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Impact Resistance of EBC Coated SiC/SiC Composites (2008)

Fox, Dennis S. ; Bhatt, Ramakrishna T. ; Lee, Kang N. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: Impact performance of 2-D woven SiC/SiC composites coated with 225 and 525 m thick environmental barrier coating (EBC) was investigated. The composites were fabricated by melt infiltration and the EBC was deposited by plasma spray. Impact tests were conducted at room temperature and at 1316 C in air using 1.59-mm diameter steel-balls at projectile velocities ranging from 110 to 375 m/s. Both microscopy and nondestructive evaluation (NDE) methods were used to determine the extent of damage in the substrate and coating with increasing projectile velocity. The impacted specimens were tensile tested at room temperature to determine their residual mechanical properties. At projectile velocities less than 125 m/s, no detectable damage was noticed in the MI SiC/SiC composites coated with 525 m EBC. With increase in projectile velocity beyond this value, spallation of EBC layers, delamination of fiber plies, and fiber fracture were detected. At a fixed projectile velocity, the composites coated with 525 m EBC showed less damage than the composite coated with 225 m EBC. Both types of EBC coated composites retained a large fraction of the baseline properties of as-fabricated composites and exhibited non-brittle failure after impact testing at projectile velocities up to 375 m/s. Exposure of impact tested specimens in a moisture environment at 1316 C for 500 hr indicated that the through-the-thickness cracks in the EBC coating and delamination cracks in the substrate generated after impact testing acted as conduits for internal oxidation.

Keywords: Composite Materials

Type: NASA/TM-2008-214406 , ARL-TR-0646 , E-15685

Format: application/pdf

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2

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Environmental Barrier Coatings for Turbine Engines: A Design and Performance Perspective (2009)

Zhu, Dongming ; Smialek, James L. ; Miller, Robert A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Ceramic thermal and environmental barrier coatings (TEBC) for SiC-based ceramics will play an increasingly important role in future gas turbine engines because of their ability to effectively protect the engine components and further raise engine temperatures. However, the coating long-term durability remains a major concern with the ever-increasing temperature, strength and stability requirements in engine high heat-flux combustion environments, especially for highly-loaded rotating turbine components. Advanced TEBC systems, including nano-composite based HfO2-aluminosilicate and rare earth silicate coatings are being developed and tested for higher temperature capable SiC/SiC ceramic matrix composite (CMC) turbine blade applications. This paper will emphasize coating composite and multilayer design approach and the resulting performance and durability in simulated engine high heat-flux, high stress and high pressure combustion environments. The advances in the environmental barrier coating development showed promise for future rotating CMC blade applications.

Keywords: Composite Materials

Type: E-17380 , 33rd International Conference on Advanced Ceramics and Composites; Jan 18, 2009 - Jan 23, 2009; Daytona Beach, Fl; United States

Format: application/pdf

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3

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Impact Resistance of Uncoated SiC/SiC Composites (2008)

Cosgriff, Laura M. ; Bhatt, Ramakrishna T. ; Choi, Sung R. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Two-dimensional woven SiC/SiC composites fabricated by melt infiltration method were impact tested at room temperature and at 1316 C in air using 1.59-mm diameter steel-ball projectiles at velocities ranging from 115 to 400 m/s. The extent of substrate damage with increasing projectile velocity was imaged and analyzed using optical and scanning electron microscopy, and non-destructive evaluation (NDE) methods such as pulsed thermography, and computed tomography. The impacted specimens were tensile tested at room temperature to determine their residual mechanical properties. Results indicate that at 115 m/s projectile velocity, the composite showed no noticeable surface or internal damage and retained its as-fabricated mechanical properties. As the projectile velocity increased above this value, the internal damage increased and mechanical properties degraded: At velocities 〉300 m/s, the projectile penetrated through the composite, but the composite retained approx.50% of the ultimate tensile strength of the as-fabricated composite and exhibited non-brittle failure. Predominant internal damages are delamination of fiber plies, fiber fracture and matrix shearing.

