Add to ORKGThermal and mechanical properties data were obtained for a low density elastomeric resin based ablation material with phenolic-glass honeycomb reinforcement. Data were obtained for the material in the charred and uncharred state. Ablation material specimens were charred in a laboratory furnace at temperatures in the range from 600 K to 1700 K to obtain char specimens representative of the ablation char layer formed during reentry. These specimens were then used to obtain effective thermal conductivity, heat capacity, porosity, and permeability data at the char formation temperature. This provided a boxing of the data which enables the prediction of the transient response of the material during ablation. Limited comparisons were made between...
Ablative materials are used in heat shields of spacecrafts re-entering the atmosphere to protect the...
Thermophysical property measurements on ablative materials for Apollo spacecraft propulsion system c...
Theoretical analysis of five composite ablation materials with various percentages of phenolic resin...
Thermophysical property data for ablation materials - aerodynamic heating of low density phenolic ny...
Thermophysical properties of nondegradated and thermally degradated low density phenolic-nylon ablat...
Influence of environmental conditions on thermal performance of low density charring ablato
A study was made of the effects of the conditions of char formation on the physical properties of ch...
Mechanical and thermodynamic properties of low density ablative materials and honeycombs including s...
The decomposition of ablative composites is described along with the transport phenomena of pyrolysi...
Thermal conductivity, thermal expansion, and heat capacity of low density silicone elastomer and fil...
Resistance to heat penetration and deformations or buckling of three ablation materials during simul...
The ablation performance of materials composed of various concentrations of nylon, hollow silica sph...
Energy transfer in pyrolysis product flow through char layer of nylon phenolic resin ablato
The primary physical response phenomena associated with ablative insulators are discussed in this pr...
Analytical model for predicting transient one- dimensional thermal performance of charring- ablator ...
Ablative materials are used in heat shields of spacecrafts re-entering the atmosphere to protect the...
Thermophysical property measurements on ablative materials for Apollo spacecraft propulsion system c...
Theoretical analysis of five composite ablation materials with various percentages of phenolic resin...
Thermophysical property data for ablation materials - aerodynamic heating of low density phenolic ny...
Thermophysical properties of nondegradated and thermally degradated low density phenolic-nylon ablat...
Influence of environmental conditions on thermal performance of low density charring ablato
A study was made of the effects of the conditions of char formation on the physical properties of ch...
Mechanical and thermodynamic properties of low density ablative materials and honeycombs including s...
The decomposition of ablative composites is described along with the transport phenomena of pyrolysi...
Thermal conductivity, thermal expansion, and heat capacity of low density silicone elastomer and fil...
Resistance to heat penetration and deformations or buckling of three ablation materials during simul...
The ablation performance of materials composed of various concentrations of nylon, hollow silica sph...
Energy transfer in pyrolysis product flow through char layer of nylon phenolic resin ablato
The primary physical response phenomena associated with ablative insulators are discussed in this pr...
Analytical model for predicting transient one- dimensional thermal performance of charring- ablator ...
Ablative materials are used in heat shields of spacecrafts re-entering the atmosphere to protect the...
Thermophysical property measurements on ablative materials for Apollo spacecraft propulsion system c...
Theoretical analysis of five composite ablation materials with various percentages of phenolic resin...