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Proceedings Papers

Proceedings Volume Cover
ASME 1990 International Gas Turbine and Aeroengine Congress and Exposition
June 11–14, 1990
Brussels, Belgium
Conference Sponsors:
  • International Gas Turbine Institute
ISBN:
978-0-7918-7905-4
In This Volume
Volume 2: Aircraft Engine; Marine; Microturbines and Small Turbomachinery

Aircraft Engine

Determination of Cycle Configuration of Gas Turbines and Aircraft Engines by Optimization Procedure
Yoshiharu Tsujikawa, Makoto Nagaoka
GT 1990; V002T02A001https://doi.org/10.1115/90-GT-115
View Articletitled, Determination of Cycle Configuration of Gas Turbines and Aircraft Engines by Optimization Procedure
PDF
Topics: Aircraft engines , Cycles , Gas turbines , Optimization , Impulse (Physics) , Scramjets , Thermal efficiency , Thrust
Introduction to the Basic Technology of Stealth Aircraft: Part 1 — Basic Considerations and Aircraft Self-Emitted Signals — Passive Considerations
D. Howe
GT 1990; V002T02A002https://doi.org/10.1115/90-GT-116
View Articletitled, Introduction to the Basic Technology of Stealth Aircraft: Part 1 — Basic Considerations and Aircraft Self-Emitted Signals — Passive Considerations
PDF
Topics: Aircraft , Signals , Emissions , Acoustics , Design
Introduction to the Basic Technology of Stealth Aircraft: Part 2 — Illumination by the Enemy — Active Considerations
D. Howe
GT 1990; V002T02A003https://doi.org/10.1115/90-GT-117
View Articletitled, Introduction to the Basic Technology of Stealth Aircraft: Part 2 — Illumination by the Enemy — Active Considerations
PDF
Topics: Aircraft , Radar , Design , Probability
SNECMA M88 Engine Development Status
Jean Christophe Corde
GT 1990; V002T02A004https://doi.org/10.1115/90-GT-118
View Articletitled, SNECMA M88 Engine Development Status
PDF
Topics: Engines , Flight
EJ200: The Engine for the New European Fighter Aircraft
R. J. Lane, J. Behenna
GT 1990; V002T02A005https://doi.org/10.1115/90-GT-119
View Articletitled, EJ200: The Engine for the New European Fighter Aircraft
PDF
Topics: Aircraft , Engines , Design , Collaboration
On the Leading Edge: Combining Maturity and Advanced Technology on the F404 Turbofan Engine
S. F. Powel, IV
GT 1990; V002T02A006https://doi.org/10.1115/90-GT-149
View Articletitled, On the Leading Edge: Combining Maturity and Advanced Technology on the F404 Turbofan Engine
PDF
Topics: Engines , Turbofans , Design , Knudsen number , Aircraft engines , Blocks (Building materials) , Exhaust systems , Fibers , Flight , Nozzles
The F109-GA-100 Engine Designed Specifically for Trainer Use
Hans F. W. Maertins, Thomas W. Bruce
GT 1990; V002T02A007https://doi.org/10.1115/90-GT-167
View Articletitled, The F109-GA-100 Engine Designed Specifically for Trainer Use
PDF
Topics: Engines , Durability , Air Force , Cycles , Design , Fuel efficiency , Fuels , Life cycle costing , Maintenance , Power stations
Stealth Aircraft-History, Technology and Outlook
Bill Sweetman
GT 1990; V002T02A008https://doi.org/10.1115/90-GT-172
View Articletitled, Stealth Aircraft-History, Technology and Outlook
PDF
Topics: Aircraft
Transient Performance and Behaviour of Gas Turbine Engines
G. Torella
GT 1990; V002T02A009https://doi.org/10.1115/90-GT-188
View Articletitled, Transient Performance and Behaviour of Gas Turbine Engines
PDF
Topics: Gas turbines , Transients (Dynamics) , Computers
Flight Development of the RTM 322 Engine
Peter Sewell, Paul E. Scears
GT 1990; V002T02A010https://doi.org/10.1115/90-GT-189
View Articletitled, Flight Development of the RTM 322 Engine
PDF
Topics: Engines , Flight , Testing , Army , Engine design , Helicopters
An Analytical Approach to Reliability, Failure Forecasting and Product Quality
James L. Byers
GT 1990; V002T02A011https://doi.org/10.1115/90-GT-190
View Articletitled, An Analytical Approach to Reliability, Failure Forecasting and Product Quality
PDF
Topics: Failure , Product quality , Reliability , Computer software , Cycles , Design , Engineers , Errors , Gas turbines , Hardening (Curing)
New Generation of the Small Turboshaft and Turboprop Engines in the U.S.S.R.
