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2013-22-13: We are adopting a new airworthiness directive (AD) for certain PILATUS Aircraft Ltd. Model PC-7 airplanes. This AD results from mandatory continuing airworthiness information (MCAI) issued by the aviation authority of another country to identify and correct an unsafe condition on an aviation product. The MCAI describes the unsafe condition as chafing on the wiring harness attached to the engine mounting frame on the right-hand side of the engine compartment, which could cause a short circuit and could result in a fire in the engine compartment. We are issuing this AD to require actions to address the unsafe condition on these products.
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2000-02-25: This document adopts a new airworthiness directive (AD) that applies to all Mitsubishi Heavy Industries, Ltd. (Mitsubishi) Model MU-2B series airplanes. This AD requires you to revise the Airplane Flight Manual (AFM) to include requirements for activating the airframe pneumatic deicing boots. This AD is the result of reports of in-flight incidents and an accident that occurred in icing conditions where the airframe pneumatic deicing boots were not activated. The actions specified by this AD are intended to assure that flightcrews have the information necessary to activate the pneumatic wing and tail deicing boots at the first signs of ice accumulation. Without this information, flightcrews could experience reduced controllability of the aircraft due to adverse aerodynamic effects of ice adhering to the airplane prior to the first deicing cycle.
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2013-22-16: We are adopting a new airworthiness directive (AD) for certain Agusta S.p.A. (Agusta) Model AW139 helicopters. This AD requires replacing certain solder splices in the co-pilot audio system. This AD was prompted by the discovery of improper installation of solder splices on the co-pilot audio system causing intermittent noise through the audio system during flight. The actions of this AD are intended to prevent degradation and complete loss of communications between the pilot and co-pilot during flight, impairing the co-pilot's capability to react immediately to operational difficulties, which could lead to subsequent loss of control of the helicopter.
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2013-22-11: We are superseding Airworthiness Directive (AD) 2009-10-06 for certain The Boeing Company Model 747-400 and -400D series airplanes. AD 2009-10-06 required repetitive inspections to detect cracks in the floor panel attachment fastener holes of the Section 41 upper deck floor beam upper chords, and corrective actions if necessary; and repetitive post-repair and post-modification inspections, and corrective actions if necessary. This new AD adds repetitive inspections of Section 44 upper deck floor beam upper chords, and corrective actions if necessary; repetitive post-repair and post- modification inspections, and corrective actions if necessary; and replacement of the upper deck floor beam upper chords. This AD was prompted by an evaluation by the design approval holder (DAH) indicating that certain upper chords of the upper deck floor beam are subject to widespread fatigue damage (WFD). We are issuing this AD to detect and correct fatigue cracking in certain upper chords of the upper deck floor beam, which could become large and cause the floor beams to become severed and result in rapid decompression or reduced controllability of the airplane.
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75-21-02: 75-21-02 MESSERSCHMITT-BOLKOW-BLOHM: Amendment 39-2380. Applies to Models BO-209 airplanes, S/N's 101 thru 201, and 301, certificated in all categories.
Compliance is required as indicated.
To prevent possible failure of the fuselage carry-through member of the wing, accomplish the following:
(a) Within the next 10 hours' time in service after the effective date of this AD, unless already accomplished, visually inspect the rear side of the beam web of fuselage frame No. 2 for cracks, in accordance with paragraph C.1. of Messerschmitt-Bolkow-Blohm (MBB) Service Bulletin No. 209-20-1 7/74 dated 7/74, or an FAA-approved equivalent.
(b) If the inspection required by paragraph (a) of this AD reveals cracks, before further flight, repair and reinforce fuselage frame No. 2 in accordance with MBB Instruction No. MBB 209-1/74, undated, or an FAA-approved equivalent.
(c) If the inspection required by paragraph (a) of this AD reveals no cracks, within the next 50 hours' time in service after the effective date of this AD, unless already accomplished, reinforce fuselage frame No. 2 in accordance with MBB Instruction No. MBB 209-1/74, undated, or an FAA-approved equivalent.
This amendment becomes effective October 16, 1975.
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73-11-01: 73-11-01 HUGHES: Amendment 39-1641. Applies to Hughes Model 269C Helicopters, certificated in all categories, incorporating idler pulley bearings, P/N 269A5050-62.
