COPPER ZINC ARSENATE (ACZA) Jurisdi

COPPER ZINC ARSENATE (ACZA)

Jurisdiction: AWPA Technical Committee P-4
Adopted in 2008, revised and reaffirmed in 2014.
This Standard was developed by AWPA's Technical Committees in an open, consensus-based process. Any modifications, deviations, or exceptions to
this Standard invalidate any references to this Standard and nullifies any statements of compliance with this Standard.
Preservative Code
Preservative Name

Description of the preservative

Application Method/
Use Pattern

Preservative composition &
Phys. Chem Requirements

• Composition on a 100%
Oxide Basis
ACZA
Ammoniacal Copper Zinc Arsenate

Waterborne preservative, alkali-based (amine/ammonia)

Vacuum-pressure treatment
Copper as CuO:
Zinc as ZnO:
Arsenic as As 2O 5:
50.0 %
25.0 %
25.0 %
• Purity criteria - actives
• Essential formulants
Acceptable carriers/diluents

Treating Solution

• Tolerances
The treating solution shall contain bivalent copper, bivalent zinc and pentavalent arsenic derived from compounds in
excess of 95 % purity on an anhydrous basis.

The above shall be dissolved in a solution of ammonia (NH 3) in water. The weight of ammonia contained in a treating
solutions and obtained from ammonium hydroxide, shall be at least 1.38 times the weight of copper oxide. To aid in
solution, it is also necessary that the treating solution contain ammonium bicarbonate (NH 4HCO 3) at least equal to 0.92
times the weight of copper oxide

Water
Work Solution Tolerances on 100% Oxide and Actives Basis
Component
Copper as CuO:
Zinc as ZnO:
Arsenic as As2O5:
Minimum
45.0 %
22.5 %
22.5 %
Maximum
55.0 %
27.5 %
27.5 %
The composition of the treating solution in use may deviate outside the limits specified above provided
(a)

(b)
the preservative retention in treated material is determined by assay and the retention so determined
conforms to the requirements specified in the tables in Section 3 of AWPA Standard T1 and
Immediate action is taken to adjust the composition of the treating solution
• Limitations
pH
Temperature

• Valency of arsenic
compound
Analytical methods
[Only major analytical methods
are listed. Refer to the AWPA
BOS for additionally applicable
standards]

Enforcement

Jurisdiction
Historical
Reaffirmation
Latest Amendments
None
None, except as limited under Standard UCS T1

The valency
state of the arsenic component of ACZA treating solutions shall be determined in accordance with Section 12 of AWPA
Standard A2 to ensure that the arsenic is in the pentavalent form.

Concentrate/Solutions:
AWPA A2, A9, A21, A59

Wood:
AWPA A2, A9, A21
AWPA Technical Committee P-4
Formerly AWPA Standard P5, No. 3, originally adopted in 1982
1995, 2002, 2008, 2014
2008 [reformatted], 2010, 2014
- 129 -


P23-14
AMERICAN WOOD PROTECTION ASSOCIATION STANDARD
© 2015 All Rights Reserved
STANDARD FOR CHROMATED COPPER ARSENATE TYPE C (CCA-C)

Jurisdiction: AWPA Technical Committee P-4
Adopted in 2008, reaffirmed in 2014.
This Standard was developed by AWPA's Technical Committees in an open, consensus-based process. Any modifications, deviations, or exceptions to
this Standard invalidate any references to this Standard and nullifies any statements of compliance with this Standard.
Preservative Code
Preservative Name

Description of the preservative

Application Method/
Use Pattern

Preservative composition &
Phys. Chem Requirements

• Composition on a 100%
Oxide Basis
CCA
Chromated Copper Arsenate Type C

Waterborne preservative, acid based

Vacuum-pressure treatment
Hexavalent Cr as CrO 3:
Copper as CuO:
Arsenic as As2O 5:
47.5 %
18.5 %
34.0 %
• Purity criteria - actives
The solid, paste, liquid concentrate or treating solution shall be made up of compounds selected from the following
groups each in excess of 95 % purity on an anhydrous basis
•
•
•
Hexavalent chromium - e.g. potassium or sodium dichromate, chromium trioxide
Bivalent copper - e.g. copper sulfate, basic copper carbonate, cupric oxide or hydroxide
Pentavalent arsenic - e.g. arsenic pentoxide, arsenic acid, sodium arsenate or pyroarsenate
• Restrictions for actives
• Tolerances
Certain impurities, such as iron, lead, chloride, organic matter and insolubles, may result in the formation of sludge
in CCA concentrates and/or treating solutions. Caution is advised in selecting raw materials and evaluating treating
solutions. For details of these effects reference Proceeding AWPA 82:28

