Experimental Study of Interface Shearing between Calcareous Sand and Steel Plate Considering Surface Roughness and Particle Size
Author:
Publisher
Elsevier BV
Subject
Ocean Engineering
Reference49 articles.
1. Pile design in calcareous and carbonaceous granular materials, an historic overview;Alba,1999
2. Modeling deepwater seabed steady-state thermal fields around buried pipeline including trenching and backfill effects;Bai;Computers and Geotechnics,2014
3. Effect of roughness on shear behavior of red clay-concrete interface in large-scale direct shear tests;Chen;Canadian Geotechnical Journal,2015
4. Concrete mix design containing calcareous tuffs as a partial sand substitution;Cherrak;Construction and Building Materials,2013
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