Seungwoon Han scite author profile

Seungwoon Han

6Publications

75Citation Statements Received

23Citation Statements Given

How they've been cited

129

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Affiliations

Texas A&M University, Geotechnical Consulting Group (United Kingdom)

Publications

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Inclined load capacity of suction caissons

Aubeny

Han

Murff³

2003

Num Anal Meth Geomechanics

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SUMMARYA simplified method of analysis for estimating lateral load capacity of suction caisson anchors based on an upper bound plasticity formulation is presented. The simplification restricts the analysis to caissons in uniform and linearly varying undrained strength profiles; nevertheless, its computational efficiency permits quick evaluation of a number of parameters affecting load capacity. The validity and limitations of the simplified formulation are demonstrated through comparisons to more rigorous finite element solutions. A series of sensitivity studies demonstrate the effects of various soil conditions and loading parameters.

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Suction Caisson Capacity in Anisotropic, Purely Cohesive Soil

2003

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Refined Model for Inclined Load Capacity of Suction Caissons

Aubeny

Han²,

Murff

2003

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Suction caissons used as mooring anchors for offshore structures can, depending on design concept, be subjected to pullout forces ranging from nearly vertical for tension leg platforms, to intermediate inclination angles for taut mooring systems, to nearly horizontal for catenary moored systems. Hence, the ability to understand and predict suction anchor pullout resistance for a full range of load orientations is becoming of increasing importance. A previous paper by the authors presents a plastic limit analysis for estimating the load capacity of suction anchors over a full range of load inclination ranging from horizontal to vertical. The model was capable of predicting load capacity for various load attachment (padeye) depths, caisson aspect ratios, and soil undrained strength profiles that vary linearly with depth. Loading conditions are assumed to be undrained; therefore, a purely cohesive soil is assumed. The original analysis assumed full adhesion on the boundaries of the caisson; i.e., a skin resistance coefficient α equal to unity. However, actual values of this coefficient are less than unity, with specific values varying according to soil conditions and the method of caisson installation. To overcome the limitation of the original model, this paper presents a modified formulation that allows a skin resistance less than unity. The modified formulation develops an interaction relationship between vertical and horizontal soil resistance on the sides of the caisson that is applicable for any skin resistance conditions ranging from no to full adhesion.

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Measuring the Erodibility of Cohesive Soils

Briaud¹,

Chen²,

Ting³

et al. 2000

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Simplified Approach for Estimating Caisson Spacing and Post Construction Loads in a Caisson Wall

Han¹,

Lang²

2008

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Stabilization of a Roadway on a Steep Alluvial Bank Using Drilled Caissons

Lang¹,

Han²

2008

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Seungwoon Han

Inclined load capacity of suction caissons

Suction Caisson Capacity in Anisotropic, Purely Cohesive Soil

Refined Model for Inclined Load Capacity of Suction Caissons

Measuring the Erodibility of Cohesive Soils

Simplified Approach for Estimating Caisson Spacing and Post Construction Loads in a Caisson Wall

Stabilization of a Roadway on a Steep Alluvial Bank Using Drilled Caissons

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