u c t s s u p p l ie d b y H e x io n a r e s u b je c t t o H e x io n ’s t e rm s a n d c o n d i t io n s o f s a le . H E X IO N M A K E S N O W A R R A N T Y , E X P R E S S O R IM P L IE D , C O N C E R N IN G T H E P R O D U C T O R T H E M E R C H A N T A B IL IT Y O R F IT N E S S T H E R E O F F O R A N Y P U R P O S E O R C O N C E R N IN G T H E A C C U R A C Y O F A N Y IN F O R M A T IO N P R O V ID E D B Y H E X IO N , e x c e p t t h a t th e p r o d u c t s h a l l c o n fo rm to H e x io n ’s s p e c i f ic a t io n s . N o t h in g c o n ta in e d h e r e in c o n s t i t u t e s a n o f f e r fo r t h e s a le o f a n y p r o d u c t .

D is c la im e r

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Introduction

Epikote™ Res ins

New Waterborne Curing Agents

S tarting Formulations

Epikure™ Curing Agents

Binder S ystems by Application

T a b le o f C o n te n t s

4M a r c h 9 , 2 0 0 7

A m b ie n t C u r in g w i t h E p o x y B in d e r s -S o m e Im p o r t a n t A s p e c t s a n d B e n e f i t s

Epikote™ / Epikure™ epoxy binder e a s y t o a p p ly f a v o u r a b le m ix in g r a t io lo w m ix in g v is c o s i t ie s w id e r a n g e p r o c e s s in g t im e p o s s ib le e x c e l le n t w e t t in g p r o p e r t ie s a n d g o o d a d h e s io n t o s u b s t r a t e s h ig h f i l le r le v e ls p o s s ib le h y d r o ly s is r e s is t a n c e o n c o n c r e t e s u r f a c e s g o o d m e c h a n ic a l s t r e n g th a n d h ig h c h e m ic a l r e s is t a n c e

Introduction

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l iq u id s ta n d a r d B P A r e s in

l iq u id s ta n d a r d B P F r e s in

l iq u id B P A /B P F r e s in , c r y s ta l l is a t io n f r e e

B P A /B P F r e s in , lo w v is c o u s , c r y s ta l l is a t io n f r e e

U n m o d i f ie d E p o x y R e s in s

EpikoteTM 862

EpikoteTM 235

EpikoteTM 144

O

O

O

O

CH3

CH3

O O

CH2 OO

EpikoteTM 828 LVEL EpikoteTM 862

Resins, Reactive Diluents and Hardeners

EpikoteTM 828 LVEL

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Resins, Reactive Diluents and Hardeners

1 7 5 - 1 8 31 9 0 0 ± 2 0 0C a r d .E 1 0 P / T PEpikoteTM 260

1 8 4 - 1 9 51 0 0 0 ± 2 0 0C a r d u r a E 1 0 PEpikoteTM 818

1 8 9 - 2 0 01 0 0 0 ± 1 0 0C a r d u r a E 1 0 PEpikoteTM 816 MV

1 9 2 - 2 0 45 0 0 ± 1 0 0C a r d u r a E 1 0 PEpikoteTM 816 LV

1 8 9 - 2 0 01 8 0 0 ± 3 0 0C a r d u r a E 1 0 PEpikoteTM 816

1 6 3 - 1 7 17 0 0 ± 1 0 0H DEpikoteTM 357

Epoxy equivalent

[g/eq.]

Viscos ity at 25°C [mPa·s]

Diluent HeloxyTM

CarduraTM

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L o w v is c o u s e p o x y r e s in s fo r f o rm u la t io n o f f i l le r c o n t a in in g s y s t e m s fo r v a r io u s a p p l ic a t io n s

R e a c t iv e D i lu t e d E p o x y R e s in s

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Resins, Reactive Diluents and Hardeners

u n d e rw a te r c u r e1 8 2 ± 4 6 5 0 ± 1 5 0EpikoteTM 03121

h ig h c h e m ic a l r e s is t a n c e1 9 4 ± 5 9 5 0 ± 1 5 0 EpikoteTM 896

b r id g e r e n o v a t io n2 0 0 ± 5 2 5 0 ± 7 5EpikoteTM 04851

c r a c k in je c t io n1 6 9 ± 2 1 2 5 ± 2 5EpikoteTM 03306

c r a c k in je c t io n1 8 0 ± 2 3 2 5 ± 5 0EpikoteTM 03141

ApplicationEpoxy equivalent

[g/eq.]

Viscos ity at 25°C [mPa·s]

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L o w v is c o u s e p o x y r e s in s fo r f o rm u la t io n o f f i l le r c o n t a in in g s y s t e m s fo r v a r io u s a p p l ic a t io n s

M o d i f ie d E p o x y R e s in s

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L o w v is c o s i t y L o w e s t y e l lo w in g c h a r a c t e r is t ic s L o w C h lo r in e c o n te n t / V e r y lo w c o lo r

Resins, Reactive Diluents and Hardeners

2 1 0 - 2 2 01 8 0 0 - 2 5 00EponexTM 1510

Epoxy equivalent

[g/eq.]

Viscos ity at 25 °C [mPa·s]

YellowingS tarting Formulations

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S p e c ia l t ie s : H y d r o g e n a te d R e s in s

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Epikure™ adduct hardeners f o r u n iv e r s a l f o rm u la t io n s w it h ta c k -f r e e , g lo s s y s u r f a c e s , l ig h t a n d h ig h w a te r s p o t t in g r e s is t a n c e a s w e l l a s g o o d f in a l m e c h a n ic a l p r o p e r t ie s

Resins, Reactive Diluents and Hardeners

Epikure™ mannich base hardeners f o r h ig h -p e r f o rm a n c e g r o u t in g c o m p o u n d s a n d c o n c r e t e a d h e s iv e s

W it h e x c e l le n t m e c h a n ic a l s t r e n g t h , h ig h c h e m ic a l r e s is t a n c e a n d g o o d c u r in g p r o p e r t ie s a t t e m p e r a t u r e s d o w n t o 5 °C

Epikure™ blend hardeners W ith g o o d c o s t/p e r f o rm a n c e -r a t io a n d lo w v is c o s i t y

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E p o x y H a r d e n e r s

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Resins, Reactive Diluents and Hardeners

Modified adduct hardeners for high-gloss surfaces with broad application range and good water spotting res is tance.

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V e r s a t i le h a r d e n e r9 32 0 0 ± 3 0Epikure™ 530

V e r s a t i le h a r d e n e r9 31 5 0 ± 5 0Epikure™ 207

V e r s a t i le h a r d e n e r9 32 7 5 ± 5 0Epikure™ 541

ApplicationH-active equivalent

[g/eq.]

Viscos ity at 25 °C [mPa·s]

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A d d u c t H a r d e n e r s

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Resins, Reactive Diluents and Hardeners

S pecialties for low yellowing characteris tics , high res is tance agains t osmotic pressure / damp concrete and VOC-free according to the Decopaint Guideline.

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O s m o t ic p r e s s u r e r e s is t a n t6 65 0 0 ± 7 5Epikure™ 04852

L o w y e l lo w in g te n d e n c y1 1 54 5 0 ± 1 5 0Epikure™ 548

L o w y e l lo w in g / v e r s a t i le1 0 56 0 0 ± 1 0 0Epikure™ F205

V e r y lo w y e l lo w in g1 0 96 0 0 ± 1 0 0Epikure™ 196

V O C -f r e e8 53 5 0 ± 1 0 0Epikure™ 05418

ApplicationH-active equivalent

[g/eq]

Viscos ity at 25 °C [mPa·s]

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A d d u c t H a r d e n e r s

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Resins, Reactive Diluents and Hardeners

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9 0

9 5

1 1 0

5 3

9 2

H-active-equivalent [g/eq.]

I n je c t io n s y s t e m

U n d e rw a te r -c u r e

V e r s a t i le h a r d e n e r

P o ta b le w a t e r

V e r s a t i le h a r d e n e r

Application

2 7 00 ± 3 00Epikure™ 03121

3 0 0 ± 5 0Epikure™ 03141

5 0 0 ± 2 0 0Epikure™ 185

2 5 00 ± 5 00Epikure™ 105

1 6 0 0 ± 2 00Epikure™ 132

Viscos ity at 25 °C [mPa·s]

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M a n n ic h B a s e H a r d e n e r s

High reactive hardeners with good mechanical properties and high chemical res is tance.

