TY - JOUR
T1 - Exposure of ceramics and ceramic matrix composites in simulated and actual combustor environments
AU - More, Karren L.
AU - Tortorelli, Peter F.
AU - Ferber, Mattison K.
AU - Walker, Larry R.
AU - Keiser, James R.
AU - Miriyala, Narendernath
AU - Brentnall, William D.
AU - Price, Jeffrey R.
PY - 2000/4
Y1 - 2000/4
N2 - A high-temperature, high-pressure, tube furnace has been used to evaluate the long term stability of different monolithic ceramic and ceramic matrix composite materials in a simulated combustor environment. All of the tests have been run at 150 psia, 1204°C, and 15 percent steam in incremental 500 h runs. The major advantage of this system is the high sample throughput; >20 samples can be exposed in each tube at the same time under similar exposure conditions. Microstructural evaluations of the samples were conducted after each 500 h exposure to characterize the extent of surface damage, to calculate surface recession rates, and to determine degradation mechanisms for the different materials. The validity of this exposure rig for simulating real combustor environments was established by comparing materials exposed in the test rig and combustor liner materials exposed for similar times in an actual gas turbine combustor under commercial operating conditions.
AB - A high-temperature, high-pressure, tube furnace has been used to evaluate the long term stability of different monolithic ceramic and ceramic matrix composite materials in a simulated combustor environment. All of the tests have been run at 150 psia, 1204°C, and 15 percent steam in incremental 500 h runs. The major advantage of this system is the high sample throughput; >20 samples can be exposed in each tube at the same time under similar exposure conditions. Microstructural evaluations of the samples were conducted after each 500 h exposure to characterize the extent of surface damage, to calculate surface recession rates, and to determine degradation mechanisms for the different materials. The validity of this exposure rig for simulating real combustor environments was established by comparing materials exposed in the test rig and combustor liner materials exposed for similar times in an actual gas turbine combustor under commercial operating conditions.
UR - http://www.scopus.com/inward/record.url?scp=0033862467&partnerID=8YFLogxK
U2 - 10.1115/1.483197
DO - 10.1115/1.483197
M3 - Article
AN - SCOPUS:0033862467
SN - 0742-4795
VL - 122
SP - 212
EP - 218
JO - Journal of Engineering for Gas Turbines and Power
JF - Journal of Engineering for Gas Turbines and Power
IS - 2
ER -