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98-18-26: This amendment adopts a new airworthiness directive (AD), applicable to certain Airbus Model A320 series airplanes, that requires repetitive inspections to detect fatigue cracking of the front spar vertical stringers on the wings; and repair, if necessary. This amendment also provides for an optional terminating action for the repetitive inspections. This amendment is prompted by issuance of mandatory continuing airworthiness information by a foreign civil airworthiness authority. The actions specified by this AD are intended to detect and correct fatigue cracking of the front spar vertical stringers on the wings, which could result in reduced structural integrity of the airframe.
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90-10-05: 90-10-05 CALIFORNIA DEPARTMENT OF FORESTRY; GARLICK HELICOPTERS; HAWKINS AND POWERS AVIATION, INC.; HERCULES; INTERNATIONAL HELICOPTERS, INC.; OFFSHORE CONSTRUCTION; OREGON HELICOPTERS; PILOT PERSONNEL INTERNATIONAL, INC.; SMITH HELICOPTERS; SOUTHERN AERO CORPORATION; SOUTHWEST FLORIDA AVIATION; AND WEST COAST FABRICATIONS (these helicopters were manufactured by Bell Helicopter Textron, Inc under military contract): Amendment 39-6596. Docket No 89-ASW-52.
Applicability: Model UH-1A, UH-1B, UH-1E, UH-1F, UH-1H, UH-1L, and TH-1L helicopters, certificated in any category.
Compliance: Required as indicated, unless already accomplished.
To prevent failure of the tail rotor duplex bearing which could result in loss of tail rotor control and subsequent loss of the helicopter, accomplish the following:
(a) Within the next 100 hours' time in service after the effective date of this AD, determine if the tail rotor gearbox duplex bearing sets, P/N 204-040-424-001, havingthe following serial numbers are installed in the tail rotor gearbox output quill, P/N 204-040-012-009:
Serial Numbers
1 thru 182
MB183 thru MB382
MB442
MB486
MB513
MB518
MB519
MB524
MB530
MB531
MB544
MB545
MB548
MB549
MB551
MB553
MB554
MB561
MB659
MB743
MB744
MB760 thru MB769
MB927 thru MB936
If a part with any of the listed serial numbers is installed, replace with a serviceable part before further flight.
(b) In accordance with FAR Sections 21.197 and 21.199, the helicopter may be flown to a base where the requirements of this AD may be accomplished.
(c) An alternate method of compliance or adjustment of the compliance time that provides an equivalent level of safety may be used when approved by the Manager, Rotorcraft Certification Office, ASW-170, Rotorcraft Directorate, FAA, Southwest Region, Fort Worth, Texas.
This amendment (39-6596, AD 90-10-05) becomes effective on June 5, 1990.
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2022-09-04: The FAA is superseding airworthiness directive (AD) for 2021- 05-05 which applied to all Airbus Helicopters Model SA-365N1, AS-365N2, AS 365 N3, SA-366G1, EC 155B, and EC155B1 helicopters. AD 2021-05-05 required modifying the helicopter by replacing the tail rotor gearbox (TGB) control shaft guide bushes; repetitive inspections (checks) of the oil level of the TGB and, if necessary, filling the oil to the maximum level; repetitive inspections of the TGB magnetic plug and corrective actions if necessary; repetitive replacements of a certain control rod double bearing (bearing); and modifying the helicopter by replacing the TGB. This AD was prompted by a report where during a landing phase, a helicopter lost tail rotor pitch control, which was caused by significant damage to the TGB bearing. This AD retains some of the requirements of AD 2021-05-05, and reduces the intervals of the magnetic plug inspection, revises the corrective actions if particles are detected, and revises the compliance time for replacement of the affected part, as specified in a European Union Aviation Safety Agency (EASA) AD, which is incorporated by reference. The FAA is issuing this AD to address the unsafe condition on these products.
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2013-02-13: We are adopting a new airworthiness directive (AD) for certain Piper Aircraft, Inc. (type certificate previously held by The New Piper Aircraft Inc.) PA-28, PA-32, PA-34, and PA-44 airplanes. This AD was prompted by reports of control cable assembly failures that may lead to failure of the horizontal stabilator control system and could result in loss of pitch control. This AD requires inspections of the stabilator control system and replacement of parts as necessary. We are issuing this AD to correct the unsafe condition on these products.
