Keyword [circular steel tubes] Result: 1 - 20 | Page: 1 of 2 1.  Study On The Column Reinforced By Inner Circular Steel Tubes Under Axial Force In Normal Temperature And After Fire 2.  Temperature Field Calculation And Application Of Concrete Filled Circular Steel Tubular Column 3.  Experimental And Theoretical Study On The Bond-Strength Of Concrete-Filled Circular Steel Tubes 4.  Analysis Of High Temperature Effect About Concrete-filled Steel Tube Axial Compression Column 5.  Time-dependent Behaviour Of Axially Loaded Circular Steel Tubes Filled With Recycled Aggregate Concrete 6.  Compression Behavior Of Thin-walled Circular Short Tubes With Large Diameter-to-thickness Ratio 7.  Bending Behavior Of Thin-walled Circular Tubes With Large Diameter-to-thickness Ratio 8.  Research On The Mechanical Performence Of Concrete Filled Circular Steel Piers To Earthquake Action 9.  Mechanical Study Of Concrete-filled Double-skin Circular Steel Tubes Subjected To Complicated Loading States Of Compression-bending-shear 10.  Sectional Hysteretic Model Of Concrete-filled Circular Steel Tubes 11.  Finite Element Analysis On Concrete Filled Circular Steel Tube Column Confined By CFRP To H-shaped Steel Beam Connection 12.  The Research Of Circular Steel Pipe Axial Force Performance Considering The General Corrosion 13.  Research On Behaviour Of Concrete-Filled Circular Steel Tubes With Inner Section Steel Under Complicated Loading States 14.  Behavior Of Recycled Concrete-filled Circular Steel Tube Column Subjected To Eccentric Compression Under The Environment Of Acid Rain 15.  Research And Application On The Mechanical Properties Of Concrete-filled Circular Steel Tubes With Latticed Steel Angles Inside 16.  Mechanical Properties Of Circular Steel Tubes Infilled With Post-pouring Concrete And Precast Segments Containing DCLs 17.  Analysis And Research On Strengthening Of Intersecting K-Joints In Circular Steel Tubes 18.  Research On Residual Load Bearing Capacity Of Post-fire Circular Steel Tubes Under Axial Compression And Practical Design Method 19.  Research On Residual Load Bearing Capacity Of Post-fire Circular Steel Tubes Under Eccentric Compression And Practical Design Method 20.  Study On Axial Compressive Behavior Of A New Type Of Circular Steel Tubes   <<First  <Prev  Next>  Last>>  Jump to

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