Add to ORKGTitanium 15-3-3-3 and Kevlar 49 are highly desired materials for structural components in cryogenic applications due to their low thennal conductivity at low temperatures. Previous tests have indicated that titanium 15-3-3-3 becomes increasingly brittle as the temperature decreases. Furthermore, little is known regarding the mechanical properties of Kevlar 49 at low temperatures, most specifically its Young's modulus. This testing investigates the mechanical properties of both materials at cryogenic temperatures through cryogenic mechanical tensile testing to failure. The elongation, ultimate tensile strength, yield strength, and break strength of both materials are provided and analyzed here
Component failure due to cold dwell fatigue of titanium and its alloys is a long-standing problem wh...
The commercial titanium alloy !-21S is becoming an increasingly attractive option for hightemperatur...
Inconel X-750 is a precipitation hardened nickel superalloy designed to have high strength and creep...
Hiperco 50A is a highly desired material for use in cryogenic applications, specifically for adiabat...
Magnets for High Energy Physics applications built to date are generally superconducting magnets, wh...
The mechanical properties of materials have been considered as one of the most important material pr...
The primary objective of this program has been to develop simple laboratory-type tests to evaluate t...
Tensile properties of irradiated titanium, aluminum, and tin alloy at cryogenic temperatur
The plane strain fracture toughness K sub Ic and conventional tensile properties of two commercially...
The tensile strain-hardening behavior of pure Ti at 100 K was investigated using X-ray diffraction l...
Titanium is recognized for its strategic importance as a unique lightweight, high strength alloyed s...
This paper describes a unique experimental facility designed to measure damping of materials at cryo...
In this article, the effects of cryogenic treatment after annealing on the formability of Ti-6Al-4V ...
In this study, we investigated the effects of strain rate on tensile deformation behaviour in Ti-6Al...
Irradiation effects on tensile behavior of titanium alloys and titanium at cryogenic temperature
Component failure due to cold dwell fatigue of titanium and its alloys is a long-standing problem wh...
The commercial titanium alloy !-21S is becoming an increasingly attractive option for hightemperatur...
Inconel X-750 is a precipitation hardened nickel superalloy designed to have high strength and creep...
Hiperco 50A is a highly desired material for use in cryogenic applications, specifically for adiabat...
Magnets for High Energy Physics applications built to date are generally superconducting magnets, wh...
The mechanical properties of materials have been considered as one of the most important material pr...
The primary objective of this program has been to develop simple laboratory-type tests to evaluate t...
Tensile properties of irradiated titanium, aluminum, and tin alloy at cryogenic temperatur
The plane strain fracture toughness K sub Ic and conventional tensile properties of two commercially...
The tensile strain-hardening behavior of pure Ti at 100 K was investigated using X-ray diffraction l...
Titanium is recognized for its strategic importance as a unique lightweight, high strength alloyed s...
This paper describes a unique experimental facility designed to measure damping of materials at cryo...
In this article, the effects of cryogenic treatment after annealing on the formability of Ti-6Al-4V ...
In this study, we investigated the effects of strain rate on tensile deformation behaviour in Ti-6Al...
Irradiation effects on tensile behavior of titanium alloys and titanium at cryogenic temperature
Component failure due to cold dwell fatigue of titanium and its alloys is a long-standing problem wh...
The commercial titanium alloy !-21S is becoming an increasingly attractive option for hightemperatur...
Inconel X-750 is a precipitation hardened nickel superalloy designed to have high strength and creep...