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98-18-15: This amendment adopts a new airworthiness directive (AD) that is applicable to certain Gulfstream Model G-V series airplanes. This action requires a one-time inspection to measure the clearance between a certain wiring harness and the crew oxygen bottle; corrective actions, if necessary; and eventual relocation of the crew oxygen bottle and rework of the lines and tubing associated with the crew and passenger oxygen bottles. This amendment is prompted by a report indicating that interference between the wiring harness and the crew oxygen bottle was found on a production airplane. The actions specified in this AD are intended to prevent chafing of the wiring harness against the crew oxygen bottle, which could result in electrical shorting and possible fire in the underfloor structure of the airplane.
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2006-13-05: We are adopting a new airworthiness directive (AD) that supersedes AD 2005-26-53, which applies to certain Pacific Aerospace Corporation Ltd. (PAC) 750XL airplanes. AD 2005-26-53 currently requires you to insert text into the Limitations Section of the Airplane Flight Manual (AFM) that reduces the maximum takeoff weight from 7,500 pounds to 7,125 pounds. This AD results from mandatory continuing airworthiness information (MCAI) issued by the airworthiness authority for New Zealand and the FAA's decision that the actions correct an unsafe condition. Consequently, this AD would require you to remove rivets that have not been fully age hardened and replace them with bolts, washers, and nuts in specific locations where reduction in rivet strength affects overall structural capability. This AD retains the actions of the previous AD until the rivets are replaced with the bolts, washers, and nuts. We are issuing this AD so that wing ultimate load requirements are met. If wing ultimate load requirements are not met, wing failure could result with consequent loss of control of the airplane.
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86-11-02: 86-11-02 BRITISH AEROSPACE: Amendment 39-5323. Applies to Model BAC 1-11 200 and 400 series airplanes, certificated in any category. To detect overspeeding of the cold air unit, accomplish the following within the next 120 days after the effective date of the AD, or prior to reaching the threshold indicated in each paragraph below, whichever is the later, unless already accomplished:
A. Prior to the accumulation of 10,000 flight hours or 8 years in service, whichever is the earlier, and thereafter at intervals not to exceed 3,000 flight hours or 14 months, whichever occurs first, perform a functional test of the cold air unit overheat protection circuits in accordance with paragraph 2.1 of the accomplishment instructions of British Aerospace BAC 1-11 Alert Service Bulletin 21-A-PM5863, Revision 2, dated June 12, 1984. If found faulty, the overheat protection circuits must be repaired before further flight.
B. For aircraft not incorporating Graviner 156D overheat detectors, prior to 300 flight hours after the effective date of this AD, perform a workshop calibration and functional test of the overheat detectors; thereafter, repeat this test at intervals not to exceed 3,000 flight hours or 14 months, whichever occurs first.
C. For aircraft incorporating Graviner 156D overheat detectors which have accumulated 7,000 flight hours or 4 years since new or from last calibration, perform a workshop calibration and functional test of the overheat detectors within the next 3,000 flight hours or fourteen (14) months, whichever is the earlier; thereafter, repeat this test at intervals not to exceed 10,000 flight hours or 6 years, whichever occurs first.
D. Overheat detectors that do not pass the tests of paragraphs B. or C., above, must be replaced before further flight.
E. An alternate means of compliance or adjustment of the compliance time, which provides an acceptable level of safety may be used when approved by the Manager, StandardizationBranch, ANM-113, FAA, Northwest Mountain Region.
F. Special flight permits may be issued in accordance with FAR 21.197 and 21.199 to operate airplanes to a base for the accomplishment of inspections and/or modifications required by this AD.
All persons affected by this directive who have not already received the appropriate service document from the manufacturer may obtain copies upon request to British Aerospace, Inc., Box 17414, Dulles International Airport, Washington, D.C. 20041. These documents may be examined at the FAA, Northwest Mountain Region, 17900 Pacific Highway South, Seattle, Washington, or the Seattle Aircraft Certification Office, 9010 East Marginal Way South, Seattle, Washington.
This amendment becomes effective July 3, 1986.
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98-18-14: This amendment adopts a new airworthiness directive (AD) that is applicable to certain Boeing Model 757-200 series airplanes. This action requires a one-time detailed visual inspection to detect damage or chafing of certain electrical wire bundles, and to verify adequate clearance exists between the wire bundles and adjacent disconnect bracket; and repair, if necessary. This amendment is prompted by a report indicating that damaged wires caused an electrical short in the electrical panel, which resulted in a shower of sparks from the overhead panel. The actions specified in this AD are intended to prevent failure of essential electrical systems and a potential fire hazard for passengers and crewmembers, due to damage or chafing of electrical wire bundles.