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Resins, Reactive Diluents and Hardeners

Amine blend hardeners with good cost/performance-ratio and for special systems

P ip e r e h a b i l i t a t io n5 61 6 ± 5 Epikure™ 3203

H ig h c h e m ic a l r e s is t a n c e3 89 ± 5Epikure™ 270

C r a c k in je c t io n5 12 5 ± 5Epikure™ 03306

ApplicationH-active equivalent

[g/eq.]

Viscos ity at 25 °C [mPa·s]

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B le n d H a r d e n e r s

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Resins, Reactive Diluents and Hardeners

Epikure™ 8545-W-52

S o lu t io n s t a b i l i t y V e r y lo w f r e e a m in e c o n te n t V is ib le e n d o f p o t-l i f e N o c o -s o lv e n t in th e c u r in g a g e n t Z e r o V O C s y s t e m B e n z y l a lc o h o l f r e e R e s is t a n t a g a in s t w a te r u p t a k e L ig h t c o lo r e d C o r r o s io n r e s is t a n t

S tarting Formulations

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S p e c ia l t ie s – N e w W a te r b o r n e C u r in g A g e n t s

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-E p o n e x 1 5 1 0 / E K 1 9 6E P 3 5 7 / E K 5 4 8E P 8 1 6 / E K F 2 0 5Decorative S ystem / Top Coat*

E P 8 1 6 / E K 8 5 4 5 -W -5 2E P 3 5 7 / E K 05 4 1 8E P 3 5 7 / E K 5 3 0 o r E K 5 4 1E P 8 1 6 M V / E K F 2 0 5Self Levelling Flooring*

E P 8 1 6 / E K 8 5 4 5 -W -5 2E P 3 5 7 / E K 1 8 5E P 3 5 7 / E K 5 3 0 o r E K 5 4 1E P 8 1 6 M V / E K F 2 0 5Trowelable Flooring & Grouting*

E P 8 1 6 / E K 8 5 4 5 -W -5 2E P 3 5 7 / E K 04 8 5 2E P 3 5 7 / E K 5 3 0 o r E K 5 4 1E P 8 1 6 L V / E K F 2 0 5 Concrete Primer & Impregnation*

WaterborneS pecialExcellentS tandard

S tandard Industrial Flooring Applications

S pecial S ystems

-E P 03 1 2 1 / E K 0 3 1 2 1Underwater Cure

E P 03 3 0 6 / E K 03 3 0 6E P 0 3 1 4 1 / E K 0 3 1 4 1Crack Injection

-E P 2 6 0 / E K 3 2 0 3Waterway Renovation / Pipe Rehabilitation

-E P 04 8 5 1 / E K 0 4 8 5 2Bridge Renovation

E P 8 1 8 / E K 2 0 7E P 1 4 4 / E K 1 3 2Potable Water S ystem

E P 8 9 6 / E K 2 7 0E P 3 5 7 / E K 1 0 5Chemical Res is tant S ystem

* A l l p r o d u c ts a r e p h e n o l a n d n o n y lp h e n o l f r e e

B in d e r S y s t e m s b y A p p l ic a t io n

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- r e s is t a n t a g a in s t o s m o t ic p r e s s u r e

- g o o d a d h e s io n e v e n o n d a m p c o n c r e t e

Epikote™ 357 w it h Epikure™ 04852

S tandard S ystem

- v e r s a t i le p r im e r fo r e x c e l le n t s u r f a c e s

- d i lu t a b le w it h o r g a n ic s o lv e n t s

- l im i t e d c r o s s l in k in g d e n s i t y y ie ld s in p o o r c h e m ic a l r e s is t a n c e

Epikote™ 816 LV w it h Epikure™ F 205

Epikote™ 357 w it h Epikure™ 530 o r Epikure™ 541Excellent S ystem

S pecial S ystem

Selected Binder Systems

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Waterborne S ystem Epikote™ 816 w it h Epikure™ 8545-W-52- z e r o V O C s y s t e m

Binder S ystems by Application

C o n c r e t e P r im e r & Im p r e g n a t in g

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S tandard S ystem

- v e r s a t i le e p o x y b in d e r s y s t e m - g o o d p r o c e s s in g c h a r a c t e r is t ic s

- l im i t e d c r o s s l in k in g d e n s i t y y ie ld s in p o o r c h e m ic a l r e s is t a n c e

Epikote™ 357 w it h Epikure™ 530 o r Epikure™ 541Excellent S ystem

S pecial S ystem

Selected Binder Systems

- v e r y g o o d c r o s s l in k in g- g o o d c h e m ic a l r e s is t a n c e

Epikote™ 357 w it h Epikure™ 185

Epikote™ 816 MV w it h Epikure™ F 205

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Waterborne S ystem

- z e r o V O C s y s t e m

Epikote™ 816 w it h Epikure™ 8545-W-52

T r o w e la b le F lo o r in g & G r o u t in g

Binder S ystems by Application

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S tandard S ystem

- o p t im a l p r o c e s s in g c h a r a c t e r is t ic s

- h ig h m e c h a n ic a l s t r e n g t h s

- g lo s s y s u r f a c e

- l im i t e d c r o s s l in k in g d e n s i t y y ie ld s in p o o r c h e m ic a l r e s is t a n c e

Epikote™ 357 w it h Epikure™ 530 o r Epikure™ 541 Excellent S ystem

Selected Binder Systems

Epikote™ 816 MV w it h Epikure™ F 205

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- z e r o V O C s y s t e m

Epikote™ 816 w it h Epikure™ 8545-W-52 Waterborne S ystem

S e l f L e v e l l in g F lo o r in g

S pecial S ystem Epikote™ 357 w it h Epikure™ 05418 - V O C -f r e e a c c o r d in g to t h e D e c o p a in t G u id e l in e

- h ig h m e c h a n ic a l s t r e n g t h s

- g lo s s y s u r f a c e

Binder S ystems by Application

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S tandard S ystem

- v e r s a t i le s y s t e m w it h g o o d f in a l p r o p e r t ie s- lo w y e l lo w in g t e n d e n c y- lo w e r r e a c t iv i t y

- o p t im a l p r o c e s s in g c a r a c t e r is t ic s- h ig h m e c h a n ic a l s t r e n g th s- g lo s s y s u r f a c e

Epikote™ 357 w it h Epikure™ 548Excellent S ystem

S pecial S ystem

Selected Binder Systems

- lo w e s t y e l lo w in g c h a r a c t e r is t ic s

Eponex™ 1510 w it h Epikure™ 196

Epikote™ 816 w it h Epikure™ F 205

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D e c o r a t iv e S y s t e m / T o p C o a t

Binder S ystems by Application

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S tandard S ystem

- fo r u s e in c h e m ic a l r e s i t a n t t o p c o a t s- v e r y g o o d m e c h a n ic a l p r o p e r t ie s a n d h ig h g la s s t r a n s i t io n te m p e r a t u r e : a p p r o x . 6 2 °C- h ig h c r o s s l in k in g d e n s i t y y ie ld s in lo w f le x ib i l i t y o f t h e f in is h e d p r o d u c t

- v e r y g o o d c r o s s l in k in g- g o o d a d h e s io n e v e n o n d a m p c o n c r e t e- g o o d c h e m ic a l r e s is t a n c e

Epikote™ 896 w it h Epikure™ 270

Excellent S ystem

Selected Binder Systems

Epikote™ 357 w it h Epikure™ 105

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C h e m ic a l R e s is t a n t S y s t e m

Binder S ystems by Application

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S tandard S ystem

- fo r c o a t in g s a c c o r d in g to K T W - G u id e l in e , l is t 1 / E u r o p e a n F o o d S a fe t y A p p r o v e d A u th o r i t y (E F S A )- fo r s t o r a g e f a c i l i t ie s a n d ta n k s fo r p o ta b le w a t e r

Excellent S ystem

Selected Binder Systems

Epikote™ 144 w it h Epikure™ 132

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Epikote™ 818 w it h Epikure™ 207

P o ta b le W a te r S y s t e m

Binder S ystems by Application

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S pecial S ystem

- u s e fu l f o r v e r s a t i le u n d e r g r o u n d p r e p a r a t io n- g o o d a d h e s io n e v e n o n d a m p c o n r e t e- c e r t i f ic a t e fo r b r id g e s e a l in g s

Selected Binder Systems

Epikote™ 04851 w it h Epikure™ 04852

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B r id g e R e n o v a t io n

Binder S ystems by Application

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S pecial S ystem

- m in im u m w o r k in g t im e o f 6 h o u r s a t a m b ie n t t e m p e r a t u r e- c u r e a t 6 0 – 8 0 °C- c o m p r e s s iv e m o d u lu s a f t e r im p r e g n a t io n > 2 5 0 0 M P a- e a s y im p r e g n a t in g- r e s is t a n c e c r e e p u n d e r s t a t ic lo a d- r e s is t a n t to c le a n in g l iq u id s

