Creep Behavior of Near α High Temperature Ti-6.6Al-4.6Sn-4.6Zr-0.9Nb-1.0Mo-0.32Si Alloy

Abstract: This study focuses on the microstructure characteristics and tensile and creep properties of a near α high temperature Ti-6.6Al-4.6Sn-4.6Zr-0.9Nb-1.0Mo-0.32Si alloy. Microstructure characteristics were quantitatively investigated using optical microscopy, scanning electron microscope, and transmission electron microscopy. Tensile properties were carried out at room and high temperature. Creep properties were detected under applied stresses ranging from 100–350 MPa at 873–973 K, respectively. Results showed tha… Show more

“…Numerous research results show that there are many factors affecting the creep properties of high-temperature titanium alloys [19][20][21], including ambient temperature, applied stress, microstructure, phase size, precipitated phase content and distribution, and impurity element content, as shown in Figure 2. Therefore, this paper mainly focuses on the influence of the above aspects on the creep properties of high-temperature titanium alloys and the possible mechanisms for improving their creep resistance to provide reference for the preparation of high-temperature titanium alloys that can be used at higher temperatures and that have a good match between thermal stability and creep resistance.…”

“…The steady-state creep rate under low stress has a linear relationship with the stress. When Si was added to Ti-6242 alloy to form Ti-6242Si (Ti-6Al-2Sn-4Zr-2Mo-0.07Si) alloy to study the high-temperature creep properties, Es-Souni M, et al [55] [19] conducted high-temperature creep experiments on a new near-α high-temperature titanium alloy: Ti-6.6Al-4.6Sn-4.6Zr-0.9Nb-1.0Mo-0.32Si. The microstructure was quantitatively investigated using optical microscopy (OM), scanning electron microscopy, and TEM.…”

Research Progress on the Creep Resistance of High-Temperature Titanium Alloys: A Review

“…Numerous research results show that there are many factors affecting the creep properties of high-temperature titanium alloys [19][20][21], including ambient temperature, applied stress, microstructure, phase size, precipitated phase content and distribution, and impurity element content, as shown in Figure 2. Therefore, this paper mainly focuses on the influence of the above aspects on the creep properties of high-temperature titanium alloys and the possible mechanisms for improving their creep resistance to provide reference for the preparation of high-temperature titanium alloys that can be used at higher temperatures and that have a good match between thermal stability and creep resistance.…”

“…The steady-state creep rate under low stress has a linear relationship with the stress. When Si was added to Ti-6242 alloy to form Ti-6242Si (Ti-6Al-2Sn-4Zr-2Mo-0.07Si) alloy to study the high-temperature creep properties, Es-Souni M, et al [55] [19] conducted high-temperature creep experiments on a new near-α high-temperature titanium alloy: Ti-6.6Al-4.6Sn-4.6Zr-0.9Nb-1.0Mo-0.32Si. The microstructure was quantitatively investigated using optical microscopy (OM), scanning electron microscopy, and TEM.…”

Research Progress on the Creep Resistance of High-Temperature Titanium Alloys: A Review

Effect of Si addition on the microstructure and creep properties of the forged titanium alloy

Creep behavior of titanium alloy used in deep-sea pressure shell considering tensile/compressive asymmetry: Experiments and numerical modeling