watyl equivalent to nzs 2312

8/18/2019 Watyl Equivalent to NZS 2312

1/52


2/52


3/52


4/52


5/52

N Z V e r s i o n 9 , M

a r c h 2 0 1 3

P a g e 3 o f 8

P a i n t S y s t e

m s f o r S t e e l – A t m o s p h e r i c E x p o s u r e

C o a t i n g S p e c i f i c a t i o n

D u r a b i l i t y g u i d e ( a s p e r A S / N

Z S 2 3 1 2 )

A S / N Z S

2 3 1 2

S y s t e m

D e s i g n a t i o n

S u p e r s e d e d

A S 2 3 1 2 :

1 9 9 4

S y s t e m

S u r f a c e

P r e p a r a t i o n ‡

1 S T C

o a t

2 N D C

o a t

3 R D C

o a t

T o t a l

D F T

( μ m )

E x p o s u r e E n v i r o n m e n t

( a s p e r A S / N Z S 2 3 1 2 )

W a t t y l P r o d u c t

N o m

D F T

( μ m )


N o m

D

F T

( μ

m )


N o m

D F T

( μ m )

A

V e r y L o w

B L o w

C

M e d i u m

D H i g h

E - I

V

e r y

H

i g h

I n d

u s t r i a l

E - M V e r y

H i g h

M a r i n e

F

T r o p i c a l

A C R Y L I C –

L a t e x , s i n g l e p a c k

A C L 1

-

S t 2

A l l P u r p o s e P r i m e r

4 0

W a t t y l S o l a g a r d

4 0


4 0

1 2 0

1 5 - 2 5

5 - 1 5

2 - 5

2 - 5

-

-

2 - 5

A C L 2

M P 2 - A

M P 2 - C

S a 2 ½

G a l v i t E P 1 0 2

7 5


4 0


4 0

1 5 5

2 5 +

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

A C L 3

L P 4 - A

S a 2 ½

G a l v i t E P 1 0 2

7 5

E p i n a m e l D T M 9 8 5

1

5 0

W a t t y l S o l a g a r d ^

4 0

2 6 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 0

5 - 1 0

1 5 - 2 5

A C R Y L I C –

S o l v e n t b o r n e c a t a l y z e d a c r y l i c

, t w o p a c k

A C C 1

-

S t 2

E p i n a m e l D T M

9 8 5

1 5 0

P a r a c r y l I F 5 4 0 ^

5 0

-

-

2 0 0

2 5 +

1 0 - 2 5

5 - 1 0

2 - 5

-

-

5 - 1 0

A C C 2

-

S a 2 ½

E p i n a m e l P R 2

5 0

7 5

P a r a c r y l I F 5 4 0 ^

5 0

-

-

1 2 5

2 5 +

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

A C C 3

-

S a 2 ½

G a l v i t E P 1 0 2

7 5

P a r a c r y l I F 5 4 0 ^

5 0

-

-

1 2 5

2 5 +

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

A C C 4

M P 5 - J

S a 2 ½

E p i n a m e l P R 2

5 0

7 5


1

5 0

P a r a c r y l I F 5 4 0 ^

5 0

2 7 5

*

2 5 +

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

A C C 5

M P 5 - B

M P 5 - F

S a 2 ½

G a l v i t E P 1 0 2

7 5


1

5 0

P a r a c r y l I F 5 4 0 ^

5 0

2 7 5

*

2 5 +

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

A C C 6

L P 6 - A

S a 2 ½

G a l v i t E P 1 0 2

7 5


2

0 0

P a r a c r y l I F 5 4 0 ^

5 0

3 2 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 0

5 - 1 0

1 5 - 2 5

N o t e s : ^ S o m e

c o l o u r s m a y r e q u i r e m u l t i p l e c o a t s t o a c h i e v e

c o l o u r o p a c i t y . – N o t a p p l i c a b l e * S u i t a b l e f o r t h i s c a t e g o r y ,

b u t n o t e c o n o m i c a l

S t 2 , S

a 2 ½ & S a 3 a r e a l l s u r f a c e p r e p a r a t i o n s t a n d a r d s a s d e f i n e d i n t h e S t a n d a r d s A S 1 6 2 7 . 2 a n d A S 1 6 2 7 . 4 – P l e a s e r e f e r t o t h e s t a n d a r d f o r m o r e d e t a i l a v a i l a b l e f r o m w w w . s

t a n d a r d s . c o . n z

S t 2 = P o w e r t o o l c l e a n i n g ( m e c h a n i c a l s a n d i n g / a b r a d i n g )

