Crack growths were measured at elevated temperatures under four types of loading: pp, pc, cp, and cc. In H-13 steel, all these four types of loading gave nearly the same crack growth rates, and the length of hold time had negligible effects. In AISI 316 stainless steel, the hold time effects on crack growth rate were negligible if the loading was tension-tension type; however, these effects were significant in reversed bending load, and the crack growth rates under these four types of loading varied considerably. Both tensile and compressive hold times caused increased crack growth rate, but the compressive hold period was more deleterious than the tensile one. Metallographic examination showed that all the crack paths under different type...
High temperature fatigue crack growth in Inconel 718 has been studied at the temperatures 450 \ub0C,...
AbstractMaterial pre-straining is known to have significant effects of the mechanical response and c...
This paper is a summary of two NASA contracts on high temperature fatigue crack propagation in metal...
Axial load fatigue crack propagation in alloys at room, cryogenic, and high temperature
Thermal-fatigue crack-growth characteristics of notched- and unnotched-disk specimens of A-286, Disc...
The purpose of this program was to extend the work performed in the base program (CR 182247) into th...
To understand the influence temperature on the rate of fatigue crack growth in high strength metal a...
Crack growth behavior for three heat resistant materials, namely, Alloy 800H, type 310 Stainless Ste...
The crack growth behavior in a 304 stainless steel has been investigated at 538 degrees C in air env...
AbstractThe high-temperature Fatigue Crack Growth (FCG) behaviour of a 15-5 PH (precipitation-harden...
The fatigue crack growth behavior of Ti-1100 is analyzed at elevated temperatures to evaluate the ef...
The fatigue crack growth behaviour of a ferritic stainless steel has been investigated as a function...
The fatigue crack growth behaviour of 316L stainless steel (Batch A) following a tensile overload ha...
Near-threshold fatigue crack propagation (FCP) behaviour has been studied in an 18%Cr---Nb stabilize...
To understand the influence of temperature on the rate of fatigue crack growth in high strength meta...
High temperature fatigue crack growth in Inconel 718 has been studied at the temperatures 450 \ub0C,...
AbstractMaterial pre-straining is known to have significant effects of the mechanical response and c...
This paper is a summary of two NASA contracts on high temperature fatigue crack propagation in metal...
Axial load fatigue crack propagation in alloys at room, cryogenic, and high temperature
Thermal-fatigue crack-growth characteristics of notched- and unnotched-disk specimens of A-286, Disc...
The purpose of this program was to extend the work performed in the base program (CR 182247) into th...
To understand the influence temperature on the rate of fatigue crack growth in high strength metal a...
Crack growth behavior for three heat resistant materials, namely, Alloy 800H, type 310 Stainless Ste...
The crack growth behavior in a 304 stainless steel has been investigated at 538 degrees C in air env...
AbstractThe high-temperature Fatigue Crack Growth (FCG) behaviour of a 15-5 PH (precipitation-harden...
The fatigue crack growth behavior of Ti-1100 is analyzed at elevated temperatures to evaluate the ef...
The fatigue crack growth behaviour of a ferritic stainless steel has been investigated as a function...
The fatigue crack growth behaviour of 316L stainless steel (Batch A) following a tensile overload ha...
Near-threshold fatigue crack propagation (FCP) behaviour has been studied in an 18%Cr---Nb stabilize...
To understand the influence of temperature on the rate of fatigue crack growth in high strength meta...
High temperature fatigue crack growth in Inconel 718 has been studied at the temperatures 450 \ub0C,...
AbstractMaterial pre-straining is known to have significant effects of the mechanical response and c...
This paper is a summary of two NASA contracts on high temperature fatigue crack propagation in metal...
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