Selected Binder Systems

Epikote™ 260 w it h Epikure™ 3203

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W a te r w a y R e n o v a t io n / P ip e R e h a b i l i t a t io n

Binder S ystems by Application

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S tandard S ystem

- a p p l ic a t io n s : c o n c r e t e c r a c k f i l le r s , s ta b i l iz a t io n o f p o r o u s u n d e r g r o u n d s- m ix in g v is c o s i t y a t 2 5 °C : a p p r o x . 1 0 0 m P a ·s- m ix in g r a t io : 1 0 0 : 3 0 p b w - p o t l i f e : a p p r o x . 8 0 m in

- a p p l ic a t io n s : c o n c r e t e c r a c k f i l le r s- m ix in g v is c o s i t y a t 2 5 °C : a p p r o x . 3 0 0 m P a ·s- m ix in g r a t io : 1 0 0 : 5 0 p b w - p o t l i f e : a p p r o x . 3 0 m in

Epikote™ 03306 w it h Epikure™ 03306

Excellent S ystem

Selected Binder Systems

Epikote™ 03141 w it h Epikure™ 03141

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C r a c k In je c t io n

Binder S ystems by Application

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S pecial S ystem

- b in d e r fo r t h e f o rm u la t io n o f „O f f S h o r e “ – p a in t c o m p o u n d s- u n d e r w a te r c u r in g- p r o c e s s in g t im e a p p r o x . 2 0 m in u te s

Selected Binder Systems

Epikote™ 03121 w it h Epikure™ 03121

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U n d e r w a te r C u r e

Binder S ystems by Application

2 6M a r c h 9 , 2 0 0 7

A p p e n d ix I

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T h e c h e m ic a l r e s is t a n c e o f H e x io n b in d e r s y s te m s is te s te d b y e x p o s in g th e s u r f a c e o f f la t s a m p le s to v a r io u s a g g r e s s iv e c h e m ic a ls . A c c o r d in g to D IN E N IS O 8 6 8 S h o r e D h a r d n e s s is m e a s u r e d a s a fu n c t io n o f e x p o s u r e t im e . F o l lo w in g D IN / E N / IS O 2 8 1 2 – 1 , m e th o d 2 , th e te s t is r e a l is e d a t r o o m te m p e r a tu r e .

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Chemical Res is tance

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T e s t M e th o d s

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C h e m ic a l r e s is t a n c e is s h o w n in th e fo l lo w in g g r a p h s a s r e la t iv e v a r ia t io n o f S h o r e D h a r d n e s s . T h e s ta r t in g p o in t is d e f in e d a s S h o r e D v a lu e m e a s u r e d a f t e r c u r in g fo r 7 d a t 2 3 °C .T h e te s t d u r a t io n is fo u r w e e k s w i t hc h e m ic a l e x p o s u r e (w i t h te n s e le c te d c h e m ic a ls ) a n d o n e w e e k o f r e la x a t io n w i t h o u t e x p o s u r e to c h e m ic a ls .

Chemical Res is tance

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T e s t M e th o d s

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I n th e g r a p h s w h ic h a r e a t t a c h e d to th e p r o d u c t p r o f i le s y o u g e t r e la t iv e v a lu e s o f th e h a r d n e s s b e c a u s e o f b e t t e r c o m p a r a b i l i t y .T h e S h o r e D h a r d n e s s a f t e r s e v e n d a y s c u r in g a t r o o m te m p e r a t u r e is d e f in e d a s th e s ta r t in g p o in t (1 0 0% ).

Chemical Res is tance

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100

withoutcontamination

1 week 2 weeks 3 weeks 4 weeks 1 weekrelaxation

Sho

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in %

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PetrolAromatesAlcoholEster/KetoneAcetic Acid 10%DETA 50% in WaterNitric Acid 25%Sulphuric Acid 36%Lactic Acid 10%Brake Fluid

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T e s t M e th o d s

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Chemical Res is tance

The applied chemicals contain the following components :

P e t r o l: 4 7 .5 v o l% T o lu e n e ; 3 0 .4 v o l% I s o o c t a n e ; 1 7 .1 v o l% n -H e p t a n e ;3 .0 v o l% M e th a n o l

A r o m a t e s : 6 0 .0 v o l% T o lu e n e ; 3 0 .0 v o l% o -/m -X y le n e ; 1 0 .0 v o l% M e th y l icN a p h t h a le n e

A lc o h o l: 4 8 .0 v o l% M e th a n o l; 4 8 .0 v o l% is o -P r o p a n o l; 4 .0 v o l% W a te r

E s t e r /K e to n e : 5 0 .0 v o l% E th y la c e t a t e ; 5 0 .0 v o l% I s o b u t y lm e t h y lk e t o n e

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T e s t M e th o d s

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3 1M a r c h 9 , 2 0 0 7

S a m p le s o f H e x io n b in d e r s y s te m s a r e p la c e d in a Q U V a c c e le r a te d w e a th e r in g te s te r . T h is e q u ip m e n t r e p r o d u c e s th e d a m a g e (c o lo u r c h a n g e ) th a t o c c u r s o v e r m o n th s o r y e a r s o u td o o r s .

Yellowing Tendency

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T e s t M e th o d s

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3 2M a r c h 9 , 2 0 0 7

Yellowing Tendency

T h e c le a r b in d e r is c u r e d fo r 7 d a y s a t 2 3 ° C . T h e n th e s p e c im e n s a r e e x p o s e d to U V -l ig h t fo r 5 d a y s (U V A -3 4 0 la m p ; 8 0 W /m 2/n m ).

C o lo u r c h a n g e a c c o r d in g to C IE L a b m e t r ic s m e a s u r e d e v e r y 2 4 h o u r s . “b -v a lu e s ” in d ic a t in g y e l lo w in g v s . e x p o s u r e t im e a r e s h o w n o n th e fo l lo w in g g r a p h s .

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T e s t M e th o d s

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3 3M a r c h 9 , 2 0 0 7

R e a c t iv i t y o f a 1 0 0 g r e s in -h a r d e n e r m ix is m e a s u r e d a t a s ta r t in g te m p e r a tu r e o f 2 3 °C .T e m p e r a tu r e t r e n d a n d m a x im u m a r e r e c o r d e d . F o l lo w in g v a lu e s a r e d e f in e d : W o r k in g t im e = p e r io d o f t im e u n t i l ate m p e r a tu r e o f 4 0 °C (th r o u g h e x o th e rm r e a c t io n ) is a c h ie v e d .P o t l i f e = t im e to p e a k te m p e r a t u r e .

Pot Life

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T e s t M e th o d s

Binder S ystems by Application

3 4M a r c h 9 , 2 0 0 7

H e x io n is u t i l iz in g “G e ln o rm ® ” e q u ip m e n ta c c o r d in g to D IN 1 6 9 4 5 a n d IS O 9 3 9 6 .A te s t t u b e , p a r t ia l ly f i l le d w it h r e s in -h a r d e n e rm ix a n d e q u ip p e d w it h a p lu n g e r is p la c e din a c o n s ta n t te m p e r a tu r e b a th a t 2 3 °C . T h ep lu n g e r is m o v e d u p in s h o r t in t e r v a ls . I f th eg e l p o in t is r e a c h e d , th e te s t tu b e is l i f t e dw i t h t h e p lu n g e r a n d s to p s a t im e r .

Gel Time

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T e s t M e th o d s

Binder S ystems by Application

3 5M a r c h 9 , 2 0 0 7

S urface properties:R e d p ig m e n te d b in d e r s y s te m s a r e a p p l ie d o n g la s s p la t s (th ic k n e s s 1 2 0 µ m ).W e t t in g , le v e l l in g a n d g lo s s a r e d e te rm in e d v is u a l ly a f t e r c u r in g .Early water resistance:A f te r a c u r in g t im e o f 4 , 8 , 2 4 a n d 4 8 h s u r f a c e s a r e a p p l ie d w i t h w a te r . S u r f a c e c h a n g e s a n d fo rm a t io n o f c a r b a m a te a r e d e te rm in e d . T h e te s t s a r e c o n d u c te d a t 1 0 °C a n d 2 3 °C .

