[Federal Register Volume 74, Number 149 (Wednesday, August 5, 2009)]
[Rules and Regulations]
[Pages 38896-38899]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: E9-18220]
[[Page 38896]]
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DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 39
[Docket No. FAA-2007-0051; Directorate Identifier 2007-NE-37-AD;
Amendment 39-15986; AD 2009-16-03]
RIN 2120-AA64
Airworthiness Directives; Teledyne Continental Motors (TCM) IO-
520, TSIO-520, and IO-550 Series Reciprocating Engines With Superior
Air Parts, Inc. (SAP) Cylinder Assemblies Installed
AGENCY: Federal Aviation Administration (FAA), DOT.
ACTION: Final rule.
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SUMMARY: The FAA is adopting a new airworthiness directive (AD) for
certain TCM IO-520, TSIO-520, and IO-550 series reciprocating engines,
with certain SAP investment cast cylinder assemblies installed. This AD
requires initial and repetitive inspections and compression tests to
detect cracks in those cylinders with more than 750 flight hours (FH)
time-in-service (TIS). This AD results from reports of cracks in the
area of the exhaust valve and separation of cylinder heads from the
barrels of SAP cylinder assemblies with certain part numbers. We are
issuing this AD to prevent the separation of the cylinder head, which
could result in immediate loss of engine power, possible structural
damage to the engine, and possible fire in the engine compartment.
DATES: This AD becomes effective September 9, 2009. The Director of the
Federal Register approved the incorporation by reference of certain
publications listed in the regulations as of September 9, 2009.
ADDRESSES: You can get the service information identified in this AD
from Teledyne Continental Motors, Inc., P.O. Box 90, Mobile, Alabama;
telephone (251) 438-3411, or go to: http://www.genuinecontinental.aero.
The Docket Operations office is located at Docket Management
Facility, U.S. Department of Transportation, 1200 New Jersey Avenue,
SE., West Building Ground Floor, Room W12-140, Washington, DC 20590-
0001.
FOR FURTHER INFORMATION CONTACT: Peter W. Hakala, Aerospace Engineer,
Special Certification Office, FAA, Rotorcraft Directorate, 2601 Meacham
Blvd., Fort Worth, TX 76137; e-mail: [email protected]; telephone
(817) 222-5145; fax (817) 222-5785.
SUPPLEMENTARY INFORMATION: The FAA proposed to amend 14 CFR part 39
with a proposed AD. The proposed AD applies to certain TCM IO-520,
TSIO-520, and IO-550 reciprocating engines with SAP investment cast
cylinder assemblies, part numbers (P/Ns) SA52000-A1, SA52000-A20P,
SA52000-A21P, SA52000-A22P, SA52000-A23P, SA55000-A1, or SA55000-A20P,
installed. We published the proposed AD in the Federal Register on
April 11, 2008, (73 FR 19772). That action proposed to require initial
and repetitive inspections and compression tests to detect cracks in
those cylinders with more than 750 FH TIS.
Examining the AD Docket
You may examine the AD docket on the Internet at http://www.regulations.gov; or in person at the Docket Operations office
between 9 a.m. and 5 p.m., Monday through Friday, except Federal
holidays. The AD docket contains this AD, the regulatory evaluation,
any comments received, and other information. The street address for
the Docket Operations office (telephone (800) 647-5527) is provided in
the ADDRESSES section. Comments will be available in the AD docket
shortly after receipt.
Comments
We provided the public the opportunity to participate in the
development of this AD. We have considered the comments received.
Requests to Not Issue an AD Against the SAP Cylinders
Four commenters suggest we not issue an AD against the SAP
cylinders because the SAP cylinder assemblies have a lower failure rate
than the OEM cylinder assemblies. One commenter suggests that SAP
should issue a detailed service bulletin to address the service
difficulty conditions.
We don't agree. We confirmed that nine SAP cylinder assemblies
failed with a head separation condition, which could result in loss of
control of the airplane. Superior Air Parts, Inc. investigated the
cause for the failure of the cylinder assemblies. Because the cylinder
assemblies failed with a separation condition from propagation of metal
fatigue cracks, we determined that this failure condition is a direct
safety hazard to the airplane. This proposed AD is necessary to ensure
that these cylinder assemblies are periodically inspected, and removed
from service at engine overhaul to prevent this unsafe condition. We
did not change the AD.