/

S a 2

½ = A b r a s i v e B l a s t C l e a n i n g – C l a s s 2 ½ ( n e a

r w h i t e m e t a l - w i t h a n i d e a l s u r f a c e p r o f i l e o f

5 0 - 7 5 m i c r o n s )


6/52

N Z V e r s i o n 9 ,

M a

r c h 2 0 1 3

P a i n t S y s t e

m s f o r S t e e l – A t m o s p h e r i c E x p o s u r e ( c o n t i n u e d )


D u r a b i l i t y g u i d e ( a s p e r A S / N Z S 2 3 1 2 )

A S / N Z S

2 3 1 2

S y s t e m


S u p e r s e d e d

A S 2 3 1 2 :

1 9 9 4

S y s t e m

S u r f a c e


1 S T C

o a t

2 N D C

o a t

3 R D C

o a t

T o t a l

D F T

( μ m )

E x p o s u r e E n v i r o n m e n

t

( a s p e r A S / N Z S 2 3 1 2 )

W a t t y l P r o d u c

t

N o m

D F T

( μ m )


N o m D F T

( μ m

)


N o m

D F T

( μ m )

A

V e r y L o w

B L o w

C

M e d i u m

D H i g h

E - I

V

e r y

H

i g h

I n d

u s t r i a l

E - M V e r y

H i g h

M a r i n e

F

T r o p i c a l

A L K Y D

A L K 1

S P 1 - A

S t 2


4 0

-

-

-

-

4 0

1 0 +

0 - 5

-

-

-

-

-

A L K 2

-

S a 2 ½

D u r a n a m e l P R

9

7 5

-

-

-

-

7 5

1 5 +

5 - 1 5

2 - 5

-

-

-

2 - 5

A L K 3

-

S t 2


9

7 5

A g r i c u l t u r a l

E n a m e l ^

4 0

-

-

1 1 5

1 5 +

5 - 1 5

2 - 5

-

-

-

2 - 5

A L K 4

-

S a 2 ½


9

7 5

A g r i c u l t u r a l

E n a m e l ^

4 0

-

-

1 1 5

2 5 +

1 0 - 2 5

5 - 1 0

2 - 5

-

-

5 - 1 0

A L K 5

S P 5 - A

S t 2


4 0

A g r i c u l t u r a l E n a m e l

4 0

A g r i c u l t u r a l E n a m e l

4 0

1 2 0

1 5 +

5 - 1 5

2 - 5

-

-

-

2 - 5

C H L O R I N A T E D R U B B E R

C L R 1

-

S a 2 ½

S e a P r o T C 9 0

7 5

C h e m - T u f f

5 0

C h e m - T u f f

5 0

1 7 5

2 5 +

1 5 - 2 5

1 0 - 1 5

5 - 1 0

5

- 1 0

-

1 0 - 1 5

C L R 2

M P 6 - B

S a 2 ½

E p i n a m e l P R 2 5 0

7 5

C h e m - T u f f

5 0

C h e m - T u f f

5 0

1 7 5

*

1 5 - 2 5

1 0 - 1 5

5 - 1 0

5

- 1 0

2 - 5

1 0 - 1 5

C L R 3

-

S a 2 ½

-

7 5

-

1 0 0

-

1 0 0

2 7 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

1 0 - 1 5

5 - 1 0

1 5 - 2 5





S t 2 , S




/

S a 2



5 0 - 7 5 m i c r o n s )


7/52


M a

r c h 2 0 1 3

P a i n t S y s t e




A S / N Z S

2 3 1 2

S y s t e m


S u p e r s e d e d

A S 2 3 1 2 :

1 9 9 4

S y s t e m

S u r f a c e


1 S T C

o a t

2 N D C

o a t

3 R D C

o a t

T o t a l

D F T

( μ m )

E x p o s u r e E n v i r o n m e n t ( a s p e r A S

/ N Z S 2 3 1 2 )


t

N o m

D F T

( μ m )


N o

m

D F

T

( μ m )


N o m

D F T

( μ m )

A

V e r y L o w

B L o w

C

M e d i u m

D H i g h

E - I

V

e r y

H

i g h

I n d

u s t r i a l

E - M V e r y

H i g h

M a r i n e

F

T r o p i c a l

E P O X Y – H i g h B u i l d ( D F T : 1 2 5 μ m t o 5 0 0 μ m p e r c o a t )

