Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification
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Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification
Summary
Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification is a dissertation[1].
Key Facts
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification authored Xiaomeng Tong[2].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's instance of is recorded as dissertation[3].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's instance of is recorded as doctoral thesis[4].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's part of is recorded as Electronic Theses, Dissertations, and Records of Study (2002– )[5].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's language of work or name is recorded as English[6].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's country of origin is recorded as United States[7].
- +2018-01-01T00:00:00Z marks the founding of Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification[8].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's publication date is recorded as +2019-01-01T00:00:00Z[9].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's main subject is recorded as mechanical engineering[10].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's work available at URL is recorded as http://hdl.handle.net/1969.1/174639[11].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's location of creation is recorded as Texas[12].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's location of creation is recorded as College Station[13].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's title is recorded as Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification[14].
- Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification's thesis submitted to is recorded as Texas A&M University[15].
Body
Works and Contributions
Nonlinear Prediction of Thermally Induced Rotor Instability (Morton Effect) and Experiment Verification authored Xiaomeng Tong[2].