Keywords: Composite Materials

Type: Materials Science and Engineering A; 476; 2-Jan; 20-28

Format: text

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High Pressure Burner Rig Testing of Advanced Environmental Barrier Coatings for Si3N4 Turbine Components (2007)

Fox, Dennis S. ; Zhu, Dongming ; Pastel, Robert T.

In: CASI

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Publication Date: 2019-07-13

Description: Advanced thermal and environmental barrier coatings are being developed for Si3N4 components for turbine engine propulsion applications. High pressure burner rig testing was used to evaluate the coating system performance and durability. Test results demonstrated the feasibility and durability of the coating component systems under the simulated engine environments.

Keywords: Composite Materials

Type: The 31st International Cocoa Beach Conference &amp; Exposition on Advanced Ceramics &amp; Composites; Jan 22, 2007 - Jan 26, 2007; Daytona Beach, FL; United States

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Development of Advanced Environmental Barrier Coatings for SiC/SiC Ceramic Matrix Composites: Path Toward 2700 F Temperature Capability and Beyond (2017)

Hurst, Janet B. ; Costa, Gustavo ; Bhatt, Ramakrishna T. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Advanced environmental barrier coating systems for SiC-SiC Ceramic Matrix Composite (CMC) turbine and combustor hot section components are currently being developed to meet future turbine engine emission and performance goals. One of the significant coating development challenges is to achieve prime-reliant environmental barrier coating systems to meet the future 2700F EBC-CMC temperature stability and environmental durability requirements. This presentation will emphasize recent NASA environmental barrier coating system testing and down-selects, particularly the development path and properties towards 2700-3000F durability goals by using NASA hafnium-hafnia-rare earth-silicon-silicate composition EBC systems for the SiC-SiC CMC turbine component applications. Advanced hafnium-based compositions for enabling next generation EBC and CMCs capabilities towards ultra-high temperature ceramic coating systems will also be briefly mentioned.

Keywords: Composite Materials

Type: GRC-E-DAA-TN38729 , Annual Conference on Composites, Materials, and Structures; Jan 23, 2017 - Jan 26, 2017; Cocoa Beach, FL; United States

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6

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Impact Resistance of Environmental Barrier Coated SiC/SiC Composites (2008)

Fox, Dennis S. ; Choi, Sung R. ; Cosgriff, Laura M. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Impact performance of 2D woven SiC/SiC composites coated with 225 and 525 microns thick environmental barrier coating (EBC) was investigated. The composites were fabricated by melt infiltration and the EBC was deposited by plasma spray. Impact tests were conducted at room temperature and at 1316 C in air using 1.59 mm diameter steel-balls at projectile velocities ranging from 110 to 375 m/s . Both microscopy and non-destructive evaluation (NDE) methods were used to determine the extent of damage in the substrate and coating with increasing projectile velocity. The impacted specimens were tensile tested at room temperature to determine their residual mechanical properties. At projectile velocities less than 125 m/s , no detectable internal damage was noticed in the MI SiC/SiC composites coated with 525 microns EBC. With increase in projectile velocity beyond this value, spallation of EBC layers, delamination of fiber plies, and fiber fracture were detected. At a fixed projectile velocity, the composites coated with 525 microns EBC showed less damage than those coated with 225 microns EBC. Both types of coated composites retained a large fraction of the baseline properties of the as-fabricated composites and exhibited non-brittle failure after impact testing. Furnace exposure of impacted specimens in a moisture environment at 1316 C for 500 h indicated that the through-the-thickness cracks in the coating and delamination cracks in the substrate generated after impact testing acted as conduits for internal oxidation.

Keywords: Composite Materials

Type: Materials Science and Engineering A (ISSN 0921-5093); 476; 2-Jan; 8-19

Format: text

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