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Book Chapter

Testing of Stability and Thermal Properties of Thermal Barrier Coatings

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By Thomas A. Taylor, Ray E. Taylor
Series: ASM Handbook
Volume: 5
Publisher: ASM International
Published: 01 January 1994
DOI: 10.31399/asm.hb.v05.a0001299
EISBN: 978-1-62708-170-2
... Abstract This article discusses the various tests applied to a thermal barrier coating system and to the zirconia layer to establish thermomechanical, environmental stability, and thermal design properties such as coefficient of thermal expansion, specific heat, and thermal transport properties...
Abstract
This article discusses the various tests applied to a thermal barrier coating system and to the zirconia layer to establish thermomechanical, environmental stability, and thermal design properties such as coefficient of thermal expansion, specific heat, and thermal transport properties. Thermal fatigue testing and the test for evaluating oxidation resistance of the bond coat is also discussed.
View PDF for content titled, Testing of Stability and <span class="search-highlight">Thermal</span> Properties of <span class="search-highlight">Thermal</span> Barrier Coatings
Book Chapter

Thermal Analysis and Thermal Properties

Available to Purchase

By Robert Pieper
Series: ASM Handbook
Volume: 11B
Publisher: ASM International
Published: 15 May 2022
DOI: 10.31399/asm.hb.v11B.a0006923
EISBN: 978-1-62708-395-9
... Abstract This article discusses the thermal properties of engineering plastics and elastomers with respect to chemical composition, chain configuration, and base polymer conformation as determined by thermal analysis. It describes the processing of base polymers with or without additives...
Abstract
This article discusses the thermal properties of engineering plastics and elastomers with respect to chemical composition, chain configuration, and base polymer conformation as determined by thermal analysis. It describes the processing of base polymers with or without additives and their response to chemical, physical, and mechanical stresses whether as an unfilled, shaped article or as a component of a composite structure. It summarizes the basic thermal properties of thermoplastics and thermosets, including thermal conductivity, temperature resistance, thermal expansion, specific heat, and glass transition temperature. It also provides information on polyimide and bismaleimide resin systems. Representative examples of different types of engineering thermoplastics are discussed primarily in terms of structure and thermal properties.
View PDF for content titled, <span class="search-highlight">Thermal</span> Analysis and <span class="search-highlight">Thermal</span> Properties
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Thermal expansion and enthalpy of C11000. (a) Total thermal expansion from ...

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in Properties of Wrought Coppers and Copper Alloys > Properties and Selection: Nonferrous Alloys and Special-Purpose Materials
Published: 01 January 1990
Fig. 12 Thermal expansion and enthalpy of C11000. (a) Total thermal expansion from −190 °C (−310 °F). (b) Enthalpy (heat content) above 0 °C (32 °F) More
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Thermal cracks in a cemented carbide insert. The thermal cracks are perpend...

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in Cemented Carbides > Machining
Published: 01 January 1989
Fig. 10 Thermal cracks in a cemented carbide insert. The thermal cracks are perpendicular to the cutting edge, and the mechanical cracks are parallel to the cutting edge. 15× More
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Thermal shock figures-of-merit. Thermal conductivity, k , at 500 °C (930 °...

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in Ceramics > Machining
Published: 01 January 1989
Fig. 8 Thermal shock figures-of-merit. Thermal conductivity, k , at 500 °C (930 °F); α, expansion coefficient, 25 to 870 °C (80 to 1600 °F) range. Sialon I and II are defined in Fig. 7 . Source: Ref 19 More
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Schematic showing differences between weld thermal cycle and thermal cycle ...

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in Solid-State Transformations in Weldments[1] > Welding Fundamentals and Processes
Published: 31 October 2011
Fig. 3 Schematic showing differences between weld thermal cycle and thermal cycle used to generate a conventional continuous cooling transformation (CCT) diagram. Note the much higher heating rate, higher temperature, and shorter time above Ac 3 temperature for welding. HAZ, heat-affected More
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Thermal emf curves for ISA standard thermocouples. Thermal emf plots are ba...

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in Thermocouple Materials > Properties and Selection: Nonferrous Alloys and Special-Purpose Materials
Published: 01 January 1990
Fig. 5 Thermal emf curves for ISA standard thermocouples. Thermal emf plots are based on IPTS-68 (1974) More
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Thermal cracks in a cemented carbide insert. The thermal cracks are perpend...

