Add to ORKGSix tubing alloys were endurance tested in a diesel fired, Stirling engine simulator materials test rig for 1000 hours of 760 C while pressurized at 17 to 21 MPa with either hydrogen or helium. The alloys tested were N 155, A 286, Incoloy 800, 19 9DL, Nitronic 40 and 316 stainless steel. The alloys were in the form of thin wall tubing. Hydrogen permeated rapidly through the tube walls of all six alloys when they were heated to 760 C. Helium was readily contained. Creep rupture failures occurred in four of the six alloys pressurized with hydrogen. Only two alloys survived the 1000 hour endurance test with no failures. Simultaneous exposure to either hydrogen or helium and the combustion environment did not seriously degrade the tensile stren...
The sensitivity to hydrogen environment embrittlement of three superalloys was determined. Astroloy ...
Alloy 800H, a candidate structural material for heat-exchangers to be used in nuclear hydrogen gener...
Two nickel base superalloys (IN718 and IN625) and one iron base superalloy (A286) were chosen as can...
Seven commercial alloys were evaluated in Stirling simulator materials rigs. Five iron base alloys (...
Seven candidate iron-base alloys for heater tube application in the Stirling automotive engine were ...
The heater head tubes of current prototype automotive Stirling engines are fabricated from alloy N-1...
Nine candidate Stirling automotive engine alloys were aged at 760 C for 3500 hr in low pressure hydr...
Alloy tubes filled with hydrogen doped with various amounts of carbon monoxide, carbon dioxide, etha...
The effect of oxide films developed in situ from CO/CO2 doped hydrogen on high pressure hydrogen per...
The automotive Stirling engine now under development by DOE/NASA as an alternative to the internal c...
The Stirling engine is an external combustion engine that offers the advantage of high fuel economy,...
The Stirling Engine is under investigated jointly by the Department of Energy and NASA Lewis as an a...
The imminent emergence of the hydrogen fuel industry has resulted in an urgent mandate for very spec...
Tensile, fracture toughness, threshold stress intensity for sustained-load crack growth, and cyclic ...
Alloy is precipitation-hardened, high-strength, and low-thermal-expansion materials. It is iron-base...
The sensitivity to hydrogen environment embrittlement of three superalloys was determined. Astroloy ...
Alloy 800H, a candidate structural material for heat-exchangers to be used in nuclear hydrogen gener...
Two nickel base superalloys (IN718 and IN625) and one iron base superalloy (A286) were chosen as can...
Seven commercial alloys were evaluated in Stirling simulator materials rigs. Five iron base alloys (...
Seven candidate iron-base alloys for heater tube application in the Stirling automotive engine were ...
The heater head tubes of current prototype automotive Stirling engines are fabricated from alloy N-1...
Nine candidate Stirling automotive engine alloys were aged at 760 C for 3500 hr in low pressure hydr...
Alloy tubes filled with hydrogen doped with various amounts of carbon monoxide, carbon dioxide, etha...
The effect of oxide films developed in situ from CO/CO2 doped hydrogen on high pressure hydrogen per...
The automotive Stirling engine now under development by DOE/NASA as an alternative to the internal c...
The Stirling engine is an external combustion engine that offers the advantage of high fuel economy,...
The Stirling Engine is under investigated jointly by the Department of Energy and NASA Lewis as an a...
The imminent emergence of the hydrogen fuel industry has resulted in an urgent mandate for very spec...
Tensile, fracture toughness, threshold stress intensity for sustained-load crack growth, and cyclic ...
Alloy is precipitation-hardened, high-strength, and low-thermal-expansion materials. It is iron-base...
The sensitivity to hydrogen environment embrittlement of three superalloys was determined. Astroloy ...
Alloy 800H, a candidate structural material for heat-exchangers to be used in nuclear hydrogen gener...
Two nickel base superalloys (IN718 and IN625) and one iron base superalloy (A286) were chosen as can...