Absence of Data To Show Serial Number Distribution
One commenter suggests we examine the distribution of the cracks
across the range of serial numbers and perform a statistical analysis
to try to identify a process change or a design change that may be a
contributor to the failed SAP cylinder assemblies.
We agree. We examined the distribution of the cracks, and collected
and analyzed in service data of the cylinder assemblies. We found the
failed cylinder assemblies were not in any specific serial number
sequence. The failed serial numbers ranged from low to high within the
serial number range, so the time to failure of the cylinder assemblies
were unpredictable. We did not change the AD.
Requests To Change 50-Hour Inspections to 100-Hour or Annual
Inspections
Twenty commenters suggest that requiring a 50-hour repetitive
inspection for cylinder leaks is unnecessary and burdensome at 50-hour
intervals. The commenters suggest that we change the repetitive
inspection requirements to allow performing the inspections at the 100-
hour or annual inspections.
We don't agree. We selected a 50-hour inspection interval so we can
detect leaks and replace the cylinder before a head separation occurs.
By removing leaking cylinder heads discovered with the periodic 50-hour
inspections, the probability of having an in-flight separation is
greatly reduced. Also, the 50-hour inspection coincides with the
scheduled maintenance for normal engine oil and filter changes. The
costs of compliance in the NPRM included costs for the additional
cylinder assembly inspections. We did not change the AD.
Suggestion To Replace All SAP Cylinders With Fewer Than 823 Hours Time-
In-Service
One commenter suggests that we require replacing all SAP cylinders
with fewer than 823 hours TIS. The commenter states that because of a
lack of engineering data to justify the proposed corrective action, we
should require removing all the remaining cylinder assemblies now in
service, at no later than 823 hours TIS.
We don't agree. The lowest TIS of a failed cylinder assembly is 823
hours TIS. Many of the cylinders have operated well past 823 hours TIS
and some to the time-between-overhaul limit. The initial 25 hour TIS
inspection and subsequent 50 hour inspections will provide satisfactory
safety oversight to
[[Page 38897]]
prevent future head separations without putting an unnecessary burden
on the public by requiring replacing all 23,000 of the SAP cylinders
produced. We did not change the AD.
Request To Increase the Fuel-Air Ratios on TCM Engines That Use SAP
Cylinders
One commenter states the corrective action should be an immediate
FAA authorization to increase the full power fuel flows above the type
certificate limits as necessary to return the fuel-air ratios to those
of stock TCM engines. The commenter stated that the SAP cylinders are
not direct replacements for TCM cylinders because of their increased
volumetric efficiency (more air without more fuel).
We don't agree. Superior Air Parts, Inc. has not made any public
claims of increased horsepower or increased volumetric efficiency for
the cylinders. Testing during certification of the SAP cylinders did
not reveal any appreciable power output difference, outside of normal
variation. While it may be due to a slightly higher volumetric
efficiency, as compared to the original equipment manufacturer's (OEM)
cylinders, the observed and resulting temperature differences were not
of such a magnitude as to cause a safety of flight issue. The SAP
cylinders are subject to the same FAA-approved cylinder head
temperature limitation as the OEM cylinders. Both the SAP cylinders and
the OEM cylinders were certified and approved to operate continuously
at the maximum certificated temperature. We did not change the AD.
Observation That a Large Number of SAP Cylinder Failures Occurred in
Alaska
Six commenters state that a large number of SAP cylinder assembly
failures occurred in Alaska among commercial operators that had
airplanes with high-usage rates. They state that the operators have
high-thermal cycles per hour. The commenters define a thermal cycle as
an engine start, an aircraft takeoff, an aircraft landing, and an
engine shutdown. One of the commenters stated that shock heating is far
more destructive than shock cooling. Another commenter stated that
their facility has installed the affected investment cast cylinders on
hundreds of aircraft and has operated in an environment that would be
expected to be as adverse as any other identifiable operating
environment as measured by three critical engineering parameters:
(1) The average repetitive internal temperature experienced by the
cylinder head,
(2) The number of thermal cycles, and
(3) The magnitude of the maximum cylinder head temperature during
exposure to peak thermal cycles.
