[摘要] Our team has developed a novel approach to measuring creep at extremely high temperatures using electrostatic levitation (ESL).This method has been demonstrated on niobium up to 2300 C, while ESL has melted tungsten (3400 C). This method has been extended to lower temperatures and higher stresses and applied to new materials, including a niobium-based superalloy, MASC.High-precision machined spheres of the sample are levitated in the NASA MSFC ESL, a national user facility and heated with a laser.The samples are rotated with an induction motor at up to 30,000 revolutions per second.The rapid rotation loads the sample through centripetal acceleration, producing a shear stress of about 60 MPa at the center, causing the sample to deform.The deformation of the sample is captured on high-speed video, which is analyzed by machine-vision software from the University of Massachusetts.The deformations are compared to finite element models to determine the constitutive constants in the creep relation. Furthermore, the non-contact method exploits stress gradients within the sample to determine the stress exponent in a single test.