Boris A. Ponomariov
GT 1990; V002T02A012https://doi.org/10.1115/90-GT-195
View Articletitled, New Generation of the Small Turboshaft and Turboprop Engines in the U.S.S.R.
PDF
Topics: Engines
A Small Gas Turbine for Drone Aircraft: Design Philosophy
J. R. Barbosa, A. S. Takeda, J. F. C. Monteiro, M. T. Mendonca, K. W. Ramsden
GT 1990; V002T02A013https://doi.org/10.1115/90-GT-196
View Articletitled, A Small Gas Turbine for Drone Aircraft: Design Philosophy
PDF
Topics: Aircraft , Design , Gas turbines , Unmanned aerial vehicles , Turbojets , Thrust , Aerospace industry , Engines , Weight (Mass)
Gas Turbine With Intermediate Heat Exchanger for Flight Application
J. Shapiro, A. Levy
GT 1990; V002T02A014https://doi.org/10.1115/90-GT-197
View Articletitled, Gas Turbine With Intermediate Heat Exchanger for Flight Application
PDF
Topics: Flight , Gas turbines , Heat exchangers , Engines , Design , Weight (Mass) , Compressors , Corporate average fuel economy , Fuel consumption , Fuel efficiency
Garrett’s Turboshaft Engines and Technologies for the 1990s
Terry Pyle, Dan Aldrich
GT 1990; V002T02A015https://doi.org/10.1115/90-GT-204
View Articletitled, Garrett’s Turboshaft Engines and Technologies for the 1990s
PDF
Topics: Engines , Gas turbines , Aviation , Wings , Aerospace industry , Aircraft engines , Fuel consumption , Generators , Motors , Propulsion
CT7-6: The Most Recent T700 Growth Derivative Engine
P. L. Kastrineli, W. E. Lightfoot
GT 1990; V002T02A016https://doi.org/10.1115/90-GT-241
View Articletitled, CT7-6: The Most Recent T700 Growth Derivative Engine
PDF
Topics: Engines , Aircraft , Design , Aircraft engines
T407/GLC38: A Modern Technology Powerplant
Michael J. Zoccoli, David D. Klassen
GT 1990; V002T02A017https://doi.org/10.1115/90-GT-242
View Articletitled, T407/GLC38: A Modern Technology Powerplant
PDF
Topics: Power stations , Engines , Aircraft , Gas turbines , Signals , Aircraft engines , Army , Aviation , Engine design , Generators
Derivative T406 Based Turbofans for Advanced Trainers
R. E. Riffel, T. F. McKain
GT 1990; V002T02A018https://doi.org/10.1115/90-GT-243
View Articletitled, Derivative T406 Based Turbofans for Advanced Trainers
PDF
Topics: Air Force , Aircraft , Navy , Training programs , Turbofans , Undergraduate students
Gas Turbine Engine Test Cell Modeling
D. Salinas, E. E. Cooper
GT 1990; V002T02A019https://doi.org/10.1115/90-GT-244
View Articletitled, Gas Turbine Engine Test Cell Modeling
PDF
Topics: Gas turbines , Modeling , Computer simulation , Kinetic energy , Turbulence , Computational fluid dynamics , Design , Energy dissipation , Temperature , Test facilities
T406 Engine Development Program
John R. Arvin, Mark E. Bowman
GT 1990; V002T02A020https://doi.org/10.1115/90-GT-245
View Articletitled, T406 Engine Development Program
PDF
Topics: Engines , Aircraft , Gas turbines , Horsepower , Navy , Weight (Mass)
Optimizing Aircraft Performance With Adaptive, Integrated Flight/Propulsion Control
R. H. Smith, J. D. Chisholm, J. F. Stewart
GT 1990; V002T02A021https://doi.org/10.1115/90-GT-252
View Articletitled, Optimizing Aircraft Performance With Adaptive, Integrated Flight/Propulsion Control
PDF
Topics: Aircraft , Flight , Propulsion , Engines , Thrust , Algorithms , Control algorithms , Fuel consumption , Aircraft engines , Cycles
Evaluating Thermographic Phosphors in an Operating Turbine Engine
B. W. Noel, H. M. Borella, W. Lewis, W. D. Turley, D. L. Beshears, G. J. Capps, M. R. Cates, J. D. Muhs, K. W. Tobin
GT 1990; V002T02A022https://doi.org/10.1115/90-GT-266
View Articletitled, Evaluating Thermographic Phosphors in an Operating Turbine Engine
PDF
Topics: Gas turbines , Phosphors , Engines , Fluorescence , Lasers , Temperature , Temperature effects