S urface / Early Water Res is tance

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T e s t M e th o d s

Binder S ystems by Application

3 6M a r c h 9 , 2 0 0 7

Mechanical PropertiesTest S tandards

Compress ive s trength EN IS O 604Tens ile s trength EN IS O 527Flexural s trength EN IS O 178E-modulus EN IS O 178Glass trans ition temperature (Tg - DS C) IEC 1006

T h e m e c h a n ic a l p r o p e r t ie s a r e m e a s u r e d a f t e r s e v e n d a y s c u r in g a t r o o m te m p e r a t u r ep lu s p o s t c u r in g o f 5 h / 5 0 °C a n d 2 h / 1 0 0 °C .T h e s e v a lu e s a r e f o r g e n e r a l in f o rm a t io n o n ly a n d s h o u ld g u id e th e c u s t o m e r in c h o o s in g t h e a p p r o p r ia t e e p o x y s y s t e m . T o s o m e e x te n t t h e y a r e b a s e d o n in d iv id u a l m e a s u r e m e n t s w h ic h a r e s u b je c t t o th e u s u a l f lu c t u a t io n s a n d a r e n o t b in d in g . F o r p r a c t ic a l a p p l ic a t io n s , th e p r o p e r t ie s o f c o a t in g s p r o c e s s e d a n d h a r d e n e d u n d e r b u i ld in g s i t e c o n d i t io n s a r e d e c is iv e .

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T e s t M e th o d s

Binder S ystems by Application

3 7M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 816 LV

R e a c t iv e ly d i lu t e d e p o x y r e s in

b a s e d o n b is p h e n o l A

E p o x y e q u iv a le n t : 1 9 8 ± 6 g /e q u iv .

V is c o s i t y (2 5 °C ): 5 0 0 ± 1 0 0 m P a ·s

EpikureTM F 205

M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 1 0 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 6 0 0 ± 1 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 2 .5

P o t l i f e : t t o 4 0 °C 2 8 m int to T m a x 7 0 m in

T m a x 1 0 7 °C

G e l t im e : 2 9 2 m in

Epikote™ 816 LV with Epikure™ F 205

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3 8M a r c h 9 , 2 0 0 7next

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s , l i t t le ir r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 5a t 1 0 °C 5

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 3 0 6 2 7 6a t 1 0 °C - 2 0 7 2

Chemical Res is tanceYellowing Tendency

Epikote™ 816 LV with Epikure™ F 205

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3 9M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 3 4E - m o d u lu s [M P a ] 8 9 3T e n s i le s t r e n g t h [M P a ] 2 0C o m p r e s s iv e s t r e n g t h [M P a ] 3 2T g – D S C [°C ] 3 6

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Epikote™ 816 LV with Epikure™ F 205

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4 0M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 816 MV

R e a c t iv e ly d i lu t e d e p o x y r e s in

b a s e d o n b is p h e n o l A

E p o x y e q u iv a le n t : 1 9 4 .5 ± 5 .5 g /e q u iv .

V is c o s i t y (2 5 °C ): 1 0 0 0 ± 1 0 0 m P a ·s

EpikureTM F 205

M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 1 0 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 6 0 0 ± 1 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 3 .5

P o t l i f e : t t o 4 0 °C 2 5 m int to T m a x 5 8 m in

T m a x 1 3 8 °C

G e l t im e : m in

Epikote™ 816 MV with Epikure™ F 205

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4 1M a r c h 9 , 2 0 0 7next

P r o d u c t P r o f i le s

S urfacea t 2 3 °C l i t t le g lo s s y s u r f a c ea t 1 0 °C n o n -g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 3a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 5 6 7 4 8 0a t 1 0 °C - 4 2 7 7

Chemical Res is tanceYellowing Tendency

Epikote™ 816 MV with Epikure™ F 205

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4 2M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 816

R e a c t iv e ly d i lu t e d e p o x y r e s in

b a s e d o n b is p h e n o l A

E p o x y e q u iv a le n t : 1 9 4 .5 ± 5 .5 g /e q u iv .

V is c o s i t y (2 5 °C ): 1 8 0 0 ± 3 00 m P a ·s

EpikureTM F 205

M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 1 0 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 6 0 0 ± 1 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 3 .5

P o t l i f e : t t o 4 0 °C 2 4 m int to T m a x 5 5 m in

T m a x 1 3 6 °C

G e l t im e : m in

Epikote™ 816 with Epikure™ F 205

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4 3M a r c h 9 , 2 0 0 7next

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C n o n -g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 3a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 6 5 7 7 8 1a t 1 0 °C - 5 5 7 8

Chemical Res is tanceYellowing Tendency

Epikote™ 816 with Epikure™ F 205

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4 4M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 357

R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 7 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 7 0 0 ± 1 0 0 m P a ·s

EpikureTM 04852

M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 6 6 g /e q u iv .

V is c o s i t y (2 5 °C ): 5 0 0 ± 7 5 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 3 9 .5

P o t l i f e : t t o 4 0 °C 2 7 m int to T m a x 4 2 m in

T m a x 2 2 1 °C

G e l t im e : 1 2 7 m in

Epikote™ 357 with Epikure™ 04852

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4 5M a r c h 9 , 2 0 0 7next

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C n o n -g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 3a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 8 2 8 2 8 3a t 1 0 °C - 7 8 8 0

Chemical Res is tanceYellowing Tendency

Epikote™ 357 with Epikure™ 04852

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4 6M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 4 6E - m o d u lu s [M P a ] 3 0 2 8T e n s i le s t r e n g t h [M P a ] 7 3C o m p r e s s iv e s t r e n g t h [M P a ] 9 2T g – D S C [°C ] 5 0 8 5

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Epikote™ 357 with Epikure™ 04852

4 7M a r c h 9 , 2 0 0 7

C h e m ic a l R e s is t a n c e

test method back back to main menu

Epikote™ 357 with Epikure™ 04852

1 0 0

8 0

6 0

4 0

2 0

0

Shore

D in

% (re

lativ

e V

alues)

W i t h o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e to n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

4 8M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Epikote™ 357 with Epikure™ 530

Epikote™ 357 with Epikure™ 541

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Binder S ystems by Application

4 9M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Epikote™ 357R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 7 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 7 0 0 ± 1 0 0 m P a ·s

Epikure™ 530M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t (n o n y lp h e n o l-f r e e )

H – a c t iv e e q u iv a le n t : 9 3 g /e q u iv .

V is c o s i t y (2 5 °C ): 2 0 0 ± 3 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 6

P o t l i f e : t t o 4 0 °C 3 2 m int to T m a x 5 3 m in

T m a x 1 8 4 °C

G e l t im e : 1 9 4 m in

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Epikote™ 357 with Epikure™ 530

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5 0M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C g o o d , g lo s s y s u r f a c e w it h l ig h t ir r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 3a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 6 3 7 5 8 0a t 1 0 °C 1 5 6 2 7 6

Chemical Res is tanceYellowing Tendency

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Epikote™ 357 with Epikure™ 530

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5 1M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 6 5 8 2E - m o d u lu s [M P a ] 2 0 8 4 2 5 9 3T e n s i le s t r e n g t h [M P a ] 3 8 4 7C o m p r e s s iv e s t r e n g t h [M P a ] 7 5 8 2T g – D S C [°C ] 3 9 5 0

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Epikote™ 357 with Epikure™ 530

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5 2M a r c h 9 , 2 0 0 7

1 0 0

8 0

6 0

4 0

2 0

0

Shore

D in

% (re

lativ

e V

alues)

W i t h o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e to n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

C h e m ic a l R e s is t a n c e

Epikote™ 357 with Epikure™ 530

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5 3M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Epikote™ 357R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 7 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 7 0 0 ± 1 0 0 m P a ·s

Epikure™ 541M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t (n o n y lp h e n o l-f r e e )

H – a c t iv e e q u iv a le n t : 9 3 g /e q u iv .

V is c o s i t y (2 5 °C ): 2 7 5 ± 5 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 6

P o t l i f e : t t o 4 0 °C 1 5 m int to T m a x 3 0 m in

T m a x 1 9 0 °C

G e l t im e : 1 0 4 m in

Epikote™ 357 with Epikure™ 541

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5 4M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C v e r y g o o d , g lo s s y s u r f a c ea t 1 0 °C g o o d , g lo s s y s u r f a c e w it h l ig h t ir r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 3

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 6 6 7 4 7 9a t 1 0 °C 3 3 5 6 7 7

Chemical Res is tanceYellowing Tendency

Epikote™ 357 with Epikure™ 541

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5 5M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 7 7 9 3E - m o d u lu s [M P a ] 2 2 0 0 2 7 2 5T e n s i le s t r e n g t h [M P a ] 4 5 5 3C o m p r e s s iv e s t r e n g t h [M P a ] 8 8 8 8T g – D S C [°C ] 4 2 4 5

Epikote™ 357 with Epikure™ 541

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5 6M a r c h 9 , 2 0 0 7

Epikote™ 357 with Epikure™ 541

C h e m ic a l R e s is t a n c e

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e to n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

W ith o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

1 0 0

8 0

6 0

4 0

2 0

0

Shore

D in

% (re

lativ

e V

alues)

back back to main menu test method

5 7M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Epikote™ 357R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 7 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 7 0 0 ± 1 0 0 m P a ·s

Epikure™ 548M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 1 1 5 g /e q u iv .