E H B 1

-

S a 2 ½

E p i n a m e l D T M 9

8 5

2 5 0

-

-

-

2 5 0

2 5 +

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

E H B 2

-

S a 2 ½


8 5

4 0 0

-

-

-

-

4 0 0

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 5

5 - 1 5

1 0 - 1 5

E H B 3

M P 9 - C

S a 2 ½


7 5


2 0

0

-

-

2 7 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 5

5 - 1 5

1 0 - 1 5

E H B 4

M P 9 - A

M P 9 - B

S a 2 ½

G a l v i t E P 1 0 2

7 5


2 0

0

-

-

2 7 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 0

1 0 - 1 5

1 0 - 1 5

E H B 5

L P 1 - I

S a 2 ½


7 5

E p i n a m e l

D T M 9 8 5 0 M I O

1 5

0

E p i n a m e l

D T M M 9 8 5 M I O

1 5 0

3 7 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

1 0 - 1 5

1 0 - 1 5

1 5 - 2 5

E H B 6

-

S a 2 ½

G a l v i t E P 1 0 2

7 5

E p i n a m e l

D T M 9 8 5 0 M I O

1 5

0

E p i n a m e l

D T M 9 8 5 0 M I O

1 5 0

3 7 5

*

2 5 +

2 5 +

1 0 - 2 5

1 0 - 1 5

1 0 - 1 5

1 0 - 2 5

E P O X Y – U l t r a H i g h B u i l d

E U H 1

L P 5 - A

S a 2 ½

E p i n a m e l U H B 1

0 0 0

1 5 0 0

-

-

-

1 5 0 0

*

*

*

2 5 +

1 5 - 2 5

1 5 - 2 5

*

N o t e s :

S t 2 , S




/

S a 2



5 0 - 7 5 m i c r o n s )


8/52


M a

r c h 2 0 1 3

P a i n t S y s t e




A S / N Z S

2 3 1 2

S y s t e m


S u p e r s e d e d

A S 2 3 1 2 :

1 9 9 4

S y s t e m

S u r f a c e

P r e p a r a t i o n ‡ )

1 S T C

o a t

2 N D C

o a t

3 R D C

o a t

T o t a l

D F T

( μ m )

E x p o s u r e E n v i r o n m e n t ( a s p e r A S

/ N Z S 2 3 1 2 )


t

N o m

D F T

( μ m )


N o

m

D F

T

( μ m )


N o m

D F T

( μ m )

A

V e r y L o w

B L o w

C

M e d i u m

D H i g h

E - I

V

e r y

H

i g h

I n d

u s t r i a l

E - M V e r y

H i g h

M a r i n e

F

T r o p i c a l

E P O X Y – P r i m e r / f i n i s h g l o s s

E P F 1

M P 5 - I

S a 2 ½


7 5


1 5

0

E p i n a m e l C F 6 0 2

5 0

2 7 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 5

5 - 1 5

1 0 - 1 5

E P O X Y M A S T I C – S u r f a c e t o l e r a n t

E P M 1

M P 8 - A

S t 2


8 5

2 0 0

-

-

-

-

2 0 0

2 5 +

1 0 - 2 5

5 - 1 0

2 - 5

-

-

5 - 1 0

E P M 3

-

S a 2


8 5

2 0 0


2 0

0

-

-

4 0 0

*

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

N o t e s :

S t 2 , S




/

S a 2



5 0 - 7 5 m i c r o n s )


9/52


M a

r c h 2 0 1 3

P a i n t S y s t e m s f o r S t e e l – A

t m o s p h e r i c E x p o s u r e ( c o n

t i n u e d )



A S / N Z S

2 3 1 2

S y s t e m


S u p e r s e d e d

A S 2 3 1 2 :

1 9 9 4

S y s t e m

S u r f a c e


1 S T C

o a t

2 N D C

o a t

3 R D C

o a t

T o t a l

D F T

( μ m )

E x p o s u r e E n v i r o n m e n

t

( a s p e r A S / N Z S 2 3 1 2 )


t

N o m

D F T

( μ m )


N o m D F T

( μ m )


N o m

D F T

( μ m )

