Your search keyword '"Sarat Chandra"' showing total 2 results

1. Methodology for Resloping of Rock Slope Using 3D Models from UAV-CRP Technology.

Author

Congress, Surya Sarat Chandra, Puppala, Anand J., Kumar, Prince, Banerjee, Aritra, and Patil, Ujwalkumar

Subjects

*ROCK slopes, *RAILROAD tracks, *SLOPE stability, *INFRASTRUCTURE (Economics), *DRONE aircraft

Abstract

Assessing the stability of rock slopes is essential to ensuring the typical performance of adjacent transportation infrastructures but simulating the existing field topography and boundary conditions for stability analysis is challenging. This paper describes a case study in which highly weathered rock slopes adjacent to a railroad track in Texas were analyzed using close-range photogrammetry data obtained from an unmanned aerial vehicle with close-range photogrammetry (UAV-CRP). A highly weathered rock mass with low intact strength was considered as a single continuum that undergoes circular failure and was analyzed using Spencer's two-dimensional (2D) and three-dimensional (3D) limit equilibrium method (LEM) analyses. A 3D critical slip surface was obtained to identify the critical sections on which to conduct the individual 2D stability analysis and obtain a safe resloping angle. These angles were further used to reslope the whole rock slopes and conduct a 3D analysis to arrive at a safe and economic slope angle for each side of the rock-cut. The realistic geometrical slopes developed from the aerial imagery were used to develop a framework for comprehensively analyzing the stability of a rock slope undergoing circular failure. [ABSTRACT FROM AUTHOR]

Published

2021

2. Design and construction of lightweight EPS geofoam embedded geomaterial embankment system for control of settlements.

Author

Puppala, Anand J., Ruttanaporamakul, Pinit, and Congress, Surya Sarat Chandra

Subjects

*LIGHTWEIGHT construction, *EMBANKMENTS, *FOAM, *POLYSTYRENE, *FILLER materials

Abstract

Abstract This paper presents a research study on a bridge site located along US highway 67 over SH 174 in Cleburne, Texas, where bridge approach slabs have experienced more than 0.4 m (17 in.) of settlement within a span of 16 years after construction. Many treatment methods attempted to mitigate this problem had proven to be ineffective. As part of novel rehabilitation works, the top of existing fill soil on the embankment was replaced with lightweight expanded polystyrene (EPS) geofoam blocks to alleviate the approach slab settlements. This paper describes initial design and construction details of the rehabilitation works performed on the embankment system along with a focus on the early performance details. Field monitoring studies were conducted for almost three years to study the bump/settlements under the EPS geofoam embankment system. Short term measured settlement data was analyzed with hyperbolic model to predict the long term settlements. Numerical finite element studies attempted in this study showed that settlements could be reasonably predicted by modeling these geofoam embankments. Based on the monitoring and modeling studies, the effectiveness of utilizing EPS geofoam as an embankment fill material was addressed to mitigate the differential settlements under a bridge approach slab. [ABSTRACT FROM AUTHOR]

Published

2019