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78-14-06: 78-14-06 GULFSTREAM AMERICAN CORPORATION (GAC) (FORMERLY GRUMMAN AMERICAN AVIATION CORPORATION: Amendment 39-3261 as amended by amendment 39-3313. Applies to GAC Model G-1159, serial numbers 1 through 229, and 775, airplanes certificated in all categories.
Compliance is required as indicated, unless already accomplished.
To prevent cabin window pane failure and possible engine damage, accomplish the following:
1. Prior to the accumulation of 600 landings on any window, or within the next 10 landings after the effective date of this AD, whichever occurs later, accomplish the following:
A. Inspect and replace all outer cabin window panes in accordance with GAC Customer Bulletin 270A, dated September 18, 1978, or later revision approved by the Chief, Engineering and Manufacturing Branch, Federal Aviation Administration, Southern Region, or in an equivalent manner approved by the Chief, Engineering and Manufacturing Branch, Federal Aviation Administration, SouthernRegion. The visual checks for cracks required by Customer Bulletin 270A may be performed by the pilot. The remaining provisions of this AD apply to aircraft with any reduced thickness outer cabin window pane installed with 600 or more landings.
B. Restrict airplane operations to a maximum cabin pressure differential of 8.0 psi and install one of the following placards on the instrument panel in full view of the pilot, or in an equivalent location approved by the FAA, utilizing a minimum of 1/8 inch high letters with the wording:
1. "DO NOT EXCEED A MAXIMUM CABIN PRESSURE DIFFERENTIAL OF 8.0 PSI. THE TABLE CONTAINED IN GAAC LETTER DATED JUNE 20, 1978, MAY BE UTILIZED. COMPLY WITH THE INSPECTION REQUIREMENTS OF AD 78-14-06 PRIOR TO EACH FLIGHT."
2. "DO NOT EXCEED A MAXIMUM CABIN PRESSURE DIFFERENTIAL OF 8.0 PSI."
C. Incorporate G-1159 Airplane Flight Manual Interim Revision No. 19-5 dated September 21, 1978, in the Basic Airplane Flight Manual dated April 1, 1969.
2. Repeat the inspection and replacement requirements of paragraph (1)(A) of this AD prior to each flight.
3. The inspection requirements and restrictions on operation may be discontinued, and the AFM Interim Revision removed once all affected outer cabin window panes are either replaced with full thickness outer panes identified in accordance with GAC Customer Bulletin 270A dated September 18, 1978, or later revision approved by the Chief, Engineering and Manufacturing Branch, Federal Aviation Administration, Southern Region; or replaced with windows with less than 600 landings.
4. For the purpose of complying with this AD, subject to acceptance by the assigned FAA maintenance inspector, the number of landings may be determined by dividing each airplane's hours' time in service by the operator's fleet average time from take-off to landing for the airplane type. Alternately, if an operator has recorded pressure cycles, the number of pressure cycles may be used in lieu of landings.
Amendment 39-3261 became effective July 20, 1978.
This amendment 39-3313 becomes effective October 9, 1978.
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78-14-01: 78-14-01 CESSNA: Amendment 39-3259. Applies to those Models 340 (Serial Numbers 340-0301 and up) and 340A (Serial Numbers 340A0001 through 340A0447) airplanes, certificated in all categories, which have Cessna Part Number 9910227-1 or 9910227-2 Optional Storage Cabinet or 9910284-2 Optional Refreshment Center installed.
NOTE: When the above-noted cabinet or center is installed, it will be located forward (as related to airplane direction of flight) of the right aft-facing passenger seat and aft of the partition separating the pilot's compartment from the passenger compartment.
COMPLIANCE: Required as indicated, unless already accomplished.
To assure easy opening of and unobstructed access to the emergency exit during those emergency situations wherein the cabin entrance door cannot be used, within the next 50 hours time-in-service after the effective date of this AD, accomplish the following:
A) Relocate Cessna Part Number 9910227-1 or 9910227-2 Optional Storage Cabinet or 9910284-2 Optional Refreshment Center and modify the right aft-facing passenger seat, all in accordance with Cessna Multi-Engine Service Letter Number ME78-18, dated May 22, 1978, and the modification instructions attached thereto, dated May 22, 1978, or later revisions.
B) Any equivalent method of compliance with this AD must be approved by the Chief, Engineering and Manufacturing Branch, FAA, Central Region.
This amendment becomes effective on July 13, 1978.
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