N9714B

On July 3, 2017, about 1815 central daylight time, a Cessna 208B airplane, N9714B, was substantially damaged during a forced landing near Alpine, Texas. The commercial pilot, who was the sole occupant, sustained minor injuries. The airplane was registered to and operated by Martinaire Aviation LLC under the provisions of Title 14 Code of Federal Regulations Part 135 as a cargo flight. Day visual meteorological conditions prevailed for the instrument rules (IFR) flight, which departed about 1812 from Alpine-Casparis Municipial Airport (E38), Alpine, Texas, with an intended destination of Maverick County Memorial International Airport (5T9), Eagle Pass, Texas.

While climbing through about 500 ft agl, the pilot heard a loud bang, followed by a squealing noise and an immediate loss of engine power. The pilot released back pressure on the controls and pulled the propeller control to feather. During the forced landing, the both wings were damaged due to impact with power poles and the airplane came to rest in a field.

A preliminary engine examination conducted at the salvage facility revealed distress to the compressor and power turbine blades. The left ignition lead was not connected with the ignition plug, and the pin on the left plug exhibited oxidation that was not evident on the pin on the right plug. The power control and reversing linkage was in place and secure.

The engine was removed from the airframe and transported to Pratt & Whitney Canada (PWC) facilities for examination. The power turbine blades were all present, but fractured, with varying lengths of blade span remaining. The power turbine wheel was sent to the PWC laboratory; no evidence of fatigue was found.

The power turbine vane ring (PTVR) was battered in various locations, with 11 thumbnail sized fractures at the leading and trailing edges. Additionally, there was one through hole, about 0.10 inches in diameter, near the trailing edge. The PTVR was not an original equipment manufacturer (OEM) part.

The compressor turbine (CT) shroud had four locations with deep impact marks, consistent with a blade release. The remaining surfaces of the CT shrouds were heavily battered, consistent with contact against smaller fragments.

The compressor turbine vane ring (CTVR) was part number 3029051 and the serial number was unreadable. An additional identification number, 13-769 0531R13 was vibro-peened on the part. Operator records were insufficient to ascertain the origin of the CTVR.

The CTVR did not conform to an OEM part, with vane cooling air exit slots that differed in shape and size. The investigation was not able to determine if cooling air performance was compromised.

The CTVR vane sealing plates welding differed from an OEM part and the axial locations of the vane trailing edge, which should all be on the same plane, were staggered. A variation of the axial stagger of the compressor turbine vanes would induce a flow variation to the CT blades, thereby increasing their vibrational amplitude. The investigation was not able to determine if this variation would affect CT blade longevity. The CTVR could not be tested due to damage.

The CT blades were all present, but fractured, at varying heights. Material analysis of the CT blades confirmed the existence of operational overtemperature conditions. Significant creep in the micro-structure of the blades that was observed indicated an imminent cracking probability. Creep is the tendency of a solid material to deform permanently under the influence of long-term mechanical stress that are still below the yield strength of the material and is more severe in materials that are subjected to heat for long periods.

The most recent borescope inspection of the CT blades occurred on April 12, 2017, with no defects reported. According to a video recording of this inspection, one CT blade was cracked. The technician who conducted the inspection stated that he was focused on the tip clearance of the blades and did not notice the crack.

The operator was approved by the Federal Aviation Administration for an 8000-hour time between engine overhaul. Raw trend monitoring data was manually collected by the operator's pilots during cruise and this trend data was monitored by Camp EHM, who advised the operator of engine health and maintenance. Camp EHM did not report any trend changes since the last inspection interval that was significant enough to alert the operator. Although trend monitoring has occasionally been able to detect a CT rotor in which all the blades have significant creep, it cannot detect cracks in a single blade. Also, manual trend monitoring does not capture engine temperature exceedances.