That commenter goes on to state that they haven't encountered any
cracks in this population of SAP cylinders over the last decade.
We accept these comments as possible metallurgical explanations for
fatigue cracks starting and growing, however; other engine operating
conditions could contribute to metal fatigue failures. We did not
change the AD.
Type of Cylinder Head Casting Questioned
One commenter asks if the cylinder head casting is a sand casting
or an investment casting. The commenter states that the AD should
specify the type of casting. The commenter also asks that the proposed
AD should state that most failures were due to a high number of thermal
cycles for the total number of engine operating hours. The commenter
states that a thermal cycle should be defined as ``an engine start up,
airplane takeoff, airplane landing, and an engine shutdown'' and not as
a ``high ratio of take offs and landings per flight hour.''
We partially agree. The proposed AD does state that the cylinder
assemblies have an investment cast aluminum head. After additional
research, we agree that a high number of thermal cycles, for example
engine start up, airplane takeoff, airplane landing, and engine
shutdown can increase the thermal fatigue of the cylinder assemblies.
However, the number of engine starts and thermal cycles are not
recorded and cannot be correlated. We changed the AD for clarity to
refer to the cylinder heads as ``investment cast,'' and provided a
process in paragraph (f) for determining the cylinder P/N if it is not
in the engine records.
Conclusion
We have carefully reviewed the available data, including the
comments received, and determined that air safety and the public
interest require adopting the AD with the changes described previously.
We have determined that these changes will neither increase the
economic burden on any operator nor increase the scope of the AD.
Costs of Compliance
We estimate that this AD will affect 8,000 engines installed on
airplanes of U.S. registry. We also estimate that it will take about 5
work-hours per cylinder to perform the actions, and that the average
labor rate is $80 per work-hour. Required parts will cost about $1,150
per cylinder. Based on these figures, we estimate the total cost of
this AD to U.S. operators to be $12,400,000.
Authority for This Rulemaking
Title 49 of the United States Code specifies the FAA's authority to
issue rules on aviation safety. Subtitle I, Section 106, describes the
authority of the FAA Administrator. Subtitle VII, Aviation Programs,
describes in more detail the scope of the Agency's authority.
We are issuing this rulemaking under the authority described in
Subtitle VII, Part A, Subpart III, Section 44701, ``General
requirements.'' Under that section, Congress charges the FAA with
promoting safe flight of civil aircraft in air commerce by prescribing
regulations for practices, methods, and procedures the Administrator
finds necessary for safety in air commerce. This regulation is within
the scope of that authority because it addresses an unsafe condition
that is likely to exist or develop on products identified in this
rulemaking action.
Regulatory Findings
We have determined that this AD will not have federalism
implications under Executive Order 13132. This AD will not have a
substantial direct effect on the States, on the relationship between
the national government and the States, or on the distribution of power
and responsibilities among the various levels of government.
For the reasons discussed above, I certify that this AD:
(1) Is not a ``significant regulatory action'' under Executive
Order 12866;
(2) Is not a ``significant rule'' under DOT Regulatory Policies and
Procedures (44 FR 11034, February 26, 1979); and
(3) Will not have a significant economic impact, positive or
negative, on a substantial number of small entities under the criteria
of the Regulatory Flexibility Act.
We prepared a summary of the costs to comply with this AD and
placed it in the AD Docket. You may get a copy of this summary at the
address listed under ADDRESSES.
List of Subjects in 14 CFR part 39
Air transportation, Aircraft, Aviation safety, Incorporation by
reference, Safety.
Adoption of the Amendment
0
Accordingly, under the authority delegated to me by the Administrator,
[[Page 38898]]
the Federal Aviation Administration amends 14 CFR part 39 as follows:
PART 39--AIRWORTHINESS DIRECTIVES
0
1. The authority citation for part 39 continues to read as follows:
Authority: 49 U.S.C. 106(g), 40113, 44701.
Sec. 39.13 [Amended]
0
2. The FAA amends Sec. 39.13 by adding the following new airworthiness
directive:
2009-16-03 Superior Air Parts, Inc. (SAP): Amendment 39-15986.
