Search by keyword: "lithium hydride"
Evaluating the Potential of Lithium Hydride in Active Thermal Protection Systems for High-Velocity Aircraft
Authors: Tovstonog V.A. | Published: 22.04.2019 |
Published in issue: #2(125)/2019 | |
DOI: | |
Category: Aviation and Rocket-Space Engineering | Chapter: Aerodynamics and Heat Transfer Processes in Aircrafts | |
Keywords: high-velocity aircraft, active thermal protection, phase-change materials, lithium hydride, linear pyrolysis |
Heat Transfer in a Flattened Pipe with an Ablative Wall
Authors: Tovstonog V.A. | Published: 07.12.2018 |
Published in issue: #6(123)/2018 | |
DOI: | |
Category: Aviation and Rocket-Space Engineering | Chapter: Aerodynamics and Heat Transfer Processes in Aircrafts | |
Keywords: thermal protection, ablative material, lithium hydride, thermochemical decomposition, flattened pipe, heat transfer by radiation and convection |
Heat Transfer in a Flattened Pipe with an Ablative Wall
Authors: Tovstonog V.A. | Published: 07.12.2018 |
Published in issue: #6(123)/2018 | |
DOI: | |
Category: Aviation and Rocket-Space Engineering | Chapter: Aerodynamics and Heat Transfer Processes in Aircrafts | |
Keywords: thermal protection, ablative material, lithium hydride, thermochemical decomposition, flattened pipe, heat transfer by radiation and convection |
Estimating Thermal Decomposition Parameters for Lithium Hydride in a High Temperature Gas Flow
Authors: Tovstonog V.A. | Published: 14.06.2018 |
Published in issue: #3(120)/2018 | |
DOI: | |
Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Strength and Thermal Modes | |
Keywords: lithium hydride, high temperature gas flow, heat-absorbing material, thermal decomposition, ablation, decomposition parameters |
Estimating Thermal Decomposition Parameters for Lithium Hydride in a High Temperature Gas Flow
Authors: Tovstonog V.A. | Published: 14.06.2018 |
Published in issue: #3(120)/2018 | |
DOI: | |
Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Strength and Thermal Modes | |
Keywords: lithium hydride, high temperature gas flow, heat-absorbing material, thermal decomposition, ablation, decomposition parameters |