航空 发表于 2011-4-11 09:35:53

CFM56-5B/P & CFM56-7B HPT Blade Update

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航空 发表于 2011-4-11 09:36:16

CFM56-5B/P &amp;<BR>CFM56-7B<BR>HPT Blade<BR>Update<BR>September 2001<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 2<BR>Agenda<BR>• Status of HPT blade shank cracking investigation<BR>• Status of HPT blade airfoil separation<BR>investigation<BR>HPT Blade Shank<BR>Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 4<BR>HPT Blade Shank Cracking<BR>• CFM56-5B6/2P IFSD<BR>- November 2000<BR>- Contained<BR>- TSN / CSN = 9027 / 8745<BR>- HPT Blade separated in blade shank<BR>- HPT Blade PN 2002M52P04<BR>- One other shank separation due to secondary damage<BR>- Other blade airfoils separated due to secondary damage<BR>Event Description<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 5<BR>CFM56-5B/P &amp; CFM56-7 Fleet (Swissair Corrected 9/6/01)<BR>0<BR>100<BR>200<BR>300<BR>400<BR>500<BR>600<BR>0<BR>1000<BR>2000<BR>3000<BR>4000<BR>5000<BR>6000<BR>7000<BR>8000<BR>9000<BR>Cycles Since New<BR>Number of Engines CFM56-5B/P<BR>CFM56-7<BR>CFM56-5B/P Cumulative Cycles: 2,989,943<BR>CFM56-7 Cumulative Cycles: 4,690,173<BR>Blade Common to CFM56-5B/P &amp; CFM56-7<BR>• No additional shank separation events<BR>– 2915 engines and growing<BR>–Over 7.5 million cycles<BR>Event<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 6<BR>• HPT blade is a single crystal N5 material, with an<BR>aluminide internal coating<BR>- Coating reduces oxidation/corrosion<BR>- Three coating processes used<BR>- All three coating processes within specification<BR>- Coating thickness correlates with process<BR>• Coating thickness affects LCF initiation<BR>- Laboratory bar testing<BR>- Thinner coating better<BR>• Cracking initiated at high stress location<BR>- Cooling cavity transition<BR>Background<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 7<BR>Cross Sectional View of Cooling Cavity<BR>Local stress<BR>riser at transition<BR>0.420 inch (10,7 mm)<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 8<BR>Metallurgical Investigation<BR>• Initiated at mid-cooling passage<BR>– Initiation / propagation in Low Cycle Fatigue (LCF)<BR>– Transitioned to crystallographic fatigue<BR>– Shank geometry common to all 2002M52P04 through<BR>P14 blade part numbers<BR>Crack<BR>Location<BR>Cross sectional<BR>view of cooling<BR>cavity<BR>Primary blade<BR>Separation<BR>Secondary blade<BR>separation<BR>(Tensile overload)<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 9<BR>• Nine engines removed to sample high-cycle blades<BR>– Five CFM56-5B/P (up to 7599 CSN)<BR>– Four CFM56-7B (up to 9050 CSN)<BR>– Two of the three coating processes represented<BR>- Limited data from second process<BR>- Blades from third process too young for meaningful data<BR>• Findings<BR>– Approximately 3600 blades inspected<BR>- Sampling engines plus routine shop visits<BR>- Visual, eddy current, and metallurgical<BR>– 141 blades have been found with shank cracks<BR>- All cracked blades from process that yields thickest coating<BR>- All cracks detected using Eddy Current probe &amp; verified by cut up<BR>Field Investigation<BR>Cracking Not as Severe as Originally Estimated<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 10<BR>• Test Program<BR>• Blade Design Changes<BR>• Blade Rework<BR>• Field Recommendation<BR>The Next Steps<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 11<BR>The Next Steps - Extensive Test Program<BR>• Component (Whirligig) Test<BR>– Accelerated cyclic aging<BR>- Blades selected to test sensitivity to coating process<BR>– Test terminated<BR>- Completed 6,849 cycles<BR>- No internal shank cracks<BR>- Blade separation related to test setup<BR>- Ambient pressure test conditions not representative of<BR>in-service loading at dovetail min-neck area<BR>• Factory engine test planned - 4Q01 thru 2Q02<BR>– Mix of field returned high cycle blades and redesign blades<BR>– Data to supplement field data<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 12<BR>• Interim action taken on new production blades<BR>– PN 2002M52P14 blade released<BR>- CFM56-5B/P SB 72-0400<BR>- ESN Intro.: 575-233 and up<BR>- CFM56-7B SB 72-0337<BR>- ESN Intro.: 889-505 and up<BR>888-477, -496 through -497, -503 and up<BR>– Thinner internal coating in shank area<BR>• PN 1957M10P01 to be released<BR>– Same coating process as P14 blade<BR>– Redesigned internal