Add to ORKGIrradiation effects on tensile behavior of titanium alloys and titanium at cryogenic temperature
Titanium 15-3-3-3 and Kevlar 49 are highly desired materials for structural components in cryogenic ...
Nuclear radiation and cryogenic temperature effects on tensile and fatigue properties of aluminum an...
The plane strain fracture toughness K sub Ic and conventional tensile properties of two commercially...
Tensile properties of irradiated titanium, aluminum, and tin alloy at cryogenic temperatur
The tensile properties for 33 polycrystalline structural materials including aluminum, titanium, nic...
Effects of reactor irradiation at cryogenic temperatures on tensile properties of titanium and titan...
Postirradiation annealing effects at cryogenic temperatures on tensile properties of commercially pu...
At a low dose level of 0.001 dpa the Ti6Al4V (α + β) alloy showed softening and at higher doses an i...
Combined effects of fast neutron irradiation and cryogenic environment of mechanical properties of h...
Aluminum 1099 and titanium alloys tested for tensile properties at cryogenic temperatures after irra...
Nuclear radiation effects on aluminum, titanium, vanadium, and tin alloys at cryogenic temperatur
In the unirradiated condition the Ti6Al4V (α+β) alloy has slightly higher tensile strength and notic...
vanadium-base alloys. After irradiation (1.4 X 10" ' neutrons/ern "> 100 kev) the ...
Neutron radiation effects on tensile, creep, fatigue, impact, and hardness properties of reactor mat...
An alloy of type 316 stainless steel with the addition of 0.23% Ti (316 + Ti) has been irradiated in...
Titanium 15-3-3-3 and Kevlar 49 are highly desired materials for structural components in cryogenic ...
Nuclear radiation and cryogenic temperature effects on tensile and fatigue properties of aluminum an...
The plane strain fracture toughness K sub Ic and conventional tensile properties of two commercially...
Tensile properties of irradiated titanium, aluminum, and tin alloy at cryogenic temperatur
The tensile properties for 33 polycrystalline structural materials including aluminum, titanium, nic...
Effects of reactor irradiation at cryogenic temperatures on tensile properties of titanium and titan...
Postirradiation annealing effects at cryogenic temperatures on tensile properties of commercially pu...
At a low dose level of 0.001 dpa the Ti6Al4V (α + β) alloy showed softening and at higher doses an i...
Combined effects of fast neutron irradiation and cryogenic environment of mechanical properties of h...
Aluminum 1099 and titanium alloys tested for tensile properties at cryogenic temperatures after irra...
Nuclear radiation effects on aluminum, titanium, vanadium, and tin alloys at cryogenic temperatur
In the unirradiated condition the Ti6Al4V (α+β) alloy has slightly higher tensile strength and notic...
vanadium-base alloys. After irradiation (1.4 X 10" ' neutrons/ern "> 100 kev) the ...
Neutron radiation effects on tensile, creep, fatigue, impact, and hardness properties of reactor mat...
An alloy of type 316 stainless steel with the addition of 0.23% Ti (316 + Ti) has been irradiated in...
Titanium 15-3-3-3 and Kevlar 49 are highly desired materials for structural components in cryogenic ...
Nuclear radiation and cryogenic temperature effects on tensile and fatigue properties of aluminum an...
The plane strain fracture toughness K sub Ic and conventional tensile properties of two commercially...