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2005-12-05: The FAA is superseding an existing airworthiness directive (AD), which applies to certain transport category airplanes. That AD currently requires modification of the reinforced flight deck door. This new AD expands the applicability of the existing AD and requires other actions related to the reinforced flight deck door. These other actions include modifying the door, inspecting and modifying wiring in the area, and revising the maintenance program to require more frequent testing of the decompression panels of the flight deck door. This AD is prompted by reports of discrepancies with the reinforced flight deck door. We are issuing this AD to prevent inadvertent release of the decompression latch and consequent opening of the decompression panel in the flight deck door, or penetration of the flight deck door by smoke or shrapnel, any of which could result in injury to the airplane flightcrew. This AD also requires finding and fixing wire chafing, which could result in arcing,fire, and/or reduced controllability of the airplane.
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47-51-04: 47-51-04 CURTISS-WRIGHT Applies to All C-46 Series Airplanes Incorporating Hamilton Standard Propellers. \n\n\tCompliance required by March 1, 1948. \n\n\tTo eliminate failure of the propeller flexible feathering line, an antiheat shield shall be installed in accordance with the following instructions: \n\n\t(a)\tRemove the engine cowling adjacent to the propeller feathering line and inspect the flexible propeller feathering hose and lagging material (if installed) for disintegration and deterioration. Replace hose if deterioration is evident. \n\n\t(b)\tFabricate the antiheat shield and attaching clamps as shown in Figure 1. \n\n\t(c)\tPlace antiheat shield over the flexible hose and mount the shield on the engine mount by use of the clamps shown in Figure 1. The shield should be centered over the flexible hose. It may be necessary to rebend the metal feathering line slightly to achieve proper centering. \n\n\t(d)\tUpon completion of installation, check operation of propeller feathering system. \n\n\t(The above information is also contained in Army Air Forces Technical Order 01-25L- 105 dated April 2, 1947. Copies of this Technical Order are not available for distribution by the FAA.)
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2005-13-30: This amendment adopts a new airworthiness directive (AD), applicable to all Boeing Model 737-100, -200, and -200C series airplanes, that requires repetitive inspections to detect discrepancies of certain fuselage skin panels located just aft of the wheel well, and repair if necessary. The actions specified by this AD are intended to detect and correct fatigue cracking of the skin panels, which could cause rapid decompression of the airplane. This action is intended to address the identified unsafe condition.
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2005-13-18: The FAA is superseding an existing airworthiness directive (AD), which applies to certain SAFT America Inc. part number (P/N) 021929-000 (McDonnell Douglas P/N 43B034LB02) and P/N 021904-000 (McDonnell Douglas P/N 43B034LB03) nickel cadmium batteries. That AD currently requires replacing all battery terminal screws, verifying that the battery contains design specification cells, and replacing the cells if the battery contains non-design specification cells. This new AD requires an inspection for certain nickel cadmium batteries and, if necessary, replacing battery terminal screws with new hex head bolts and adding shims. This AD is prompted by a report of battery screws shearing off while under normal torque loads. We are issuing this AD to prevent internal shorting, arcing, and loss of emergency battery power due to failed battery screws, which could result in loss of emergency power to electrical flight components or other emergency power systems required in the event of loss of the aircraft primary power source.
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95-04-03: This amendment supersedes Airworthiness Directive (AD) 92-08-07, which currently requires inspecting (one-time) the wing front spar carry-through frame structure for cracks on certain Beech 33, 35, and 36 series airplanes, and repairing or reinforcing any cracked wing front spar carry-through frame structure. This action would make this one-time inspection repetitive. This action was prompted by numerous (43) reports received by the Federal Aviation Administration (FAA) of cracks found on the wing front spar carry-through frame structure of the affected airplanes. These cracks were found during the inspection required by AD 92-08-07. The actions specified by the proposed AD are intended to prevent spar carry-through frame structure failure caused by cracking, which, if not detected and corrected, could result in severe structural damage to the wing.
The incorporation by reference of certain publications listed in the regulations was previously approved by the Directorof the Federal Register as of March 18, 1992.