V is c o s i t y (2 5 °C ): 4 5 0 ± 1 5 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 6 9

P o t l i f e : t t o 4 0 °C 3 5 m int to T m a x 7 2 m in

T m a x 1 3 4 °C

G e l t im e : 2 5 8 m in

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Epikote™ 357 with Epikure™ 548

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5 8M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C v e r r y g o o d , g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s , l i t t le i r r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 3

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 3 8 6 8 7 7a t 1 0 °C < 1 0 4 0 7 7

Chemical Res is tanceYellowing Tendency

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Epikote™ 357 with Epikure™ 548

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5 9M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 5 1 6 7E - m o d u lu s [M P a ] 1 7 7 2 2 1 5 8T e n s i le s t r e n g t h [M P a ] 2 8 3 8C o m p r e s s iv e s t r e n g t h [M P a ] 5 8 6 6T g – D S C [°C ] 3 4 5 6

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Epikote™ 357 with Epikure™ 548

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6 0M a r c h 9 , 2 0 0 7

C h e m ic a l R e s is t a n c e

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e to n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

1 0 0

8 0

6 0

4 0

2 0

0

Shore

D in

% (re

lativ

e V

alues)

W i t h o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

back to main menu backtest method

Epikote™ 357 with Epikure™ 548

6 1M a r c h 9 , 2 0 0 7back

Y e l lo w in g

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 1 2 3 4 5

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V A 3 4 0)

b*-Value

E p ik o te ™ 8 1 6 + E p ik u r e ™ F 2 0 5 E p ik o te ™ 3 5 7 + E p ik u r e ™ 5 4 8 E p o n e x ™ 1 5 1 0 + E p ik u r e ™ 1 9 6

Decorative S ystems / Top Coat

back to main menu

6 2M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Eponex™ 1510H y d r o g e n a te d e p o x y r e s in

B a s e d o n b is p h e n o l A

E p o x y e q u iv a le n t : 2 1 5 ± 5 g /e q u iv .

V is c o s i t y (2 5 °C ): 2 1 5 0 ± 3 5 0 m P a ·s

Epikure™ 196M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 1 0 9 g /e q u iv .

V is c o s i t y (2 5 °C ): 6 0 0 ± 1 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 1

P o t l i f e : t t o 4 0 °C 4 9 m int to T m a x 1 1 1 m in

T m a x 6 6 °C

G e l t im e : 3 6 2 m in

Eponex™ 1510 with Epikure™ 196

back to main menu

next back Binder S ystems by Application

6 3M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C v e r y g o o d , g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s , l i t t le i r r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 3a t 1 0 °C 5

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C - 4 8 7 7a t 1 0 °C - - 7 0

Chemical Res is tanceYellowing Tendency

back to main menu

Eponex™ 1510 with Epikure™ 196

next back Binder S ystems by Application

6 4M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 4 1E - m o d u lu s [M P a ] 1 4 1 9T e n s i le s t r e n g t h [M P a ] 2 4C o m p r e s s iv e s t r e n g t h [M P a ] 4 1T g – D S C [°C ] 3 5

back to main menu

back Binder S ystems by Application

Eponex™ 1510 with Epikure™ 196

6 5M a r c h 9 , 2 0 0 7

C h e m ic a l R e s is t a n c e

back to main menu backtest method

Eponex™ 1510 with Epikure™ 196

1 0 0

8 0

6 0

4 0

2 0

0

Shore

D in

% (re

lativ

e V

alues)

W i t h o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e to n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

6 6M a r c h 9 , 2 0 0 7back

Y e l lo w in g

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 1 2 3 4 5

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V A 3 4 0)

b*-Value

E p ik o te ™ 8 1 6 + E p ik u r e ™ F 2 0 5 E p ik o te ™ 3 5 7 + E p ik u r e ™ 5 4 8 E p o n e x ™ 1 5 1 0 + E p ik u r e ™ 1 9 6

Decorative S ystems / Top Coat

back to main menu

6 7M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 357

R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 7 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 7 0 0 ± 1 0 0 m P a ·s

EpikureTM 185

M o d i f ie d , s p e c ia l h a r d e n e r b a s e d o n

p o ly a m in e , f a s t c u r in g

H – a c t iv e e q u iv a le n t : 1 1 0 g /e q u iv .

V is c o s i t y (2 5 °C ): 5 0 0 ± 2 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 6 6

P o t l i f e : t t o 4 0 °C 1 2 m int to T m a x 1 9 m in

T m a x 1 9 6 °C

G e l t im e : 9 3 m in

back to main menu

Epikote™ 357 with Epikure™ 185

next back Binder S ystems by Application

6 8M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C l i t t le g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 3

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 7 2 7 6 7 8a t 1 0 °C 6 3 7 5 7 8

Chemical Res is tanceYellowing Tendency

back to main menu

Epikote™ 357 with Epikure™ 185

next back Binder S ystems by Application

6 9M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 5 2 4 7E - m o d u lu s [M P a ] 1 8 2 2 9 9 0T e n s i le s t r e n g t h [M P a ] 3 2 3 4C o m p r e s s iv e s t r e n g t h [M P a ] 5 1 4 6T g – D S C [°C ] 3 6 3 6

back to main menu

back Binder S ystems by Application

Epikote™ 357 with Epikure™ 185

7 0M a r c h 9 , 2 0 0 7

C h e m ic a l R e s is t a n c e

back back to main menu test method

Epikote™ 357 with Epikure™ 185

1 0 0

8 0

6 0

4 0

2 0

0

Shore

D in

% (re

lativ

e V

alues)

W i t h o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e t o n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

7 1M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 357

R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 7 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 7 0 0 ± 1 0 0 m P a ·s

EpikureTM 105

M o d i f ie d , s p e c ia l h a r d e n e r b a s e d o n

p o ly a m in e , f a s t c u r in g

H – a c t iv e e q u iv a le n t : 9 2 g /e q u iv .

V is c o s i t y (2 5 °C ): 2 5 00 ± 5 00 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 5

P o t l i f e : t t o 4 0 °C 9 m int to T m a x 1 7 m in

T m a x 2 2 5 °C

G e l t im e : 7 1 m in

back to main menu

Epikote™ 357 with Epikure™ 105

next back Binder S ystems by Application

7 2M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 3

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 8 3 8 3 8 3a t 1 0 °C 8 2 8 2 8 2

Chemical Res is tanceYellowing Tendency

back to main menu

Epikote™ 357 with Epikure™ 105

next back Binder S ystems by Application

7 3M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 1 1 5 1 0 8E - m o d u lu s [M P a ] 3 1 5 0 3 3 4 0T e n s i le s t r e n g t h [M P a ] 7 9 7 1C o m p r e s s iv e s t r e n g t h [M P a ] 1 1 4 1 1 1T g – D S C [°C ] 5 0 5 0

back to main menu

Epikote™ 357 with Epikure™ 105

back Binder S ystems by Application

7 4M a r c h 9 , 2 0 0 7

C h e m ic a l R e s is t a n c e

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e t o n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

W ith o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

1 0 0

8 0

6 0

4 0

2 0

0

Shore

D in

% (re

lativ

e V

alues)

back to main menu backtest method

Epikote™ 357 with Epikure™ 105

7 5M a r c h 9 , 2 0 0 7back

Y e l lo w in g

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 1 2 3 4 5

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V W 3 4 0)

b*-Value

E p ik o te ™ 3 5 7 + E p ik u r e ™ 1 0 5 E p ik o te ™ 8 9 6 + E p ik u r e ™ 2 7 0

Chemical Res is tant S ystems

back to main menu

7 6M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 03141

R e a c t iv e ly d i lu t e d e p o x y r e s in

b a s e d o n b is p h e n o l A

E p o x y e q u iv a le n t : 1 8 0 ± 2 g /e q u iv .

