CORROSION PREVENTION AND CONTROL PROGRAM (CPCP)
1. Introduction
A. As the airplane ages, corrosion occurs more
often, while, at the same time, other types of damage such as fatigue cracks
occur. Corrosion can cause damage to the airplane's structural integrity and if
it is not controlled, the airframe will carry less load than what is necessary
for continued airworthiness.
(1) To help prevent this, we started a Corrosion
Prevention and Control Program (CPCP). A CPCP is a system to control the
corrosion in the airplane's primary structure. It is not the function of the
CPCP to stop all of the corrosion conditions, but to control the corrosion to a
level that the
airplane's continued airworthiness is not put in
risk.
B. Complete the initial CPCP inspection in
conjunction with the first SID inspection.
2. Corrosion Prevention and Control Program
Objective
A. The objective of the CPCP is to help to prevent
or control the corrosion so that it does not cause a risk to the continued
airworthiness of the airplane.
3. Corrosion Prevention and Control Program
Function
A. The function of this document is to give the
minimum procedures necessary to control the corrosion so that the continued
airworthiness is not put in risk. The CPCP consists of a Corrosion Program Inspection
number, the area where the inspection will be done, specified corrosion levels
and the compliance time. The CPCP also includes procedures to let Cessna
Aircraft Company and the regulatory authorities know of the findings and the
data associated with Level 2 and Level 3 corrosion.
This includes the actions that were done to
decrease possible corrosion in the future to Level 1.
B. Maintenance or inspection programs need to
include a good quality CPCP. The level of corrosion identified on the Principal
Structural Elements (PSEs) and other structure listed in the Baseline Program
will help make sure the CPCP provides good corrosion protection.
NOTE: A good quality program is one that will control all
structural corrosion at Level 1 or better.
C. Corrosion Program Levels.
NOTE: In this manual the corrosion inspection tasks are
referred to as the corrosion program inspection.
(1) Level 1 Corrosion.
(a) Corrosion damage occurring between successive
inspection tasks, that is local and can be reworked or blended out with the
allowable limit.
(b) Local corrosion damage that exceeds the
allowable limit but can be attributed to an event not typical of the operator's
usage or other airplanes in the same fleet (e.g., mercury spill).
(c) Operator experience has demonstrated only light
corrosion between each successive corrosion task inspection; the latest
corrosion inspection task results in rework or blend out that exceeds the
allowable limit.
(2) Level 2 Corrosion.
(a) Level 2 corrosion occurs between two successive
corrosion inspection tasks that requires a single rework or blend-out that
exceeds the allowable limit. A finding of Level 2 corrosion requires repair,
reinforcement or complete or partial replacement of the applicable structure.
(3) Level 3 Corrosion.
(a) Level 3 corrosion occurs during the first or
subsequent accomplishments of a corrosion inspection task that the operator
determines to be an urgent airworthiness concern.
4. References
A. This is a list of references for the Corrosion
Prevention and Control Program.
(1) FAA Advisory Circular AC120-CPCP, Development
and Implementation of Corrosion Prevention and Control Program
(2) FAA Advisory Circular AC43-4A, Corrosion
Control for Aircraft
(3) Cessna Illustrated Parts Catalog - part numbers
P692-12.
(4) Cessna Service Manual - part number D2064-1-13.
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