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Featured researches published by Hongtao Zhang.
ASME Turbo Expo 2012: Turbine Technical Conference and Exposition | 2012
Jin Gao; Qi Yuan; Pu Li; Hongtao Zhang; Zhiqiang Lv
The rod-fastened rotor is comprised of a series of discs clamped together by a central tie rod or several tie rods on the pitch circle diameter. The equivalent flexural stiffness of contact interfaces in the rod-fastened rotor is the key concern for accurate rotor dynamic performance analysis. Each contact interface was modeled as a bending spring with stiffness of Kc and a hinge in this study. The contact states of the contact interfaces which depend on the pre-tightening forces and bending moments (static) have effects on Kc. The approach to calculating Kc in two contact states is presented. The first contact state is that the whole zone of the contact interface is in contact, Kc is determined by the contact layer which consists of asperities of the contact surfaces. Hertz contact theory and the GW (Greenwood and Williamson) statistical model are used to calculate the equivalent flexural stiffness of the contact layer Kcc. The second contact state is that some zones of the contact interface are separated (when the bending moment is relative large), the equivalent flexural stiffness of the rotor segment Ksf (not include Kcc) decreases as the material in the separated zone has no contribution to the bending load carrying capacity of the rotor. The strain energy which is calculated by the finite element method (FEM) is used to determine Ksf. The stiffness Ksf is equivalent to the series stiffness of the discs of the rotor segment with flexural stiffness of Kd and a spring with bending stiffness of Kcf in the location of the contact interface, so Kc is equal to the series stiffness of Kcc and Kcf in the second contact state. The results of a simplified rod-fastened rotor indicate that for a fixed pre-tightening force, Kcc decreases with bending moments in the first contact state whereas increases with bending moments in the second contact state. In addition, Kcf and Kc decreases abruptly with the increase of bending moments in the second contact state when the rotor is subjected to a relatively large pre-tightening force. Finally, the multipoint exciting method was used to measure the modal parameters of the experimental rod-fastened rotor. It is found that the experimental modal frequencies decrease as the pre-tightening force decreases.Copyright
Archive | 2012
Zhiqiang Lv; Hongtao Zhang; Pingjin Hu; Chunmei Zhang; Yongzhi Feng; Zhongwei Zhang; Siyuan Wang; Wenjun Zhang; Hui Wang; Chunxing Ge; Ying Wang; Jianwei Zou; Lingyang Meng
Archive | 2011
Zhiqiang Lv; Hongtao Zhang; Yongzhi Feng; Heng Xue; Chunmei Zhang; Yang An; Yonglin Mei; Junming Zhao; Peipei Liang
Archive | 2012
Zhiqiang Lv; Hongtao Zhang; Chunmei Zhang; Pingjin Hu; Yongzhi Feng; Chengyi Zhang; Bo Ma; Yifan Bu; Xili Liu; Zhongwei Sun; Jianwei Zou; Gongwen Li; Ruijun Tian
Archive | 2012
Qiguo Yang; Hongtao Zhang; Jingsheng Wang; Yongzhi Feng; Chunmei Zhang; Pingjin Hu; Junming Zhao; Siyuan Wang; Kui Huang; Wanjun Li; Libo Li; Chunying Ju
Archive | 2012
Qiguo Yang; Hongtao Zhang; Chunmei Zhang; Yongzhi Feng; Liquan Sun; Weicheng Huang; Ning Yu; Dongpo Jiang; Zhipeng Hao; Huijie Xi; Fenjuan Mu; Xiang Li
Journal of Engineering for Gas Turbines and Power-transactions of The Asme | 2012
Jin Gao; Qi Yuan; Pu Li; Zhenping Feng; Hongtao Zhang; Zhiqiang Lv
Archive | 2012
Qiuhong Zhang; Hongtao Zhang; Jingsheng Wang; Yongzhi Feng; Chunmei Zhang; Tie Lin; Kui Huang; Lihong Wang; Jinhuan Geng; Liangjun Gao; Zhiwei Shao; Honggang Chen
Archive | 2012
Qiuhong Zhang; Hongtao Zhang; Chunmei Zhang; Jingsheng Wang; Yongzhi Feng; Gongwen Li; Yao Liu; Jianwei Zou; Xiaofeng Yang; Bo Liu; Wanjun Li
Archive | 2011
Qiguo Yang; Hongtao Zhang; Yongzhi Feng; Heng Xue; Chunmei Zhang; Pingjin Hu; Junming Zhao; Zhipeng Hao; Peipei Liang