Docket No. FAA-2007-0051; Directorate Identifier 2007-NE-37-AD.
Effective Date
(a) This airworthiness directive (AD) becomes effective
September 9, 2009.
Affected ADs
(b) None.
Applicability
(c) This AD applies to Teledyne Continental Motors (TCM) IO-520,
TSIO-520, and IO-550 series reciprocating engines with SAP
investment cast cylinder assemblies, part numbers (P/Ns) SA52000-A1,
SA52000-A20P, SA52000-A21P, SA52000-A22P, SA52000-A23P, SA55000-A1,
or SA55000-A20P, installed. These engines are installed on, but not
limited to, the airplanes listed in Table 1 of this AD.
Table 1--Teledyne Continental Motors-Related Aircraft Models
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Engine model Aircraft manufacturer Aircraft model designation
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IO-520-A............................... Cessna.................... 210 D, E, F, G, & H.
IO-520-A............................... Cessna.................... 206.
IO-520-A............................... Cessna.................... P206.
IO-520-A............................... Rockwell.................. 200 D.
IO-520-B............................... Beechcraft................ 36 Bonanza.
IO-520-B............................... Beechcraft................ A36.
IO-520-B............................... Navion.................... Range Master.
IO-520-BA.............................. Beechcraft................ A36.
IO-520-BA.............................. Beechcraft................ S & V35, V35A, V35B.
IO-520-BA.............................. Beechcraft................ C33 A.
IO-520-BA.............................. Beechcraft................ E33 A & C.
IO-520-BA.............................. Beechcraft................ F33 A & C.
IO-520-BA.............................. Navion.................... Range Master.
IO-520-BB.............................. Beechcraft................ A36.
IO-520-BB.............................. Beechcraft................ V35B.
IO-520-BB.............................. Beechcraft................ F33 A.
IO-520-C & CB.......................... Beechcraft................ C55-E55 Baron.
IO-520-D............................... Bellanca.................. 17-30 Viking.
IO-520-D............................... Cessna.................... A188-300 AG Truck.
IO-520-D............................... Cessna.................... 185.
IO-520-E............................... (Cessna 310).............. Exec 600.
IO-520-E............................... (Beech Baron)............. Pres 600.
IO-520-F............................... Cessna.................... 207.
IO-520-F............................... Cessna.................... U206.
IO-520-K............................... Bellanca.................. 17-30A.
IO-520-L............................... Cessna.................... 210 K, L, M, N & R.
IO-520-L............................... Cessna.................... 210N II.
IO-520-L............................... Cessna.................... 210R.
IO-520-M............................... Cessna.................... 310R.
IO-520-MB.............................. Cessna.................... 310R.
IO-550-A............................... Cessna.................... 310 Conversion.
IO-550-B............................... Beechcraft................ A36.
IO-550-B............................... (Beech Bonanza)........... Foxstar.
IO-550-C............................... Beechcraft................ 58 Baron.
IO-550-D............................... Cessna.................... 185/188 Conversion.
IO-550-E............................... Cessna.................... 310 Conversion.
IO-550-F............................... Cessna.................... 206/207 Conversion.
IO-550-L............................... Cessna.................... 210 Conversion.
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Unsafe Condition
(d) This AD results from reports of cracks in the area of the
exhaust valve and separation of cylinder heads from the barrels of
SAP cylinder assemblies with certain part numbers. We are issuing
this AD to prevent the separation of the cylinder head, which could
result in immediate loss of engine power, possible structural damage
to the engine, and possible fire in the engine compartment.
Compliance
(e) You are responsible for having the actions required by this
AD performed within the compliance times specified unless the
actions have already been done.
Inspecting SAP Cylinder Assemblies
(f) If the engine records don't contain the P/N of the cylinder
heads, do the following:
(1) Remove the valve cover from the cylinder assembly.
(2) Look at the cylinder head for the P/N SAC 52001 I or SAC
55001 I and the word ``AMCAST.''
(g) For TCM IO-520, TSIO-520, and IO-550 series reciprocating
engines with SAP investment cast cylinder assemblies, P/Ns SA52000-
A1, SA52000-A20P, SA52000-A21P, SA52000-A22P, SA52000-A23P, SA55000-
A1, or SA55000-A20P, installed, with over 750 flight hours (FH)
time-in-service (TIS), do the following within 25 FH TIS after the
effective date of this AD:
(1) Inspect each cylinder head around the exhaust valve side for
visual cracks or any signs of black combustion leakage.