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in Cemented Carbides > Properties and Selection: Nonferrous Alloys and Special-Purpose Materials
Published: 01 January 1990
Fig. 10 Thermal cracks in a cemented carbide insert. The thermal cracks are perpendicular to the cutting edge, and the mechanical cracks are parallel to the cutting edge. 15× More
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Thermal spray coating. Buildup of a thermal spray coating is a chaotic proc...

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in Introduction to Coating Design and Processing > Thermal Spray Technology
Published: 01 August 2013
Fig. 2 Thermal spray coating. Buildup of a thermal spray coating is a chaotic process. Molten particles spread out and deform (splat) as they strike the substrate, at first keying onto asperities on the substrate surface, then interlocking to one another. Voids can occur if the growing deposit More
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Schematics of thermal shape memory effect and superelasticity. Thermal shap...

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in Heat Treatment Metallurgy of Nickel-Base Alloys > Heat Treating of Nonferrous Alloys
Published: 01 June 2016
Fig. 17 Schematics of thermal shape memory effect and superelasticity. Thermal shape memory (left) occurs when austenite is cooled to form twinned martensite. Then an applied stress rearranges the twins to produce a new shape, and subsequent heating reverts the martensite to austenite, thus More
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(a) Thermal conduction through a single plane wall, (b) Thermal conduction ...

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in Principles of Induction Heating > Induction Heating and Heat Treatment
Published: 09 June 2014
Fig. 1 (a) Thermal conduction through a single plane wall, (b) Thermal conduction through a composite wall More
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(a) Thermal conduction through a thick-walled cylinder, (b) thermal conduct...

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in Principles of Induction Heating > Induction Heating and Heat Treatment
Published: 09 June 2014
Fig. 3 (a) Thermal conduction through a thick-walled cylinder, (b) thermal conduction through the walls of a composite pipe More
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Electrical and thermal efficiencies of induction coil vs. thermal refractor...

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in Estimation of the Basic Induction Process Parameters > Induction Heating and Heat Treatment
Published: 09 June 2014
Fig. 3 Electrical and thermal efficiencies of induction coil vs. thermal refractory thickness (arbitrary units). Source: Ref 10 More
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Thermal conductivity of gases at 150 °C (300 °F), relative to the thermal c...

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in Gas Nitriding and Gas Nitrocarburizing of Steels > Steel Heat Treating Fundamentals and Processes
Published: 01 August 2013
Fig. 25 Thermal conductivity of gases at 150 °C (300 °F), relative to the thermal conductivity of nitrogen More
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Thermal analysis of oriented plastic. CTE, coefficient of thermal expansion...

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in Thermal Analysis and Thermal Properties > Characterization and Failure Analysis of Plastics
Published: 15 May 2022
Fig. 22 Thermal analysis of oriented plastic. CTE, coefficient of thermal expansion More
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Thermal analysis of oriented plastic. CTE, coefficient of thermal expansion...

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in Introduction to Engineering Plastics > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 7 Thermal analysis of oriented plastic. CTE, coefficient of thermal expansion More
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Thermal analysis of oriented plastic. CTE, coefficient of thermal expansion...

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in Thermal Analysis and Properties of Polymers > Engineered Materials Handbook Desk Edition
Published: 01 November 1995
Fig. 25 Thermal analysis of oriented plastic. CTE, coefficient of thermal expansion More
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Thermal cracks in a cemented carbide insert. The thermal cracks are perpend...

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in Elements of the Machining Process > Metals Handbook Desk Edition
Published: 01 December 1998
Fig. 9 Thermal cracks in a cemented carbide insert. The thermal cracks are perpendicular to the cutting edge, and the mechanical cracks are parallel to the cutting edge. 15× More
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Thermal performance of a joint as a function of heating method. (a) Thermal...

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in Brazeability and Solderability of Engineering Materials > Welding, Brazing, and Soldering
Published: 01 January 1993
Fig. 17 Thermal performance of a joint as a function of heating method. (a) Thermal cycle. (b) Temperature distribution. A, induction or resistance heating; B, torch heating; C, furnace heating More
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Graphs to show differences in thermal cycles. (a) Thermal cycles used to ge...

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in Solid-State Transformations in Weldments[1] > Welding, Brazing, and Soldering
Published: 01 January 1993
Fig. 2 Graphs to show differences in thermal cycles. (a) Thermal cycles used to generate a conventional CCT diagram. (b) Weld thermal cycles. The numbers in (b) correspond to locations indicated in the HAZ. Note the correspondence between the thermal cycles in (a) and those in Fig. 1 More