A

V e r y L o w

B L o w

C

M e d i u m

D H i g h

E - I

V

e r y

H

i g h

I n d

u s t r i a l

E - M V e r y

H i g h

M a r i n e

F

T r o p i c a l

I N O R G A N I C

Z I N C S I L I C A T E

I Z S 1

M P 1 - A

S a 2 ½

G a l v i t E S 6 0 0

7 5

-

-

-

-

7 5

2 5 +

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 1 0

1 0 - 1 5

P O L Y U R E T

H A N E – S o l v e n t b o r n e , t w o p a c

k

P U R 1

-

S t 2


8 5

1 5 0

P o l y U 4 0 0 ^

5 0

-

-

2 0 0

*

1 0 - 1 5

5 - 1 0

2 - 5

-

-

5 - 1 5

P U R 2

-

S a 2 ½


7 5

P o l y U 4 0 0 ^

5 0

-

-

1 2 5

*

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5

P U R 3

M P 5 - K

S a 2 ½


7 5


1 5 0

P o l y U 4 0 0 ^

5 0

2 7 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 0

5 - 1 0

1 5 - 2 5

P U R 4

M P 5 - D

S a 2 ½

G a l v i t E P 1 0 2

7 5


1 5 0

P o l y U 4 0 0 ^

5 0

2 7 5

*

2 5 +

1 5 - 2 5

1 0 - 1 5

5

- 1 0

5 - 1 0

1 5 - 2 5

P U R 5

L P 6 - B

S a 2 ½

G a l v i t E P 1 0 2

7 5


2 0 0

P o l y U 4 0 0 ^

5 0

3 2 5

*

2 5 +

2 5 +

1 5 - 2 5

1 0 - 1 5

1 0 - 1 5

2 5 +

P U R 6

-

S t 2


7 5


7 5

P o l y U 7 5 0 ^

7 5

2 2 5

*

1 0 - 1 5

5 - 1 0

2 - 5

-

-

5 - 1 5

P U R 7

-

S a 2 ½

G a l v i t E P 1 0 2

7 5


7 5

P o l y U 7 5 0 ^

7 5

2 2 5

*

1 5 - 2 5

1 0 - 1 5

5 - 1 0

2 - 5

2 - 5

1 0 - 1 5





S t 2 , S




/

S a 2



5 0 - 7 5 m i c r o n s )


10/52


11/52

Wattyl® is a registered trademark of Valspar Paint (Australia) Pty Ltd.1. This information is provided with respect to the listed Valspar products. Valspar recommends that:(a) The user should check the date of printing, and if more than 24 months have elapsed, should verify with our nearest sales office that the information is still current. (b) youreview the Technical Data Sheets (TDS) and Material Safety Data Sheets (MSDS) before you use or handle the product; (c) the product be used only in accordance with theinformation provided by Valspar; (d) the product be transported, stored and handled in accordance with the information on the MSDS and relevant TDS; and (e) you thoroughlytest the product, using the recommended application method on a sample of intended substrate, before using the product.2. The information in this technical data sheet was prepared using information gathered during product development. While Valspar endeavours to update this information and

maintain the accuracy and currency of its contents, Valspar cannot guarantee that the information provided is wholly comprehensive.3. Valspar recommends that you conduct such additional investigations as may be necessary to satisfy yourself of the accuracy, currency and comprehensiveness of theinformation on which you rely in using and handling the product. If you require further information please contact your nearest Valspar Office.4. Because we cannot control the way these products may be used, or the conditions they may be exposed to, we can give no express guarantees in respect of these products ortheir performance. However certain guarantees may be implied by law. VALSPAR PAINT (NZ) LTD

Ver. 1.0, March 2013 Reason for Issue: New Issue 1 of 1

COATING SPECIFICATION NZ-ACC1

System Description: AS/NZS2312:2002 – ACC1 – Paint Systems for Steel – Atmospheric Exposure

Surface Preparation - Power tool cleanDegrease all surfaces in accordance with AS1627.1. Remove slag and splatter, grind all welds and high pointssmooth. Power tool clean to AS1627.2 Class 2 (min.)

System

No. ofpacks &

MixRatio

DataSheet

Coverage@ Given

DFT(m2/L)

ThinnerTypes

FilmThickness(microns)

PotLife

@25°C

RecoatTime

@25°C

Wet Dry Min Max

PrimerWattyl Epinamel DTM985

23:1

P33.03 5.6 L760 175 150 2 RDS3

mths

Finish CoatWattyl Paracryl IF540(see note 6)

24:1

P50.01 9.0 RDS 110 50 5 hrs30hrs

Indef

Durability Guide – years to first major maintenance (as per AS/NZS2312)

Exposure Environment (as per AS/NZS2312)

