Add to ORKGThe effects of fuselage cross-section (circular and elliptical) and structural arrangement (integral and nonintegral tanks) on the performance of actively cooled hypersonic cruise vehicles was evaluated. It was found that integrally machined stiffening of the tank walls, while providing the most weight-efficient use of materials, results in higher production costs. Fatigue and fracture mechanics appeared to have little effect on the weight of the three study aircraft. The need for thermal strain relief through insulation is discussed. Aircraft size and magnitude of the internal pressure are seen to be significant factors in tank design
The major efforts leading to an efficient structural design include: (1) the analysis methods used t...
Two flat 12 by 72 inch Rene 41 honeycomb sandwich panels were tested in a manner to produce combined...
A model which consisted of a hot structure and a nonintegral tank protected by a carbon dioxide fros...
The effects of fuselage cross sections and structural members on the performance of hypersonic cruis...
The effects of fuselage cross section and structural arrangement on the performance of actively cool...
Parametric studies were conducted to investigate the relative merits of construction materials, cool...
Cost, performance, reliability, interaction, and structural element analyses for hypersonic cruise v...
The structures technology required for hypersonic cruise vehicles is reviewed. Engine structures and...
Transpiration and convective cooling concepts are examined for the fuselage and tail surface of a Ma...
A detailed analytical study was made to investigate the effects of fuselage cross section (circular ...
Transpiration and convective cooling concepts are examined for the fuselage and tail surface of a Ma...
An extensive survey of current and future airframe construction materials and coolants was conducted...
Abstract- High temperatures encountered during hypersonic flight lead to high thermal stresses and a...
Trajectory, load, aerodynamic heating, materials, structural, and thermal analyses for hypersonic cr...
A 2- by 4-ft flightweight panel was subjected to thermal/structural tests representative of design f...
The major efforts leading to an efficient structural design include: (1) the analysis methods used t...
Two flat 12 by 72 inch Rene 41 honeycomb sandwich panels were tested in a manner to produce combined...
A model which consisted of a hot structure and a nonintegral tank protected by a carbon dioxide fros...
The effects of fuselage cross sections and structural members on the performance of hypersonic cruis...
The effects of fuselage cross section and structural arrangement on the performance of actively cool...
Parametric studies were conducted to investigate the relative merits of construction materials, cool...
Cost, performance, reliability, interaction, and structural element analyses for hypersonic cruise v...
The structures technology required for hypersonic cruise vehicles is reviewed. Engine structures and...
Transpiration and convective cooling concepts are examined for the fuselage and tail surface of a Ma...
A detailed analytical study was made to investigate the effects of fuselage cross section (circular ...
Transpiration and convective cooling concepts are examined for the fuselage and tail surface of a Ma...
An extensive survey of current and future airframe construction materials and coolants was conducted...
Abstract- High temperatures encountered during hypersonic flight lead to high thermal stresses and a...
Trajectory, load, aerodynamic heating, materials, structural, and thermal analyses for hypersonic cr...
A 2- by 4-ft flightweight panel was subjected to thermal/structural tests representative of design f...
The major efforts leading to an efficient structural design include: (1) the analysis methods used t...
Two flat 12 by 72 inch Rene 41 honeycomb sandwich panels were tested in a manner to produce combined...
A model which consisted of a hot structure and a nonintegral tank protected by a carbon dioxide fros...