V is c o s i t y (2 5 °C ): 3 2 5 ± 5 0 m P a ·s

EpikureTM 03141

M o d i f ie d , s p e c ia l h a r d e n e r b a s e d o n

p o ly a m in e , f a s t c u r in g

H – a c t iv e e q u iv a le n t : 9 0 g /e q u iv .

V is c o s i t y (2 5 °C ): 3 0 0 ± 5 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 0

P o t l i f e : t t o 4 0 °C 1 5 m int to T m a x 2 7 m in

T m a x 2 0 4 °C

G e l t im e : m in

Epikote™ 03141 with Epikure™ 03141

back to main menu

next back Binder S ystems by Application

7 7M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 7 8 8 2 8 2a t 1 0 °C - 7 5 8 0

Chemical Res is tanceYellowing Tendency

back to main menu

Epikote™ 03141 with Epikure™ 03141

next back Binder S ystems by Application

7 8M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 8 4 8 4E - m o d u lu s [M P a ] 2 7 7 5 2 5 6 3T e n s i le s t r e n g t h [M P a ] 5 9 6 0C o m p r e s s iv e s t r e n g t h [M P a ] 7 5 7 5T g – D S C [°C ] 4 6 4 5

back to main menu

back Binder S ystems by Application

Epikote™ 03141 with Epikure™ 03141

7 9M a r c h 9 , 2 0 0 7back

Y e l lo w in g

Crack Injection

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 1 2 3 4 5

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V A 3 4 0)

b*-va

lue

E p ik o te ™ 0 3 1 4 1 + E p ik u r e ™ 0 3 1 4 1 E p ik o te ™ 0 3 3 0 6 + E p ik u r e ™ 0 3 3 0 6

back to main menu

8 0M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikureTM 03306

M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e

H – a c t iv e e q u iv a le n t : 5 1 g /e q u iv .

V is c o s i t y (2 5 °C ): 2 5 ± 5 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 3 0

P o t l i f e : t t o 4 0 °C 1 5 m int to T m a x 2 7 m in

T m a x 2 0 4 °C

G e l t im e : m in

EpikoteTM 03306

L o w -v is c o u s , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 9 ± 2 g /e q u iv .

V is c o s i t y (2 5 °C ): 1 2 5 ± 2 5 m P a ·s

back to main menu

Epikote™ 03306 with Epikure™ 03306

next back Binder S ystems by Application

8 1M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C l i t t le g lo s s y s u r f a c ea t 1 0 °C n o n -g lo s s y s u r f a c e w it h i r r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 4a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 4 5 7 7 8 1a t 1 0 °C - - 7 4

Chemical Res is tanceYellowing Tendency

back to main menu

Epikote™ 03306 with Epikure™ 03306

next back Binder S ystems by Application

8 2M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 9 4E - m o d u lu s [M P a ] 2 6 3 3T e n s i le s t r e n g t h [M P a ] 6 8C o m p r e s s iv e s t r e n g t h [M P a ] 8 0T g – D S C [°C ] 6 1

back to main menu

back Binder S ystems by Application

Epikote™ 03306 with Epikure™ 03306

8 3M a r c h 9 , 2 0 0 7back

Y e l lo w in g

Crack Injection

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 1 2 3 4 5

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V A 3 4 0)

b*-va

lue

E p ik o te ™ 0 3 1 4 1 + E p ik u r e ™ 0 3 1 4 1 E p ik o te ™ 0 3 3 0 6 + E p ik u r e ™ 0 3 3 0 6

back to main menu

8 4M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 03121

R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 8 2 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 6 5 0 ± 1 5 0 m P a ·s

EpikureTM 03121

M o d i f ie d , s p e c ia l h a r d e n e r b a s e d o n

p o ly a m in e , f a s t c u r in g

H – a c t iv e e q u iv a le n t : 9 5 g /e q u iv .

V is c o s i t y (2 5 °C ): 2 7 00 ± 3 00 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 2

P o t l i f e : t t o 4 0 °C 1 0 m int to T m a x 1 7 m in

T m a x 2 1 1 °C

G e l t im e : m in

back to main menu

Epikote™ 03121 with Epikure™ 03121

next back Binder S ystems by Application

8 5M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 7 8 8 2 8 2a t 1 0 °C 6 0 7 5 8 0

Chemical Res is tanceYellowing Tendency

back to main menu

Epikote™ 03121 with Epikure™ 03121

next back Binder S ystems by Application

8 6M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 8 7 9 5E - m o d u lu s [M P a ] 2 7 6 7 2 7 2 5T e n s i le s t r e n g t h [M P a ] 6 2 6 4C o m p r e s s iv e s t r e n g t h [M P a ] 8 0 8 3T g – D S C [°C ] 4 4 4 6

back to main menu

back Binder S ystems by Application

Epikote™ 03121 with Epikure™ 03121

8 7M a r c h 9 , 2 0 0 7back

Y e l lo w in g

Underwater Cure

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 1 2 3 4 5

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V A 3 4 0)

b*-va

lue

E p ik o te ™ 0 3 1 2 1 + E p ik u r e ™ 3 1 2 1

back to main menu

8 8M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 144

N o n c r y s t a l l iz in g e p o x y r e s in

b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 7 3 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 4 2 0 0 ± 5 0 0 m P a ·s

EpikureTM 132

M o d i f ie d , s p e c ia l h a r d e n e r b a s e d o n

p o ly a m in e , f a s t c u r in g

H – a c t iv e e q u iv a le n t : 5 2 .5 g /e q u iv .

V is c o s i t y (2 5 °C ): 1 6 0 0 ± 2 00 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 3 0

P o t l i f e : t t o 4 0 °C 1 8 m int to T m a x 2 8 m in

T m a x 2 4 8 °C

G e l t im e : 4 2 m in

back to main menu

Epikote™ 144 with Epikure™ 132

next back Binder S ystems by Application

8 9M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C n o n -g lo s s y s u r f a c ea t 1 0 °C n o n -g lo s s y s u r f a c e w it h i r r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 4a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 8 1 8 5 8 5a t 1 0 °C 7 5 7 8 7 8

Chemical Res is tanceYellowing Tendency

back to main menu

Epikote™ 144 with Epikure™ 132

next back Binder S ystems by Application

9 0M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 5 2E - m o d u lu s [M P a ] 3 3 3 3T e n s i le s t r e n g t h [M P a ] 5 3C o m p r e s s iv e s t r e n g t h [M P a ] 1 1 8T g – D S C [°C ] 5 6 1 1 1

back to main menu

back Binder S ystems by Application

Epikote™ 144 with Epikure™ 132

9 1M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 818

N o n c r is t a l ly z in g e p o x y

b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 8 9 .5 ± 5 .5 g /e q u iv .

V is c o s i t y (2 5 °C ): 1 0 0 0 ± 2 00 m P a ·s

EpikureTM 207

M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 9 3 g /e q u iv .

V is c o s i t y (2 5 °C ): 4 5 0 ± 1 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 4 9

P o t l i f e : t t o 4 0 °C 1 9 m int to T m a x 3 8 m in

T m a x 1 7 1 °C

G e l t im e : m in

Epikote™ 818 with Epikure™ 207

back to main menu

next back Binder S ystems by Application

9 2M a r c h 9 , 2 0 0 7next

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C l i t t le g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 6 4 7 5 8 1a t 1 0 °C - 5 2 7 7

Chemical Res is tanceYellowing Tendency

Epikote™ 818 with Epikure™ 207

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9 3M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 5 6E - m o d u lu s [M P a ] 1 7 4 8T e n s i le s t r e n g t h [M P a ] 3 6C o m p r e s s iv e s t r e n g t h [M P a ] 4 9T g – D S C [°C ] 3 9

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back Binder S ystems by Application

Epikote™ 818 with Epikure™ 207

9 4M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 04851

R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 2 0 0 ± 5 g /e q u iv .

V is c o s i t y (2 5 °C ): 2 5 0 ± 5 0 m P a ·s

EpikureTM 04852

M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t

H – a c t iv e e q u iv a le n t : 6 6 g /e q u iv .

