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Helicopters
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Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 October 2005
DOI: 10.31399/asm.tb.faesmch.t51270082
EISBN: 978-1-62708-301-0
... Abstract This chapter discusses the investigation of a helicopter tail rotor blade that fractured during a test flight. It includes images of the damaged blade along with close-ups of both sides of the blade tip showing that the tip tore off at the rivets. Based on their observations...
Abstract
This chapter discusses the investigation of a helicopter tail rotor blade that fractured during a test flight. It includes images of the damaged blade along with close-ups of both sides of the blade tip showing that the tip tore off at the rivets. Based on their observations, investigators concluded that the rotor blade encountered a foreign object in flight causing the tip to shear off.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 October 2005
DOI: 10.31399/asm.tb.faesmch.t51270107
EISBN: 978-1-62708-301-0
... Abstract A helicopter lost the outboard rib on a tail rotor blade in flight and was forced to land because of the resulting vibrations. The investigation that followed is described in this chapter along with key findings. As shown in a sketch, the rib is held in place by a set of six rivets...
Abstract
A helicopter lost the outboard rib on a tail rotor blade in flight and was forced to land because of the resulting vibrations. The investigation that followed is described in this chapter along with key findings. As shown in a sketch, the rib is held in place by a set of six rivets. All of the rivets on the failed blade were missing and sections of skin were torn from most of the rivet holes. One such rivet hole was examined in a SEM, revealing corrosion on one of the tear surfaces and dimples (characteristic of ductile overload failure) on the other. In addition, the inner surface of the skin nearest the rib was found to be coated with soot, the paint on the leading edge of the top skin was abraded, and the skin in that area had thinned. Based on their findings, investigators concluded that the outboard rib separated because of stress-corrosion cracking around the rivets, and erosion may have contributed.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 October 2005
DOI: 10.31399/asm.tb.faesmch.t51270156
EISBN: 978-1-62708-301-0
... Abstract The tail rotor blade of a helicopter developed a visible crack during service. The cracked region was removed from the blade and the fracture surface was examined in a SEM, revealing shallow pitting on the inside surface of the skin and a corresponding reduction in thickness. Based...
Abstract
The tail rotor blade of a helicopter developed a visible crack during service. The cracked region was removed from the blade and the fracture surface was examined in a SEM, revealing shallow pitting on the inside surface of the skin and a corresponding reduction in thickness. Based on these findings, investigators concluded that the failure was due to a fatigue crack initiated from a corrosion pit, which may have been caused by chemicals released by the burning of bonding resin.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 October 2005
DOI: 10.31399/asm.tb.faesmch.t51270162
EISBN: 978-1-62708-301-0
... Abstract Several components from the tail boom of a helicopter were found fractured at a crash site, including gusset plates, the hat section near the lower yoke, and a cable that controls the pitch of the tail rotor. The components were recovered from the wreckage and taken to a lab for closer...
Abstract
Several components from the tail boom of a helicopter were found fractured at a crash site, including gusset plates, the hat section near the lower yoke, and a cable that controls the pitch of the tail rotor. The components were recovered from the wreckage and taken to a lab for closer examination. Based on their observations and the results of SEM fractography, failure analysts concluded that the gusset plates failed due to a downward bending overload in tension and that the tail rotor control cable snapped due to tensile overload. There were no indications of delayed failure in any of the areas examined.
Series: ASM Technical Books
Publisher: ASM International
Published: 01 October 2005
DOI: 10.31399/asm.tb.faesmch.t51270154
EISBN: 978-1-62708-301-0
... Abstract The aluminum alloy skin on the main rotor blade of a helicopter tore off in flight, and an investigation was subsequently conducted to find the cause. Visual examination and SEM fractography revealed that a fatigue crack originated on the underside of a rivet hole at the trailing edge...
Abstract
The aluminum alloy skin on the main rotor blade of a helicopter tore off in flight, and an investigation was subsequently conducted to find the cause. Visual examination and SEM fractography revealed that a fatigue crack originated on the underside of a rivet hole at the trailing edge of the blade. The crack then propagated through the outer skin toward the leading edge of the blade. Once the fatigue crack reached critical length, the sheet metal fractured catastrophically, tearing away from the blade.
Series: ASM Technical Books
Publisher: ASM International
Published: 01 October 2005
DOI: 10.31399/asm.tb.faesmch.t51270110
EISBN: 978-1-62708-301-0
... Abstract Helicopter control mechanisms were failing at a higher than normal rate on high-altitude flights in mountainous regions. All of the failures occurred at or near attachment points on pressurized tubes, causing a pressure drop and partial loss of function. Visual and SEM examinations...