AVery Low

B

Very Low

CMedium

DHigh

E-I

Very HighIndustrial

E-M

Very HighMarine

F

Tropical

25+ 10-25 5-10 2-5 - - 5-10

Total Dry Film Thickness: 175 microns minimum

This specification is subject to: AS1627.0 1997 Metal Finishing – Preparation and Pre-treatment of Surfaces AS/NZ2312 2002 Guide to Protection of Iron and Steel AS3894-3 2002 Determination of Dry Film Thickness

Brush (B)Roller (R)Spray (S)

Airless Spray (A)Indefinite RDS (Indef)Refer Datasheet (RDS)Not Applicable (NA)* (suitable, but not economical)

NOTES:1. Refer to the technical datasheet for the correct solvent selection2.

Apply 1st coat as soon as possible after the preparation3.

For added protection, apply a stripe coat of Wattyl Epinamel PR250 to all nut & bolt holes, weld margins and all leadingedges.

4.

Apply each coat in a continuous unbroken film in a manner which reduces spray marks, brush marks and other evidence asto the method of application.

5.

Practical coverage of products is project dependent.6. Some colours may require multiple coats to achieve opacity7.

This specification must be read in conjunction with the relevant technical data sheets.8. Durability years nominated are a guide defined by AS2312 and do not constitute a Wattyl warranty


12/52


13/52






Surface Preparation - Abrasive BlastDegrease all surfaces in accordance with AS1627.1. Remove slag and splatter, grind all welds and high pointssmooth. Abrasive blast in accordance with AS1627.4 to a minimum Sa 2½ (AS1627.9)

System

No. ofpacks &

MixRatio

DataSheet

Coverage@ Given

DFT(m2/L)

ThinnerTypes


PotLife

@25°C

RecoatTime

@25°C

Wet Dry Min Max

PrimerWattyl Galvit EP102

23:1

P41.02 7.3 L760 135 75 5 hrs 1½ Indef


24:1

P50.01 9.0 RDS 110 50 5 hrs30min

Indef



AVery Low

B

Very Low

CMedium

DHigh

E-I

Very HighIndustrial

E-M

Very HighMarine

F

Tropical

25+ 15-25 10-15 5-10 2-5 2-5 10-15





NOTES:1.

Refer to the technical datasheet for the correct solvent selection2.


For added protection, apply a stripe coat of Wattyl Galviot EP102 to all nut & bolt holes, weld margins and all leading edges.4. Apply each coat in a continuous unbroken film in a manner which reduces spray marks, brush marks and other evidence as

to the method of application.5.

Practical coverage of products is project dependent.6. Some colours may require multiple coats to achieve opacity7.



14/52







System

No. ofpacks &

MixRatio

DataSheet

Coverage@ Given

DFT(m2/L)

ThinnerTypes


PotLife

@25°C

RecoatTime

@25°C

Wet Dry Min Max

PrimerWattyl Epinamel PR250

24:1

P30.01 7.3 L760 135 75 6 hrs RDS Indef

Intermediate CoatWattyl Epinamel EB600

24:1

P31.01 5.2 L760 192 125 6 hrs12hrs

Indef


24:1

P50.01 9.0 RDS 110 50 5 hrs30min

Indef



AVery Low

B

Very Low

CMedium

DHigh

E-I

Very HighIndustrial

E-M

Very HighMarine

F

Tropical

* 25+ 10-15 5-10 2-5 2-5 10-15



Brush (B)Roller (R)

Spray (S) Airless Spray (A)Indefinite RDS (Indef)Refer Datasheet (RDS)Not Applicable (NA)* (suitable, but not economical)

NOTES:1.

Refer to the technical datasheet for the correct solvent selection2.

Apply 1st coat as soon as possible after the preparation

3.

For added protection, apply a stripe coat of Wattyl Epinamel PR250 to all nut & bolt holes, weld margins and all leadingedges.

4. Apply each coat in a continuous unbroken film in a manner which reduces spray marks, brush marks and other evidence asto the method of application.

5. Practical coverage of products is project dependent.6.

Some colours may require multiple coats to achieve opacity7. This specification must be read in conjunction with the relevant technical data sheets.8.