V is c o s i t y (2 5 °C ): 5 0 0 ± 7 5 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 3 3

P o t l i f e : t t o 4 0 °C 1 7 m int to T m a x 3 4 m in

T m a x 1 9 6 °C

G e l t im e : 1 9 3 m in

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Epikote™ 04851 with Epikure™ 04852

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9 5M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C n o n -g lo s s y , w o r s e s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 4

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 7 4 7 7 8 1a t 1 0 °C 3 5 7 1 7 7

Chemical Res is tanceYellowing Tendency

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Epikote™ 04851 with Epikure™ 04852

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9 6M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 9 1 9 7E - m o d u lu s [M P a ] 2 9 6 0 2 9 1 0T e n s i le s t r e n g t h [M P a ] 6 2 6 3C o m p r e s s iv e s t r e n g t h [M P a ] 1 0 6 9 6T g – D S C [°C ] 4 5 4 9

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Epikote™ 04851 with Epikure™ 04852

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9 7M a r c h 9 , 2 0 0 7

1 0 0

8 0

6 0

4 0

2 0

Shore

D in

% (re

lativ

e V

alues)

W i t h o u t c o n ta m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

0

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e t o n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

C h e m ic a l R e s is t a n c e

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Epikote™ 04851 with Epikure™ 04852

9 8M a r c h 9 , 2 0 0 7back

Y e l lo w in g

Bridge Renovation

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 1 2 3 4 5

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V A 3 4 0)

b*-va

lue

E p ik o te ™ 0 4 8 5 1 + E p ik u r e ™ 0 4 8 5 2

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9 9M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Epikote™ 357R e a c t iv e ly d i lu t e d , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 6 7 ± 4 g /e q u iv .

V is c o s i t y (2 5 °C ): 7 0 0 ± 1 0 0 m P a ·s

Epikure™ 05418M o d i f ie d , c y c lo a l ip h a t ic p o ly a m in e -

a d d u c t (V O C -f r e e )

H – a c t iv e e q u iv a le n t : 8 5 g /e q u iv .

V is c o s i t y (2 5 °C ): 3 5 0 ± 1 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 5 1

P o t l i f e : t t o 4 0 °C 2 5 m int to T m a x 4 4 m in

T m a x 1 9 0 °C

G e l t im e : m in

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Epikote™ 357 with Epikure™ 05418

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1 0 0M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C v e r y g o o d , g lo s s y s u r f a c ea t 1 0 °C g o o d , g lo s s y s u r f a c e w it h l ig h t ir r e g u la t io n s

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 3

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 6 5 7 6 8 2a t 1 0 °C 4 8 7 9

Chemical Res is tanceYellowing Tendency

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Epikote™ 357 with Epikure™ 05418

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1 0 1M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 8 3 9 1E - m o d u lu s [M P a ] 2 5 5 1 2 7 0 9T e n s i le s t r e n g t h [M P a ] 5 8 6 3C o m p r e s s iv e s t r e n g t h [M P a ] 7 8 8 1T g – D S C [°C ] 4 0 4 9

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Epikote™ 357 with Epikure™ 05418

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1 0 2M a r c h 9 , 2 0 0 7

C h e m ic a l R e s is t a n c e

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Epikote™ 357 with Epikure™ 05418

W ith o u t c o n t a m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

1 0 0

8 0

6 0

4 0

2 0

Shore

D in

% (re

lativ

e V

alues)

0

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e t o n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

1 0 3M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikureTM 270

M o d i f ie d , a l ip h a t ic p o ly a m in e

H – a c t iv e e q u iv a le n t : 3 8 g /e q u iv .

V is c o s i t y (2 5 °C ): 9 ± 5 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 2 0

P o t l i f e : t t o 4 0 °C 1 4 m int to T m a x 2 3 m in

T m a x 2 5 2 °C

G e l t im e : 1 2 6 m in

EpikoteTM 896

L o w -v is c o u s , n o n -c r y s t a l l iz in g

e p o x y r e s in b a s e d o n b is p h e n o l A /F

E p o x y e q u iv a le n t : 1 9 4 ± 5 g /e q u iv .

V is c o s i t y (2 5 °C ): 9 5 0 ± 1 5 0 m P a ·s

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Epikote™ 896 with Epikure™ 270

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1 0 4M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

S urfacea t 2 3 °C g o o d , g lo s s y s u r f a c ea t 1 0 °C g o o d , l i t t le g lo s s y s u r f a c e

Early Water Res is tance (1 = g o o d ... 5 = p o o r)a t 2 3 °C 2a t 1 0 °C 3

S hore D – Hardness a f t e r 2 4 h 4 8 h 7 da t 2 3 °C 8 3 8 3 8 4 a t 1 0 °C 7 7 8 2 8 2

Chemical Res is tanceYellowing Tendency

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Epikote™ 896 with Epikure™ 270

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1 0 5M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

Mechanical Properties

C u r in g 7 d 7 d + p o s t c u r in g

F le x u r a l s t r e n g t h [M P a ] 1 3 0 1 3 0E - m o d u lu s [M P a ] 3 4 6 0 3 1 7 0T e n s i le s t r e n g t h [M P a ] 6 5 7 5C o m p r e s s iv e s t r e n g t h [M P a ] 1 2 5 1 2 0T g – D S C [°C ] 5 9 7 1

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Epikote™ 896 with Epikure™ 270

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1 0 6M a r c h 9 , 2 0 0 7

C h e m ic a l R e s is t a n c e

1 0 0

8 0

6 0

4 0

2 0

Shore

D in

% (re

lativ

e V

alues)

0W it h o u t c o n t a m in a t io n

1 w e e k 2 w e e k s 3 w e e k s 4 w e e k s 1 w e e k r e la x a t io n

P e t r o l

A r o m a t e s

A lc o h o l

E s t e r /K e t o n e

A c e t ic A c id 1 0%

D E T A 5 0 % in W a te r

N i t r ic A c id 2 5 %

S u lp h u r ic A c id 3 6 %

L a c t ic A c id 1 0%

B r a k e F lu id

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Epikote™ 896 with Epikure™ 270

1 0 7M a r c h 9 , 2 0 0 7back

Y e l lo w in g

Chemical Res is tant S ystems

0

1 0

2 0

3 0

4 0

5 0

6 0

7 0

0 d 1 d 2 d 3 d 4 d 5 d

D a y s U V -ir r a d ia t io n s t r e s s (9 2 W /m ²/n m U V W 3 4 0)

b*-Value

E p ik o te ™ 3 5 7 + E p ik u r e ™ 1 0 5 E p ik o te ™ 8 9 6 + E p ik u r e ™ 2 7 0

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1 0 8M a r c h 9 , 2 0 0 7

P r o d u c t P r o f i le s

EpikoteTM 816

R e a c t iv e ly d i lu t e d e p o x y r e s in

b a s e d o n b is p h e n o l A

E p o x y e q u iv a le n t : 1 9 4 .5 ± 5 .5 g /e q u iv .

V is c o s i t y (2 5 °C ): 1 8 0 0 ± 3 00 m P a ·s

EpikureTM 8545-W-52

N o n -io n ic , w a te r r e d u c ib le ,m o d if ie d

e p o x y -a m in e a d d u c t s u p p l ie d a t 5 2 %

s o l id s in w a te r

H – a c t iv e e q u iv a le n t : 3 2 0 g /e q u iv .

V is c o s i t y (2 5 °C ): 1 4 0 0 0 ± 1 0 0 m P a ·s

M ix in g r a t io (r e s in : h a r d e n e r) [p b w ] 1 0 0 : 1 6 5

P o t l i f e : t t o 4 0 °C m int to T m a x m in

T m a x °C

G e l t im e : m in

Epikote™ 816 with Epikure™ 8545-W-52

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1 0 9M a r c h 9 , 2 0 0 7

H e x io n4 8 .3 1E p o n e x 1 5 1 0

1 0 0 .0 0

2 6 .3 2

2 6 .3 2

7 3 .6 8

0 .2 0

0 .8 0

5 .6 9

4 .0 6

1 6 .2 6

4 6 .6 7

Parts by weight

1 0 0 .0 0

2 4 .8 4

2 4 .8 4

7 5 .1 6

0 .2 0

0 .8 0

5 .6 6

4 .0 3

1 6 .1 6

Parts by weight

2 3 .7 9Total part B

Part B

H e x io n2 3 .7 9E p ik u r e 5 5 0

H e x io nE p ik u r e 1 9 6

1 0 0 .0 0Total Part A+B

7 6 .2 1Total part A

B y k C h e m ie0 .2 0B y k A 5 3 0

G r a c e0 .8S y lo id 2 4 4

N a in t s c h5 .6 4S E e x t e n d e r

M o n d o M in e r a ls4 .0 2M ic r o T a lc A T 1

D u P o n t1 6 .1 1T iO 2 R 9 6 0

H e x io n 4 9 .4 4E p ik o t e 8 1 6

S upplierParts by weight

Part A

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S ta r t in g F o rm u la t io n s

