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Manufacturing of Microstructural, Mechanical, and Corrosion Properties of MnAlCuFeTi High-Entropy Nanomaterials: Influence of Mechanical Alloying Time and Sintering Temperature. [PDF]
Nanomaterials (Basel)Çağlar S, Temiz C.
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Fatigue Life Prediction of TC4 Titanium Alloy Bolted Structures in Thermal Environments Below 400 °C Using an Enhanced DFR Method. [PDF]
Materials (Basel)Peng H +5 more
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Physics Bulletin, 1972
In this article I shall discuss high temperature materials in the narrow context of their development in the field of gas turbine applications, particularly turbine blades. Being a rotating component and therefore subject to a high centrifugal load, the turbine blade experiences a more severe combination of stress and temperature than any other ...
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In this article I shall discuss high temperature materials in the narrow context of their development in the field of gas turbine applications, particularly turbine blades. Being a rotating component and therefore subject to a high centrifugal load, the turbine blade experiences a more severe combination of stress and temperature than any other ...
openaire +1 more source
Energy dissipation of materials at high pressure and high temperature
Review of Scientific Instruments, 2007We report an experimental method to study the anelastic properties of materials at high pressure and high temperature. The multianvil high pressure deformation device, used to apply a cyclic loading force onto the sample, can reach 15GPa and 2000K. A synchrotron x-ray radiation source provides time resolved images of the sample and reference material ...
Li, Li, Donald J, Weidner
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2011
This third issue of Aerospace Lab is dedicated to High Temperature Materials. This is a class of materials that has been at the forefront of research and development for almost fifty years at ONERA. A number of new materials and processes were invented and world class research was performed throughout these years.
Khan, Tasadduq +18 more
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This third issue of Aerospace Lab is dedicated to High Temperature Materials. This is a class of materials that has been at the forefront of research and development for almost fifty years at ONERA. A number of new materials and processes were invented and world class research was performed throughout these years.
Khan, Tasadduq +18 more
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Materials for Phase Change Material at High Temperature
2018To develop a cost effective and efficient latent thermal energy storage system using phase change material (PCM), selecting a suitable material is very critical. It has to satisfy certain criteria in order to fulfill the requirement of repeated heating and cooling cycles. This chapter describes the basic requirements on a material to be considered as a
Ming Liu +2 more
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2001
The article contains sections titled: 1. Introduction 2. Factors Influencing Temperature Capability 2.1. Melting Temperature 2.2. Volatility 2.3. Crystal Structure 2.4. Zero-Time Deformation 2.5. Creep 2.6. Mechanical Fatigue 2.7. Thermal Fatigue 2.8. Oxidation 2.9. Hot Corrosion 2.10. Carburization 2.11.
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The article contains sections titled: 1. Introduction 2. Factors Influencing Temperature Capability 2.1. Melting Temperature 2.2. Volatility 2.3. Crystal Structure 2.4. Zero-Time Deformation 2.5. Creep 2.6. Mechanical Fatigue 2.7. Thermal Fatigue 2.8. Oxidation 2.9. Hot Corrosion 2.10. Carburization 2.11.
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