ABSTRACT: This paper presents a one-dimensional model for the analysis of the charring ablative materials used in spacecraft thermal protection systems. The numerical method is based on an implicit finite difference formulation of the governing equations written for a system of mobile coordinates that accounts for the possible presence of surface recession. The maximum allowable operating temperature for the adhesive layer of the junction between the heat shield and the substructure is used as a design parameter for determining the minimum heat shield thickness. A case study on the re-entry of the Stardust capsule is presented. The model proposed as a useful dimensioning tool for the preliminary design phase of the heat shields of spacecraf...
peer reviewedHigh-fidelity models have been developed in the recent years to predict the response of...
One-dimensional numerical analysis of transient response of thermal protection syste
Abstract Accurate calculations for measuring the sacrificing rate of various materials in heat shiel...
ABSTRACT: This paper presents a one-dimensional model for the analysis of the charring ablative mate...
Analytical model for predicting transient one- dimensional thermal performance of charring- ablator ...
Re-entry of a spacecraft occurs at the hypersonic regime where the flow field is extremely complex: ...
Re-entry of a spacecraft occurs at hypersonic regime where flow field is extremely complex. High tem...
Development of a solver in order to estimate the material response of charring ablative materials w...
Charring thermal protection systems have been used to protect hypersonic vehicles from high heat loa...
Sample geometry is very influential in small charring ablative articles where 1D assumption might no...
The TPS (Thermal Protection System) is a subsystem providing protection and isolation from aerodynam...
A space vehicle which undergoes the atmospheric re-entry or a planetary entry needs the heat shield ...
Charring thermal protection systems have been used to protect hypersonic vehicles from high heat ...
The Thermal Protection System (TPS) provides spacecrafts entering the atmosphere with the thermal in...
Ablative materials are used in heat shields of spacecrafts re-entering the atmosphere to protect the...
peer reviewedHigh-fidelity models have been developed in the recent years to predict the response of...
One-dimensional numerical analysis of transient response of thermal protection syste
Abstract Accurate calculations for measuring the sacrificing rate of various materials in heat shiel...
ABSTRACT: This paper presents a one-dimensional model for the analysis of the charring ablative mate...
Analytical model for predicting transient one- dimensional thermal performance of charring- ablator ...
Re-entry of a spacecraft occurs at the hypersonic regime where the flow field is extremely complex: ...
Re-entry of a spacecraft occurs at hypersonic regime where flow field is extremely complex. High tem...
Development of a solver in order to estimate the material response of charring ablative materials w...
Charring thermal protection systems have been used to protect hypersonic vehicles from high heat loa...
Sample geometry is very influential in small charring ablative articles where 1D assumption might no...
The TPS (Thermal Protection System) is a subsystem providing protection and isolation from aerodynam...
A space vehicle which undergoes the atmospheric re-entry or a planetary entry needs the heat shield ...
Charring thermal protection systems have been used to protect hypersonic vehicles from high heat ...
The Thermal Protection System (TPS) provides spacecrafts entering the atmosphere with the thermal in...
Ablative materials are used in heat shields of spacecrafts re-entering the atmosphere to protect the...
peer reviewedHigh-fidelity models have been developed in the recent years to predict the response of...
One-dimensional numerical analysis of transient response of thermal protection syste
Abstract Accurate calculations for measuring the sacrificing rate of various materials in heat shiel...