casting geometry to reduce stress<BR>– Service Bulletin 1Q02<BR>The Next Steps - Blade Design Changes<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 13<BR>The Next Steps - Blade Rework<BR>• CFM investigating feasibility<BR>- Inspect for internal cracking<BR>- Strip process to remove internal coating<BR>- External coating rejuvenation/tip repair<BR>- Re-identify to new part number<BR>• Estimate 2Q02 availability<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 14<BR>The Next Steps - Recommendations<BR>• No change to current maintenance recommendations<BR>– No on-wing inspection possible (internal coating)<BR>– At SV process per ESM and applicable SB’s<BR>• Update on field findings and metallurgical evaluation<BR>to be provided 1Q02<BR>– Continue to evaluate blades returned from routine shop visits<BR>– Continue detailed metallurgical evaluations of blades<BR>- Obtain experience with the other coating processes<BR>• Establish field recommendations based on field<BR>returned blade findings<BR>- Coating process<BR>- Engine model / rating differences<BR>- Data supplemented by factory engine test<BR>HPT Blade Shank Cracking<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 15<BR>Update on Field Findings and Recommendation 1Q02<BR>Summary<BR>• HPT blade shank separation on 5B/P engine<BR>– Internal coating and shank internal geometry contribute to<BR>crack initiation<BR>– One event in over 7.5 million cycles<BR>• Redesign blades<BR>– Thinner internal coating - available<BR>– Thinner internal coating with redesign casting contour 1Q02<BR>• Field recommendation for existing blades<BR>– Cracking not as severe as original estimates<BR>– Continue evaluating high time blades from service<BR>– Determining blade rework feasibility<BR>HPT Blade Shank Cracking<BR>HPT Blade Airfoil<BR>Separations<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 17<BR>Events<BR>HPT Blade Airfoil Separations<BR>• Four airfoil separation events, one CFM56-5B/P, three CFM56-7B<BR>– Time, cycle and thrust ratings vary<BR>– All engines were first run<BR>Event date Model ESN Rating TSN CSN Part Number<BR>May 2000 -7B 875-256 B22 5057 3265 2002M52P05<BR>Nov 2000 -7B 874-163 B24 6401 6164 2002M52P05<BR>Feb 2001 -7B 876-561 B26 769 1006 2002M52P11<BR>Jul 2001 -5B/P 779-384 B3 1567 758 2002M52P05<BR>• Events have similar overall characteristics -5B/P -7B<BR>– Airfoils separated just above platform  <BR>– No evidence of abnormal operation unknown <BR>– No evidence of combustor involvement investigating <BR>– No source of fatigue stimulus identified investigating <BR>– No evidence of manufacturing related cause investigating <BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 18<BR>HPT Blade<BR>Airfoil<BR>Separation<BR>Rupture<BR>Tensile overload<BR>LCF<BR>HCF<BR>HPT Blade Airfoil Separation<BR>Eliminated<BR>Probability<BR>Potential Separation Mechanisms Scenarios<BR>Low<BR>High<BR>Medium<BR>• Pre existing trail edge root cracks<BR>• Material pedigree<BR>• Coating impact (internal cracks)<BR>• Local stress exceeds material capability<BR>• DOD/FOD<BR>• Loss of cooling flow<BR>• Plugging in blade<BR>• Plugging in inducer<BR>• Loss of retainer sealing<BR>• Material pedigree<BR>• Pre existing cracks/missing material (frequency shift)<BR>• Material pedigree<BR>• Coating impact (internal cracks)<BR>• Loss of damping<BR>• High mean stress<BR>• Vibratory stimulus<BR>• HPT nozzle area<BR>• Combustor profile/pattern<BR>• Fuel staging<BR>• Fuel nozzle flow<BR>• LPT nozzle area<BR>• TBV scheduling<BR>• Secondary flow circuit<BR>HPT Blade Airfoil Separations<BR>CFM CFM56-5B &amp; -7 HPT Blade Update Proprietary information Page 19<BR>• Blade frequency check - complete<BR>- No change from original certification<BR>• Telemetry engine test (vibratory stimulus<BR>source)<BR>- Instrumented HPT blade and secondary air system<BR>- Test underway, results due at year-end<BR>Investigation Status<BR>HPT Blade Airfoil Separations

979199501 发表于 2011-4-12 00:16:26

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CFM56-7B TRAINING MANUAL ENGINE FAN TRIM BALANCE

kinran 发表于 2011-6-4 23:45:10

:victory: :victory:

bocome 发表于 2011-7-31 04:08:48

CFM56-5B/P & CFM56-7B HPT Blade Update

Skydrolor5606 发表于 2011-10-13 10:34:17

Have a look, this is great info

piglet2000 发表于 2015-3-23 10:33:29

先收藏看看

titanium 发表于 2016-4-16 13:51:25

好东西好东西
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