Abstract
Helicopter control mechanisms were failing at a higher than normal rate on high-altitude flights in mountainous regions. All of the failures occurred at or near attachment points on pressurized tubes, causing a pressure drop and partial loss of function. Visual and SEM examinations revealed cracks along the inner surface of the tubes, some of which had propagated through the thickness of the wall. Cracks emanating from weld toes were also visible. Based on their observations, investigators concluded that the tubes were subjected to excessive flexural load, causing cracks due to fatigue. They also provide recommendations for avoiding such failures in the future.
Image
in Cold Spray Applications in Repair and Refurbishment for the Aerospace, Oil and Gas, and Power-Generation Industries
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 11.2 Magnesium repair by cold spray in the UH-60 helicopter. (a and b) Corroded transmission housing that was repaired by using (c) a cold-sprayed commercial-purity aluminum/Al-6061 coating. (d) Dented gear box component before and (e) after cold spray coating. (f) Macro
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Published: 01 October 2011
Fig. 17.4 Flowchart of materials selection process for a helicopter main landing gear
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Image
Published: 01 January 2000
Fig. 42 Fretting corrosion of the bearing race of a helicopter drive train over-running clutch. This problem was caused by vibration (and rubbing) of the ball in the inner and outer races of bearings that support the rotor shaft. Note the two areas on the left- and right-hand sides
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Image
Published: 01 December 2009
Fig. 1.1 The mast-mounted sight (MMS) on a U.S. Army OH-58 Kiowa helicopter. The MMS contains a laser, a television, and an infrared sensor. Photo courtesy of U.S. Army Aviation Center, Fort Rucker, AL
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Image
Published: 01 October 2012
Fig. 1.8 Main transmission housing for a heavy lift helicopter that was sand cast in WE43B magnesium alloy having a T6 temper. Casting weight = 93 kg (206 lb). Courtesy of Fansteel Wellman Dynamics. Source: Ref 1.3
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Image
Published: 01 August 1999
Fig. 12 Corrosion of an aluminum alloy 2024 helicopter rotor blade. (a) Leading edge at the blade tip showing three areas of severe corrosion. (b) Corrosion in the aluminum alloy skin at area 1. (c) Rupture of the surface skin at area 3 due to buildup of corrosion products in the underlying
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Published: 30 June 2023
Fig. 5.7 Handling of a sand cast helicopter gearbox. Courtesy of Avio Aero
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Published: 01 December 2006
Fig. 2.74 Helicopter landing platform manufactured from aluminum alloys with the multicore large section shown as the supporting profile with multifunctions including integrated fire extinguisher foam pipe in the upper part of the section. Source: Alusuisse
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Published: 01 December 2006
Fig. 2.75 Assembly of the supporting profiles shown in Fig. 2.74 for the helicopter landing platform. Source: Alusuisse
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in Cold Spray Applications in Repair and Refurbishment for the Aerospace, Oil and Gas, and Power-Generation Industries
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 11.6 (Part 1) Examples of aluminum cold-sprayed coatings to repair mechanically damaged parts on an Army helicopter mast support. (a) Snap ring groove and (b) splines filled with cold-sprayed aluminum to restore original dimensions. Source: Ref 11.5 , 11.6 . (c) Naval helicopter
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in Cold Spray Applications in Repair and Refurbishment for the Aerospace, Oil and Gas, and Power-Generation Industries
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 11.6 (Part 2) Examples of aluminum cold-sprayed coatings to repair mechanically damaged parts on an Army helicopter mast support. (a) Snap ring groove and (b) splines filled with cold-sprayed aluminum to restore original dimensions. Source: Ref 11.5 , 11.6 . (c) Naval helicopter
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in Advanced Techniques of Failure Analysis
> Failure Analysis of Engineering Structures: Methodology and Case Histories
Published: 01 October 2005
Fig. 5.12 A portion of the failure-experience matrix for documenting failures of helicopter components. Source: Ref 32 . With kind permission of American Society of Mechanical Engineers
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in Cold Spray Applications in Repair and Refurbishment for the Aerospace, Oil and Gas, and Power-Generation Industries
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 11.4 High-pressure cold-sprayed aluminum on magnesium, using nitrogen gas. (a) Helicopter tail housing corrosion. (b) Transmission tee box. Source: Ref 11.4 . (c) Shim replacement. Source: Ref 11.2
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