Advanced Technology Programs for Small Turboshaft Engines: Past, Present, Future
Edward T. Johnson, Howard Lindsay
GT 1990; V002T02A023https://doi.org/10.1115/90-GT-267
View Articletitled, Advanced Technology Programs for Small Turboshaft Engines: Past, Present, Future
PDF
Topics: Engines , Aircraft engines , Aircraft propulsion , Army , Aviation , Gas turbines , Generators , NASA , US Department of Defense
Economic Considerations of Aircraft Turbines Manufacturing
Jacinto J. Alonso
GT 1990; V002T02A024https://doi.org/10.1115/90-GT-278
View Articletitled, Economic Considerations of Aircraft Turbines Manufacturing
PDF
Topics: Aircraft , Manufacturing , Turbines , Design , Gas turbines , Manufacturing industry
The Rolls-Royce/Turbomeca Adour: The Optimum Trainer Engine
Michael Ferguson
GT 1990; V002T02A025https://doi.org/10.1115/90-GT-295
View Articletitled, The Rolls-Royce/Turbomeca Adour: The Optimum Trainer Engine
PDF
Topics: Engines , Aircraft , Corners (Structural elements) , Turbofans
Why an Engine Air Particle Separator (EAPS)?
Joe Thomas Potts, Jr.
GT 1990; V002T02A026https://doi.org/10.1115/90-GT-297
View Articletitled, Why an Engine Air Particle Separator (EAPS)?
PDF
Topics: Engines , Particulate matter , Gas turbines , Swirling flow , Centrifugal force , Cycles , Design , Drops , Erosion , Generators
Accelerated Mission Tests and Reliability Improvement of F3-30 Engine
Hideaki Yanagihara, Akira Tateno
GT 1990; V002T02A027https://doi.org/10.1115/90-GT-322
View Articletitled, Accelerated Mission Tests and Reliability Improvement of F3-30 Engine
PDF
Topics: Engines , Reliability , Defense industry , Turbofans
RAMSCRAM: A Flexible RAMJET/SCRAMJET Engine Simulation Program
Leo A. Burkardt, Leo C. Franciscus
GT 1990; V002T02A028https://doi.org/10.1115/90-GT-323
View Articletitled, RAMSCRAM: A Flexible RAMJET/SCRAMJET Engine Simulation Program
PDF
Topics: Ramjets , Scramjets , Simulation , Flight , Fuels , Air-breathing engines , Engines , Equilibrium (Physics) , Flow (Dynamics) , Rocket engines
Non Invasive Measurement of Strain and Temperature by Neutron Diffraction
T. M. Holden, J. H. Root, D. C. Tennant, D. E. Kroeze, D. Leggett
GT 1990; V002T02A029https://doi.org/10.1115/90-GT-324
View Articletitled, Non Invasive Measurement of Strain and Temperature by Neutron Diffraction
PDF
Topics: Neutron diffraction , Strain measurement , Temperature , Stress , Thermal expansion , Diffraction , Thermocouples , Titanium alloys
An Algorithm and Criteria for Compressor Characteristics Real Time Modeling and Approximation
A. M. El-Gammal
GT 1990; V002T02A030https://doi.org/10.1115/90-GT-336
View Articletitled, An Algorithm and Criteria for Compressor Characteristics Real Time Modeling and Approximation
PDF
Topics: Algorithms , Approximation , Compressors , Modeling , Engines , Aircraft engines , Simulation
A New Method of Predicting the Performance of Gas Turbine Engines
Wang Yonghong
GT 1990; V002T02A031https://doi.org/10.1115/90-GT-337
View Articletitled, A New Method of Predicting the Performance of Gas Turbine Engines
PDF
Topics: Gas turbines , Algorithms , Computation , Turbines , Dimensions , Stability
Airframe/Propulsion Integration at Transonic Speeds
William P. Henderson
GT 1990; V002T02A032https://doi.org/10.1115/90-GT-338
View Articletitled, Airframe/Propulsion Integration at Transonic Speeds
PDF
Topics: Aircraft , Mach number , NASA , Nozzles , Propellers , Propulsion , Propulsion systems , Thrust , Tunnels , Turbofans
Simulation of Aircraft Gas Turbine Engines
I. H. Ismail, F. S. Bhinder
GT 1990; V002T02A033https://doi.org/10.1115/90-GT-342
View Articletitled, Simulation of Aircraft Gas Turbine Engines
PDF