Durability years nominated are a guide defined by AS2312 and do not constitute a Wattyl warranty


15/52







System

No. ofpacks &

MixRatio

DataSheet

Coverage@ Given

DFT(m2/L)

ThinnerTypes


PotLife

@25°C

RecoatTime

@25°C

Wet Dry Min Max


23:1

P41.02 7.3 L760 135 75 5 hrs1½hrs

Indef


24:1

P31.01 5.2 L760 192 125 6 hrs12hrs

Indef


24:1

P50.01 9.0 RDS 110 50 5 hrs30min

Indef



AVery Low

B

Very Low

CMedium

DHigh

E-I

Very HighIndustrial

E-M

Very HighMarine

F

Tropical

* 25+ 10-15 5-10 2-5 2-5 10-15



Brush (B)

Roller (R)Spray (S)


NOTES:1. Refer to the technical datasheet for the correct solvent selection

2.


For added protection, apply a stripe coat of Wattyl Galvit EP102 to all nut & bolt holes, weld margins and all leading edges.4. Apply each coat in a continuous unbroken film in a manner which reduces spray marks, brush marks and other evidence as

to the method of application.5. Practical coverage of products is project dependent.6.




16/52







System

No. ofpacks &

MixRatio

DataSheet

Coverage@ Given

DFT(m2/L)

ThinnerTypes


PotLife

@25°C

RecoatTime

@25°C

Wet Dry Min Max


23:1

P41.02 7.3 L760 135 75 5 hrs1½hrs

Indef


24:1

P31.01 3.25 L760 307 200 6 hrs12hrs

Indef


24:1

P50.01 9.0 RDS 110 50 5 hrs30min

Indef



AVery Low

B

Very Low

CMedium

DHigh

E-I

Very HighIndustrial

E-M

Very HighMarine

F

Tropical

* 25+ 15-25 10-15 5-10 5-10 15-25



Brush (B)

Roller (R)Spray (S)


NOTES:1. Refer to the technical datasheet for the correct solvent selection

2.


For added protection, apply a stripe coat of Wattyl Galvit EP102 to all nut & bolt holes, weld margins and all leading edges.4. Apply each coat in a continuous unbroken film in a manner which reduces spray marks, brush marks and other evidence as

to the method of application.5. Practical coverage of products is project dependent.6.




17/52




COATING SPECIFICATION NZ-ACL1

System Description: AS/NZS2312:2002 – ACL1 – Paint Systems for Steel – Atmospheric Exposure

Surface Preparation - Power tool cleanDegrease all surfaces in accordance with AS1627.1. Remove slag and splatter, grind all welds and high pointssmooth. Power tool clean to AS1627.2 Class 2 (min.)

System

No. ofpacks &

MixRatio

DataSheet

Coverage@ Given

DFT(m2/L)

ThinnerTypes


PotLife

@25°C

RecoatTime

@25°C

Wet Dry Min Max

PrimerWattyl Duranamel PR9

NA P10.03 5.6 L700 178 75 NA4-6hrs

RDS

Intermediate CoatWattyl Solagard

NA WA136 9.25 Water 110 40 NA 2 hrs Indef

Finish Coat Wattyl Solagard




AVery Low

B

Very Low

CMedium

DHigh

E-I

Very HighIndustrial

E-M

Very HighMarine

F

Tropical

15-25 5-15 2-5 2-5 - - 2-5




Airless Spray (A)Indefinite RDS (Indef)Refer Datasheet (RDS)Not Applicable (NA)Refer Technical Services (RTS)

NOTES:1.

Refer to the technical datasheet for the correct solvent selection2. Apply 1st coat as soon as possible after the preparation

3.

For added protection, apply a stripe coat of Wattyl All Purpose Primer to all nut & bolt holes, weld margins and all leadingedges.4.

Apply each coat in a continuous unbroken film in a manner which reduces spray marks, brush marks and other evidence asto the method of application.

5.

Practical coverage of products is project dependent.6.



18/52




COATING SPECIFICATION NZ-ACL2

System Description: AS/NZS2312:2002 – ACL2 – Paint Systems for Steel – Atmospheric Exposure


System

No. ofpacks &

MixRatio

DataSheet

Coverage@ Given

DFT(m2/L)

ThinnerTypes


PotLife

@25°C

RecoatTime

@25°C

Wet Dry Min Max


23:1

P41.02 7.3 L760 135 75 5 hrs1½hrs

Indef

Intermediate CoatWattyl Solagard


Finish CoatWattyl Solagard




AVery Low

B

Very Low

CMedium

DHigh

E-I

Very HighIndustrial

E-M

Very HighMarine

F

Tropical

25+ 15-25 10-15 5-10 2-5 2-5 10-15





NOTES:1.

Refe

watyl equivalent to nzs 2312

Documents