Font Size: a A A
Keyword [Structural Vibration Control]
Result: 61 - 80 | Page: 4 of 6
61. Parametric Optimization Of The Regenerative Electromagnetic Tuned Mass Damper Of The Structural Vibration Control
62. Wind-induced Vibration Control Efficiency Analysis Of High-rise Structure Top With FPS-TMD System
63. Analysis Of Structure Passive Control Based On The New Second-order Friction Damper
64. Analysis On Key Measures Of Secondary Structural Vibration Control Above Metro Depot
65. Analysis And Design On Energy Dissipation Reduction Structure With Toggle Brace Displacement Amplification Mechanism Viscous Dampers
66. Wind-induced Vibration Control Of Wind Turbine Tower Structures Based On Shape Memory Alloy
67. Theoretical Analysis And Experimental Study Of Single-side Pounding Tuned Mass Damper For Structural Vibration Control
68. High Performance Control Of Structural Seismic Response
69. Study On Structural Vibration Control Of A New Type Of Self-recovering Variable Friction Damper
70. A Seismic Reduction System For The Hollow Floor Nonlinear Structure And Research On Structural Vibration Control
71. Application Of Two-stage Damper In Structural Vibration Control
72. Study On The Anti-Vibration Performance Of New Metal Tube Concrete Offshore Platform For Earthquake And Ice Bracing
73. Experimental Investigation Into The Vibration Control Effects Of Pounding Tuned Rotary Mass Damper
74. Development And Application Of Vibration Control System Based On Eddy-Current Damping And Inerter
75. Layout Design Optimization Of Viscous Dampers For Frame Building Structures Based On Topological Optimization Method
76. Super-Twisting Sliding Mode Control Of R-AMD System
77. Research On The Semi-Active Control Of Eccentric Structure With EIMD
78. Structural Seismic Response Fuzzy Control Considering Optimal Actuator Placement
79. Study On The Vibration Control Of SMA-Friction Three-Dimensional Isolation And TMD Hybrid Structures
80. Seismic Performance Analysis Of Multi-story Suspended Floors System Based On Matlab Numerical Model
  <<First  <Prev  Next>  Last>>  Jump to