Topics: Aircraft , Gas turbines , Simulation , Computer software , Computers , Engines , Performance characterization , Steady state
Computational Fluid Dynamic Applications for Jet Propulsion System Integration
R. H. Tindell
GT 1990; V002T02A034https://doi.org/10.1115/90-GT-343
View Articletitled, Computational Fluid Dynamic Applications for Jet Propulsion System Integration
PDF
Topics: Computational fluid dynamics , Jet propulsion , Flow (Dynamics) , Aircraft , Design , Nozzles , Diffusers , Engineers , Flight , Fluid mechanics
Engine Performance Monitoring and Troubleshooting Techniques for the CF-18 Aircraft
R. W. Cue, D. E. Muir
GT 1990; V002T02A035https://doi.org/10.1115/90-GT-357
View Articletitled, Engine Performance Monitoring and Troubleshooting Techniques for the CF-18 Aircraft
PDF
Topics: Aircraft , Engines , Maintenance , Flight , Computer software , Condition monitoring
Integrated Propulsion System Requirements for Control of STOVL Aircraft
G. W. Gallops, C. F. Weiss, R. A. Carlton
GT 1990; V002T02A036https://doi.org/10.1115/90-GT-364
View Articletitled, Integrated Propulsion System Requirements for Control of STOVL Aircraft
PDF
Topics: Aircraft , Propulsion systems , Engines , Dynamic response , Degrees of freedom , Flight , Jets , Nozzles , Propulsion , Simulation
TFE1042: A New Low Bypass Ratio Engine
A. R. Finkelstein
GT 1990; V002T02A037https://doi.org/10.1115/90-GT-385
View Articletitled, TFE1042: A New Low Bypass Ratio Engine
PDF
Topics: Engines , Military systems , Aircraft , Weight (Mass)
Problems and Use of the Scaling Factors in the Numerical Simulation of Jet Engines
G. Torella
GT 1990; V002T02A038https://doi.org/10.1115/90-GT-386
View Articletitled, Problems and Use of the Scaling Factors in the Numerical Simulation of Jet Engines
PDF
Topics: Computer simulation , Engines , Gas turbines , Jet engines , Simulation , Trend analysis
Optical Fan Blade Profile Measurement in Rotating Turbomachinery
I. Davinson, J. E. Mutton, R. Parker, A. Parnell, J. P. Roberts
GT 1990; V002T02A039https://doi.org/10.1115/90-GT-388
View Articletitled, Optical Fan Blade Profile Measurement in Rotating Turbomachinery
PDF
Topics: Blades , Turbomachinery , Engines , Lasers , Turbofans
Non-Intrusive Sensing Techniques for Advanced Turbine Engine Structures
William A. Stange
GT 1990; V002T02A040https://doi.org/10.1115/90-GT-389
View Articletitled, Non-Intrusive Sensing Techniques for Advanced Turbine Engine Structures
PDF
Topics: Gas turbines , Engines , Temperature , Blades , Composite materials , Deflection , Instrumentation , Metals , Neutrons , Optical fiber
Development of Advanced Diagnostics for Turbine Disks
J. R. Dunphy, W. H. Atkinson
GT 1990; V002T02A041https://doi.org/10.1115/90-GT-390
View Articletitled, Development of Advanced Diagnostics for Turbine Disks
PDF
Topics: Disks , Turbines , Strain sensors , Sensors , Temperature sensors , Design , Engines , Gas turbines , Heat flux , High pressure (Physics)
Adaptation of a Small Commercial Fan Jet Trainer for Military Applications
D. I. Boyd
GT 1990; V002T02A042https://doi.org/10.1115/90-GT-391
View Articletitled, Adaptation of a Small Commercial Fan Jet Trainer for Military Applications
PDF
Topics: Aircraft , Defense industry , Design , Engines , Flight , Military systems , Test facilities , Warfare

Marine

Announcing the LM1600 Marine Gas Turbine Module
Christian Beiner, Ruprecht Latterman
GT 1990; V002T03A001https://doi.org/10.1115/90-GT-060
View Articletitled, Announcing the LM1600 Marine Gas Turbine Module
PDF
Topics: Marine gas turbines , Engines , Exhaust systems , Design , Acoustics , Combustion , Cooling , Cooling systems , Electrical wires , Fuel systems