1 1 0M a r c h 9 , 2 0 0 7

Epikote 816 / Epikure 550

Epikote 816 / Epikure 196

Eponex 1510 / Epikure 196

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L o w Y e l lo w in g

1 1 1M a r c h 9 , 2 0 0 7

Formulation % m/m

Epikure 8545-W-52 47.71Epikote 818 29.48Water 22.81

100.00

Optionally a defoamer e.g.Tego Foamex 7447 can be added

Procedure

- Emulsify gradually epoxy resin into curing agent solution with appropriate mixing equipment- Add water until required viscosity is obtained

Properties

Solids content % m/m 55Application viscosity@23°C Pa.s 0.96Tecam gelation time minutes 60

Beck-Koller drying time@23°C hoursSoft gel 0.3Hard gel 2.7

Koenig hardness 1/safter 1 day cure@23°C 47after 7 days cure@23°C 141

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W a te r b a s e d c le a r c o n c r e t e s e a le r

1 1 2M a r c h 9 , 2 0 0 7

CURING AGENT COMPONENT (A) Weight (parts)

Supplier

EPIKURE 8545-W-52 15.91 Hexion

EPIKURE 3253 0.48 Hexion

BYK 045 0.67 BYK CHEMIE

Mix the additive into the EPIKURE curing agents before filler addition

Ti Pure R960 2.75 DuPont

Water 10.76

Disperse the pigment for 10 minutes at 2000 rpm. Add water at 500 rpm

Albaryte 32.59 Sachtleben Chemie

Quartzflour M10 27.20 SCR Sibelco NV

Disperse fillers at 2000 rpm for 10 minutes

Total A 90.36

RESIN COMPONENT (B) Weight (parts)

Supplier

EPIKOTE 816 9.64 Hexion

Total B 9.64

Mix the EPIKURE curing agent base well with the EPIKOTE resin base before application

Total formulation A+B 100.00

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S e l f le v e l l in g f lo o r f o r lo w s h r in k a g e

1 1 3M a r c h 9 , 2 0 0 7

Pigment/filler to binder weight ratio 3.4 : 1

Binder / Water ratio 50 : 50

Flow at 23°C (mm) * DIN 53211

after 10 minutes 203

after 24 hours 209

Shore D hardness DIN 53505

after 7 days at 23°C 72

after 1 month at 23°C 75

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T y p ic a l p r o p e r t ie s E K 8 5 4 5 -W -5 2s e l f le v e l l in g fo rm u la t io n

1 1 4M a r c h 9 , 2 0 0 7

Competitive material Epikote 816 / Epikure 8545-W-52 Epikure 3253

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P r e l im in a r y in f o rm a t io n 3 m m th ic k s e l f-le v e l l in g f lo o r in g fo rm u la t io n

1 1 5M a r c h 9 , 2 0 0 7

S o lu t io n s fo r P ip e R e h a b i l i t a t io n

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Binder S ystems by Application

1 1 6M a r c h 9 , 2 0 0 7

S o lu t io n s fo r P ip e R e h a b i l i t a t io n

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Binder S ystems by Application

1 1 7M a r c h 9 , 2 0 0 7

A p p e n d ix I IS t a r t in g F o rm u la t io n s

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1 1 8M a r c h 9 , 2 0 0 7

S tarting Formulations

- LF 156 S olvent-free Coating S ystem (Airless S praying)

- LH 151 Thixotropic, electrically conductive primer

- RS 1107/EL S elf levelling, electrically conductive floor coating

- RS 1106 S elf levelling floor coating

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1 1 9M a r c h 9 , 2 0 0 7

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Solvent-free Coating Systems, (Airless Spraying)

Component A: Epikote 357 40.0 pbw HEXION Spec ialty Chem icals GmbH, Duisburg Luvothix HT 1 .0 pbw Lehmann & Voss, Hamburg Aerosil 380 0.2 pbw Degussa AG, Frankfurt M icrodol 325 50.8 pbw Norwegian -Talk, Frankfurt Dissolve up to 60°C , then solve w ith Benzyl alcohol 8.0 pbw Biesterfeld, Hamburg Component B:

Epikure 541 20.0 pbw HEXION Spec ialty Chem icals GmbH, Duisburg Novares LA 700 24.0 pbw Rütgers Chem icals, Duisburg Luvothix HT 1 .0 pbw Lehmann & Voss, Hamburg M icrodol 325 51 .0 pbw Norwegian -Talk, Frankfurt Dissolve up to 60 °C , then solve w ith Benzyl alcohol 4.0 pbw Biesterfeld, Hamburg M ixing Ratio : comp. A : comp. B 1 : 1 pbw Pot life : appr. 1 .5 h Density at 20 °C Comp. A : 1 .57 g/cm³ Density at 20 °C Comp. B : 1 .50 g/cm³ Working Pressure : appr. 360 bar

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S tarting Formulation LF 156

1 2 0M a r c h 9 , 2 0 0 7

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Thixotropic, solvent-coating conductive enamel as a base coat for electrically

conductive flooring compounds

Component A: Epikote 357 50.00 pbw HEXION Spec ialty Chem icals GmbH, Duisburg BYK 1 41 0.35 pbw BYK-Chemie, Wesel BYKETOL OK 0.1 0 pbw BYK-Chemie, Wesel BYK P 1 04 S 0.05 pbw BYK-Chemie, Wesel Printex L 6 7.5 pbw Degussa, Frankfurt/Main Xylene 42.0 pbw 1 00.0 pbw Component B: Epikure 541 27.5 pbw HEXION Spec ialty Chem icals GmbH, Duisburg Manufactoring: M ixture rat io comp.A : comp.B = 1 00 : 27.5 pbw Tone black Consumption appr. 0.2 kg/m² Ground ing resistance (DIN 51 953) < 5·1 05 Ohm Prepare the substrate to be coated using presently customary methods such as steel shoot b last ing. Porous substrates should be prepared w ith an epoxy primer to prevent absorp tion of the conductive enamel into the substrate. The conductive enamel may not be sanded.

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S tarting Formulation LH 151

1 2 1M a r c h 9 , 2 0 0 7

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Self leveling, elektrically conductive,

solvent free floor coating

Component A: Epikote 357 45.00 pbw HEXION Specialty Chem icals GmbH, Duisburg Tego Glide B 1 484 0.30 pbw Tego Chem ie Service GmbH, Essen Byk A 501 0.40 pbw BYK-Chem ie, Wesel Antifloat D 1 4 0.60 pbw Lubrizol Langer & Co, Ritterhude Titand ioxide 2056 1 .72 pbw Kronos Titan GmbH, Leverkusen Bayferrox 306 (black iron oxide) 0.25 pbw Bayer AG, Leverkusen Bayferrox 920 (yellow iron oxide) 0.03 pbw Bayer AG, Leverkusen Plastorit 000 1 5.20 pbw Gustav Grolman, Düsseldorf Quartz powder W8 1 1 .50 pbw Quarzwerke GmbH, Frechen Sigrafil SFC 3 EPB 0.50 pbw SGL Technik GmbH, Meitingen 1 00.00 pbw Component B: Epikure 541 25.00 pbw HEXION Specialty Chem icals GmbH, Duisburg M anufacturing: M ixture ratio comp.A : comp.B = 1 00 : 25 pbw Pot life (1 00 g mixture) appr. 35 minutes Surface bright

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S tarting Formulation RS 1107/EL

1 2 2M a r c h 9 , 2 0 0 7

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Self levelling, solvent free, floor coating (grey, ca. RAL 7030)

Component A: Epikote 357 45.00 pbw HEXION Spec ialty Chem icals GmbH, Duisburg Tego Glide B 1 484 0.30 pbw Tego Chem ie Service GmbH, Essen BYK A 501 0.40 pbw BYK-Chem ie, Wesel Antifloat D 1 4 0.60 pbw Lubrizol Langer & Co, Ritterhude Titand ioxide 2056 1 .72 pbw Kronos Titan GmbH, Leverkusen Bayferrox 306 (black iron oxide) 0.25 pbw Bayer AG, Leverkusen Bayferrox 920 (yellow iron oxide) 0.03 pbw Bayer AG, Leverkusen Plastorit 000 1 5.20 pbw Gustav Grolman, Düsseldorf Quartz powder W8 1 1 .50 pbw Quarzwerke GmbH, Frechen EWO-Heavy Spar 25.00 pbw Sachtleben AG, Duisburg 1 00.00 pbw Component B: Epikure 541 25.00 pbw HEXION Spec ialty Chem icals GmbH, Duisburg M anufacturing: M ixture ratio comp.A : comp.B = 1 00 : 25 pbw Pot life (1 00 g mixture) appr. 35 m inutes Surface bright

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S tarting Formulation RS 1106