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2005-13-02: The FAA is adopting a new airworthiness directive (AD) for certain Bombardier Model CL-600-2C10 (Regional Jet series 700 & 701) series airplanes, and Model CL-600-2D24 (Regional Jet series 900) series airplanes. This AD requires revising the Airworthiness Limitations section of the Instructions of Continued Airworthiness by incorporating new repetitive inspections and an optional terminating action for the repetitive inspections, and repairing any crack. This AD is prompted by reports of hydraulic pressure loss in either the number 1 or number 2 hydraulic system due to breakage or leakage of hydraulic lines in the aft equipment bay and reports of cracks on the aft pressure bulkhead web around these feed-through holes. We are issuing this AD to prevent loss of hydraulic pressure, which could result in reduced controllability of the airplane, and to detect and correct cracks on the aft pressure bulkhead web, which could result in reduced structural integrity of the aft pressurebulkhead.
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95-11-14: This amendment adopts a new airworthiness directive (AD), applicable to Bell Helicopter Textron, Inc. Model 206A, 206B, 206L, 206L-1, 206L-3, and 206L-4 helicopters, that requires removal and replacement of certain crosstube assemblies (crosstubes). This amendment is prompted by two accidents attributed to crosstube failures and 27 field reports that indicated corrosion or metal fatigue may cause a failure of the affected crosstubes. The actions specified by this AD are intended to prevent failure of the crosstubes and subsequent loss of control of the helicopter.
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97-26-16: This amendment supersedes Airworthiness Directive (AD) 85-13-03 R2, which currently requires repetitively inspecting the engine mount beams for cracks on certain Cessna Aircraft Company (Cessna) Models 402C and 414A airplanes, and replacing any cracked beams. This AD requires incorporating engine mount kits that will eliminate the need for the repetitive inspection requirement of AD 85-13-03 R2. This AD results from the Federal Aviation Administration's policy on aging commuter-class aircraft, which is to eliminate or, in certain instances, reduce the number of certain repetitive short-interval inspections when improved parts or modifications are available. The actions specified by this AD are intended to prevent failure of the engine mount beam caused by fatigue cracks, which could result in loss of the engine with consequent loss of the airplane.
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47-30-06: 47-30-06 BEECH: (Was Mandatory Note 2 of AD-2-582-2.) Applies Only to AT-11 Airplanes Equipped With M-3 Generators Which Do Not Have Three-Pole-Single-Throw Relays Installed for Generator Control. \n\n\tTo be accomplished prior to certification or, if certificated, on next periodic inspection but not later than October 1, 1947. \n\n\tIn accordance with Figure 1 install a three-pole-single-throw relay, General Electric No. CR2791-B100G3 or equivalent, for the control of each generator. \n\n\n\n\n\tThe operating coil of the left generator relay should be controlled by a single-pole-single- throw "ON-OFF" switch mounted on the pilot's control panel adjacent to the left battery switch, and should be labeled "LEFT GEN. SW.". The operating coil of the right generator relay should be controlled by a single-pole-single-throw "ON-OFF" switch mounted on the pilot's control panel adjacent to the right battery switch and should be labeled "RIGHT GEN. SW.". The battery and generator switches should be located adjacent to each other in the order shown on Figure 1, and should be provided with a suitable gangbar such that pilot can throw the four switches to the "OFF" position in a single operation. \n\n\tThe generator control relays may be mounted in any convenient junction box or in a separate box provided therefore. Choice of relay location should be such that the length of generator field leads are kept to a minimum.
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2005-13-11: The FAA is adopting a new airworthiness directive (AD) for General Electric Company (GE) CT64-820-4 turboprop engines with stage 1 turbine disk and shaft, part number (P/N) 6004T47P03 or 4921T10P02 installed. This AD requires removing from service these stage 1 turbine disk and shafts at reduced compliance times. This AD results from the discovery by the manufacturer of low-cycle-fatigue (LCF) cracks found in stage 1 turbine disk and shafts, P/Ns 6004T47P03 and 4921T10P02. We are issuing this AD to prevent uncontained failure of the stage 1 turbine disk and shaft, resulting in damage to the airplane.
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