Control System Design: Gas Turbine Machinery: The Use of a Corporate Model for Control System Design
Silvio Girolami
GT 1990; V002T03A003https://doi.org/10.1115/90-GT-194
View Articletitled, Control System Design: Gas Turbine Machinery: The Use of a Corporate Model for Control System Design
PDF
Topics: Control systems , Design , Gas turbines , Machinery , Hardware , Turbines , Algorithms , Computer programming , Computer software , Control algorithms
Development of Corrosion Resistant Coatings for Marine Gas Turbine Applications
B. A. Nagaraj, D. J. Wortman, A. F. Maricocchi, J. S. Patton, R. L. Clarke
GT 1990; V002T03A004https://doi.org/10.1115/90-GT-200
View Articletitled, Development of Corrosion Resistant Coatings for Marine Gas Turbine Applications
PDF
Topics: Coatings , Corrosion , Marine gas turbines , Chemistry , Fuels , Sulfur , Atmospheric pressure , Ceramics , Diffusion (Physics) , Overlays (Materials engineering)
Design and Performance Features of the Marine LM1600 Gas Turbine
J. M. Thames, H. B. Stueber, C. T. Vincent
GT 1990; V002T03A005https://doi.org/10.1115/90-GT-203
View Articletitled, Design and Performance Features of the Marine LM1600 Gas Turbine
PDF
Topics: Design , Gas turbines , Maintenance , Aircraft , Diesel engines , Electric propulsion , Engines , Jet engines , Jets , Military systems
Marine Support Concepts for Aero Derivative Turbine Engines
C. E. Curry, P. W. Keppel
GT 1990; V002T03A006https://doi.org/10.1115/90-GT-282
View Articletitled, Marine Support Concepts for Aero Derivative Turbine Engines
PDF
Topics: Gas turbines , Aircraft , Engines , Military systems , Motors
Testing at the US Navy’s Gas Turbine Systems Engineering Complex
John H. Preisel
GT 1990; V002T03A007https://doi.org/10.1115/90-GT-296
View Articletitled, Testing at the US Navy’s Gas Turbine Systems Engineering Complex
PDF
Topics: Gas turbines , Systems engineering , Testing , Computer software , Propulsion , Control systems , Propulsion systems , Computers , Design , Electricity (Physics)
Evaluation of a 50,000 HP Marine Gas Turbine for Use in Future U.S. Navy Surface Ships
Charles B. Franks, Jonathan R. White, Jon C. Ness
GT 1990; V002T03A008https://doi.org/10.1115/90-GT-320
View Articletitled, Evaluation of a 50,000 HP Marine Gas Turbine for Use in Future U.S. Navy Surface Ships
PDF
Topics: Marine gas turbines , Navy , Ships , Engines , Propulsion , Cycles , Gas turbines , Horsepower , Performance characterization , Weight (Mass)
Gas Turbine Powered Blue Riband Winner
Robert Allen, T. B. Lauriat
GT 1990; V002T03A009https://doi.org/10.1115/90-GT-321
View Articletitled, Gas Turbine Powered Blue Riband Winner
PDF
Topics: Gas turbines , Atlantic Ocean , Exhaust systems , Marine gas turbines , Power stations , Propulsion systems , Vessels
Flow Distribution in a Model Recuperator of an Intercooled-Recuperative Marine Gas Turbine
Robert A. Uhlig, Robert L. Kiang, Janet L. Buyer
GT 1990; V002T03A010https://doi.org/10.1115/90-GT-394
View Articletitled, Flow Distribution in a Model Recuperator of an Intercooled-Recuperative Marine Gas Turbine
PDF
Topics: Flow (Dynamics) , Marine gas turbines , Brayton cycle , Design , Diffusers , Engines , Exhaust systems , Fuel consumption , Gas turbines , Thermal efficiency

Microturbines and Small Turbomachinery

Fabrication and Development of Axial Silicon Nitride Gas Turbine Rotors
G. Bandyopadhyay, K. W. French, D. J. Sordelet, K. D. Moergenthaler
GT 1990; V002T04A001https://doi.org/10.1115/90-GT-047
View Articletitled, Fabrication and Development of Axial Silicon Nitride Gas Turbine Rotors
PDF
Topics: Gas turbines , Manufacturing , Rotors , Silicon nitride ceramics , Ceramics , Disks , Injection molding , Nondestructive evaluation , Shapes , Slip casting (Process)