(2) Replace any cracked or leaking cylinders before further
flight.
(3) Perform a standard cylinder compression test. Guidance on
standard cylinder compression tests can be found in Teledyne
Continental Aircraft Engine Service Bulletin SB03-3, Differential
Pressure Test and Borescope Inspection Procedures for Cylinders,
dated March 28, 2003.
[[Page 38899]]
(i) If the cylinder pressure gauge reads below 60 pounds per-
square inch, determine if the unacceptable pressure is due to a
cracked cylinder.
(ii) To check the cylinder, apply a 2 percent soapy water
solution to the side of the leaking cylinder.
(iii) If you see air bubbles, indicating air leakage, on the
side of the cylinder head, or near the head-to-cylinder interface,
replace the cylinder assembly before further flight.
(h) Thereafter, repeat the cylinder visual inspections and
compression tests within 50 FH time-since-last inspection (TSLI)
until the cylinders reach their time-between-overhaul (TBO) limits
specified in Teledyne Continental Aircraft Engine Service
Information Letter SIL98-9A, Revision A, dated March 28, 2003.
Replacing SAP Cylinder Assemblies
(i) For TCM IO-520, TSIO-520, and IO-550 series reciprocating
engines with SAP investment cast cylinder assemblies, P/Ns SA52000-
A1, SA52000-A20P, SA52000-A21P, SA52000-A22P, SA52000-A23P, SA55000-
A1, or SA55000-A20P, replace the SAP cylinder head assembly at the
first TBO after the effective date of this AD. Engines that were
already overhauled may continue in service until the first TBO after
the effective date of this AD.
Prohibition Against Installing Certain P/N SAP Cylinder Assemblies
(j) After the effective date of this AD, do not install any SAP
investment cast cylinder assembly, P/Ns SA52000-A1, SA52000-A20P,
SA52000-A21P, SA52000-A22P, SA52000-A23P, SA55000-A1, or SA55000-
A20P, in any engine.
Alternative Methods of Compliance
(k) The Manager, Special Certification Office, has the authority
to approve alternative methods of compliance for this AD if
requested using the procedures found in 14 CFR 39.19.
Special Flight Permits
(l) Under 14 CFR part 39.23, we will not approve special flight
permits for this AD for engines that have failed the visual
inspection or the 50 hour periodic cylinder assembly compression
test required by this AD.
Related Information
(m) Teledyne Continental Service Bulletin No. SB03-3
``Differential Pressure Test and Borescope Inspection Procedures for
Cylinders'', dated March 28, 2003.
(n) Contact Peter W. Hakala, Aerospace Engineer, Special
Certification Office, FAA, Rotorcraft Directorate, 2601 Meacham
Blvd., Fort Worth, TX 76137; e-mail: [email protected];
telephone (817) 222-5145; fax (817) 222-5785, for more information
about this AD.
Material Incorporated by Reference
(o) You must use Teledyne Continental Aircraft Engine Service
Information Letter SIL98-9A, Revision A, dated March 28, 2003 to
determine the times-between-overhaul required by this AD. The
Director of the Federal Register approved the incorporation by
reference of this service information in accordance with 5 U.S.C.
552(a) and 1 CFR part 51. Contact Teledyne Continental Motors, Inc.,
P.O. Box 90, Mobile, Alabama; telephone (251) 438-3411, or go to:
http://www.genuinecontinental.aero, for a copy of this service
information. You may review copies at the FAA, New England Region,
12 New England Executive Park, Burlington, MA; or at the National
Archives and Records Administration (NARA). For information on the
availability of this material at NARA, call 202-741-6030, or go to:
http://www.archives.gov/federal-register/cfr/ibr-locations.html.
Issued in Burlington, Massachusetts, on July 23, 2009.
Peter A. White,
Assistant Manager, Engine and Propeller Directorate, Aircraft
Certification Service.
[FR Doc. E9-18220 Filed 8-4-09; 8:45 am]
BILLING CODE 4910-13-P