The use of copper sulfate, chromic acid, and arsenic pentoxide/arsenic acid in the formulation of fresh CCA solid,
paste, liquid concentrate or treating solution as one specific combination of chemicals taken from the list presented
above is not permitted

The analytical composition of the solid, paste, liquid concentrate or unused treating solution of the preservative at
time of mixing at the plant site may vary within the following limits on a 100 % oxide basis:
Compound
Hexavalent Cr as CrO 3:
Copper as CuO:
Arsenic as As2O 5:

Water
Minimum Maximum
44.5 %
17.0 %
30.0 %
50.5 %
21.0 %
38.0 %
Acceptable carriers/diluents
- 130 -


P23-14
Preservative Code
Preservative Name

Treating Solution

• Tolerances
Full cell process
STANDARD FOR CHROMATED COPPER ARSENATE TYPE C (CCA-C)
Page 2 of 2
© 2015
CCA
Chromated Copper Arsenate Type C
Work Solution Tolerances on 100% Oxide and Actives Basis when using a full cell process see section above
The composition of the treating solution in use may deviate outside the limits specified above provided
(a)

(b)
The preservative retention in treated material is determined by assay and the retention so determined
conforms to the requirements specified in the tables in Section 3 of AWPA Standard T1 and
Immediate action is taken to adjust the composition of the treating solution
Modified Full cell process
When a modified full cell process is used the treating solution may vary within the following limits on a 100 % oxide
basis:
Compound
Hexavalent Cr as CrO 3:
Copper as CuO:
Arsenic as As2O 5:
Minimum Maximum
43.0 %
12.0 %
30.0 %
51.0 %
21.0 %
43.0 %
• Limitations
pH @ Temperature
Acceptable chemicals for
adjustment
1.6 - 2.5 @ T = 20 to 30 °C
None, except as limited under Standard UCS T1
a)
b)
Additional concentrate or chromic acid may be used if desired to adjust the pH of the treating solution
The use of sulfuric acid to adjust the pH level of CCA treating solutions is not recommended. The
incorrect use of this acid can reduce the bioefficacy or increase the corrosiveness of the adjusted treating
solution.
Other
Analytical methods
[Only major analytical methods
are listed. Refer to the AWPA
BOS for additionally applicable
standards]

Enforcement

Jurisdiction
Historical
Reaffirmation
Amendments
If a CCA treating solution has a pH outside the stated limits and it can be shown that it can be made conforming by
addition of CCA concentrate or chromic acid while remaining within the recommended limits stated above, the
adjusted solution shall be considered conforming to the standard

Concentrate/Solutions:
AWPA A2-09, A9-08, A21-08

Wood:
AWPA A9-08, A21-08
AWPA Technical Committee P-4
Formerly AWPA Standard P5, No. 6
1996, 2002, 2007, 2014
1997, 1998, 2010
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P24-13
AMERICAN WOOD PROTECTION ASSOCIATION STANDARD
© 2015 All Rights Reserved
STANDARD FOR ALKYL AMMONIUM COMPOUNDS, WATERBORNE (AAC-W)

Jurisdiction: AWPA Technical Committee P-4
Adopted in 2008, revised in 2009; revised and reaffirmed in 2013.
This Standard was developed by AWPA's Technical Committees in an open, consensus-based process. Any modifications, deviations, or exceptions to
this Standard invalidate any references to this Standard and nullifies any statements of compliance with this Standard.
Preservative Code
Preservative Name

Description of the preservative

Application Method/
Use Pattern

Preservative composition &
Phys. Chem Requirements

• Composition on a 100%
active basis
AAC-W
Alkyl Ammonium Compounds, Waterborne (DDAC or DDA bicarbonate/carbonate)

Waterborne preservative

Vacuum pressure treatment/nonpressure treatment
Didecyldimethylammonium chlorides or didecyldimethylammonium bicarbonate/carbonate:
Dialkyldimethylammonium chloride or dialkyldimethylammonium bicarbonate/carbonate:
(containing C8 or C12)
90.0 % min.
10.0 % max.
• Essential formulants
Acceptable carriers/diluents

Treating Solution

Analytical methods
[Only major analytical methods
are listed. Refer to the AWPA
BOS for additionally applicable
standards]

Enforcement

Jurisdiction
Historical
Reaffirmation
Amendments
The liquid concentrate shall be made up in lower (