Design of Ceramic Gas Turbine Components
G. Stürmer, M. Fundus, A. Schulz, S. Wittig
GT 1990; V002T04A002https://doi.org/10.1115/90-GT-048
View Articletitled, Design of Ceramic Gas Turbine Components
PDF
Topics: Ceramics , Design , Gas turbines , Finite element analysis , Industrial ceramics , Combustion chambers , Fracture (Materials) , Fracture (Process) , Probability , Reliability
Testing of Ceramic Components in the Daimler-Benz Research Gas Turbine PWT 110
M. Stute, H. Burger, M. Griguscheit, E. Holder, K. D. Mörgenthaler, F. Neubrand, M. Radloff
GT 1990; V002T04A004https://doi.org/10.1115/90-GT-097
View Articletitled, Testing of Ceramic Components in the Daimler-Benz Research Gas Turbine PWT 110
PDF
Topics: Gas turbines , Industrial ceramics , Testing , Temperature , Vehicles , Roads
Reliability Analysis of Ceramics Using the CERAM Computer Program
J. Lamon
GT 1990; V002T04A005https://doi.org/10.1115/90-GT-098
View Articletitled, Reliability Analysis of Ceramics Using the CERAM Computer Program
PDF
Topics: Ceramics , Computer software , Event history analysis , Failure , Disks , Thermal shock
A Comparison of Forming Technologies for Ceramic Gas-Turbine Engine Components
R. R. Hengst, D. N. Heichel, J. E. Holowczak, A. P. Taglialavore, B. J. McEntire
GT 1990; V002T04A006https://doi.org/10.1115/90-GT-184
View Articletitled, A Comparison of Forming Technologies for Ceramic Gas-Turbine Engine Components
PDF
Topics: Ceramics , Engines , Gas turbines , Forming techniques , Injection molding , Manufacturing , Materials properties , Slip casting (Process) , Turbines
Fabrication of ATTAP Ceramic Turbine Components
R. W. Ohnsorg, J. E. Funk, H. A. Lawler
GT 1990; V002T04A007https://doi.org/10.1115/90-GT-185
View Articletitled, Fabrication of ATTAP Ceramic Turbine Components
PDF
Topics: Ceramics , Manufacturing , Turbine components , Density , Experimental design , Injection molding , Modeling , Optimization , Ore dressing , Rotors
Development in Injection Molding Silicon Nitride Turbine Components
J. Neil, G. Bandyopadhyay, D. Sordelet, M. Mahoney
GT 1990; V002T04A008https://doi.org/10.1115/90-GT-186
View Articletitled, Development in Injection Molding Silicon Nitride Turbine Components
PDF
Topics: Injection molding , Silicon nitride ceramics , Turbine components , Manufacturing , Rotors , Turbines , Blades , Durability , Flow (Dynamics) , Mechanical properties
Development of Silicon Nitride Engine Components for Advanced Gas Turbine Applications
B. J. Busovne, Jr., J. P. Pollinger
GT 1990; V002T04A009https://doi.org/10.1115/90-GT-248
View Articletitled, Development of Silicon Nitride Engine Components for Advanced Gas Turbine Applications
PDF
Topics: Engines , Gas turbines , Silicon nitride ceramics , Rotors , Industrial ceramics , Manufacturing , Mechanical properties , Nondestructive evaluation , Shapes , Statistical process control
ATTAP/AGT101: Year 2 Progress in Ceramic Technology Development
J. R. Kidwell, L. J. Lindberg, R. E. Morey
GT 1990; V002T04A010https://doi.org/10.1115/90-GT-305
View Articletitled, ATTAP/AGT101: Year 2 Progress in Ceramic Technology Development
PDF
Topics: Ceramics , Technology development , Turbines , Particulate matter , Combustion chambers , Graphite , Industrial ceramics , Manufacturing , Rotors , Shapes
Ceramic Small Gas Turbine Technology Demonstrator
Tibor Bornemisza
GT 1990; V002T04A011https://doi.org/10.1115/90-GT-306
View Articletitled, Ceramic Small Gas Turbine Technology Demonstrator
PDF
Topics: Ceramics , Gas turbines , Turbines , Temperature , Turbine components , Wheels , Brittleness , Cobalt , Corporate average fuel economy , Design
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