Compliance required as indicated:
To prevent possible failure of idler pulley bearings, accomplish the following:
(A) For all helicopters, serial numbers 0004 through 0092 listed in Hughes Service Information Notice No. N-90.1, dated September 7, 1971, which, as of the effective date of this AD, have idler pulley bearings, P/N 269A5050-62 installed,
(1) but have not previously had the replacement and inspection of the bearings accomplished as described in said Notice; perform the replacement and inspection described in said Notice, or later FAA-approved revisions, within the next 50 hours time in service on helicopters having 150 or more hours time in service on the bearings on the effective date of this AD, or at the first 200 hour periodic inspection on helicopters having less than 150 hours time inservice on the bearings on the effective date of this AD. Repeat the installation and inspection, per (C), below.
(2) and have previously had the replacement and inspection of the bearings accomplished as described in said Notice as of the effective date of this AD, perform the replacement and inspection instructions in said Notice, or later FAA-approved revisions, before the accumulation of 600 hours total time in service on the bearings, or within 50 hours additional time in service after the effective date of this AD, whichever occurs later. Repeat the installation and inspection, per (C), below.
(B) For all helicopters, other than those listed in (A) above, which as of the effective date of this AD, have idler pulley bearings P/N 269A5050-62 installed, with less than 600 hours total time in service, replace the bearings with new P/N 269A5050-62 bearings within 50 hours additional time in service after the effective date of this AD, or before the accumulation of 600 hours total time in service, whichever occurs later, in accordance with the replacement and inspection instructions in Hughes Service Information Notice No. N-90.1, or later FAA-approved revisions. All helicopters with bearings with 600 hours or more total time in service as of the effective date of this AD, replace the bearings with new P/N 269A5050-62 bearings within 50 hours time in service after the effective date of this AD, in accordance with the replacement and inspection instructions in Notice No. N-90.1, or later FAA-approved revisions. Repeat the installation and inspection per (C), below.
(C) Thereafter, replace the idler pulley bearings, at or before the accumulation of 600 hours total time in service on the bearing, in accordance with the instructions provided in Hughes Service Information Notice No. N-90.1 dated September 7, 1971, or later FAA-approved revisions.
(D) Mutilate and discard old bearings per Part II, Hughes Service Information Notice No. N-90.1, dated September 7, 1971, or later FAA-approved revisions.
NOTE: Special caution should be exercised in performing the TIR runout and end play checks of Part III of the Notice.
(E) Equivalent replacement and inspection procedures of idler pulley bearing may be approved by the Chief, Aircraft Engineering Division, FAA, Western Region.
This amendment becomes effective May 21, 1973.
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2018-07-14: We are adopting a new airworthiness directive (AD) for certain Pacific Aerospace Limited Model 750XL airplanes. This AD results from mandatory continuing airworthiness information (MCAI) issued by the aviation authority of another country to identify and correct an unsafe condition on an aviation product. The MCAI describes the unsafe condition as insufficient engagement of the couplings with the flex drive of the rudder trim drive system. We are issuing this AD to require actions to address the unsafe condition on these products.
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2013-22-14: We are adopting a new airworthiness directive (AD) for any DG Flugzeugbau GmbH Model DG-1000T glider equipped with a Solo Kleinmotoren Model 2350 C engine. This AD results from mandatory continuing airworthiness information (MCAI) issued by the aviation authority of another country to identify and correct an unsafe condition on an aviation product. The MCAI describes the unsafe condition as engine shaft failure and consequent propeller detachment. We are issuing this AD to require actions to address the unsafe condition on these products.
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2000-23-34: This amendment adopts a new airworthiness directive (AD), applicable to all Boeing Model 737-300, -400, and -500 series airplanes, that requires replacement of the existing autothrottle computer with a new, improved autothrottle computer. This amendment is prompted by reports of asymmetric thrust conditions during flight caused by irregular autothrottle operation in which the thrust levers slowly move apart causing the airplane to bank excessively and go into a roll. The actions specified by this AD are intended to prevent such conditions, which could result in loss of control of the airplane.
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2003-13-05: This amendment adopts a new airworthiness directive (AD) that applies to all Iniziative Industriali Italiane S.p.A. (3I) Models Sky Arrow 650 TC and 650 TCN airplanes. This AD requires you to repetitively inspect the engine mount for cracks and modify or replace the engine mount if cracks are found. This AD is the result of mandatory continuing airworthiness information (MCAI) issued by the airworthiness authority for Italy. The actions specified by this AD are intended to detect and correct cracks in the engine mount, which could result in failure of the engine mount. Such failure could lead to separation of the engine from the airplane.
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