Soil Arching – Braced Excavation Excel Sheet
This spreadsheet will calculate the horizontal earth pressure exerted on a braced excavation using Soil Arching Theory as proposed by Richard L. Handy (1985).
Calculation Reference
Soil Mechanics
This spreadsheet will calculate the horizontal earth pressure exerted on a braced excavation using Soil Arching Theory as proposed by Richard L. Handy (1985).
Calculation Reference
Soil Mechanics
A culvert box is an essential component of any roadway infrastructure. It is a type of drainage structure designed to channel water under a roadway or other transportation facility.
Culvert boxes are typically constructed from reinforced concrete and are available in a variety of shapes and sizes, including circular, oval, and rectangular. They are a critical element in maintaining safe and reliable transportation systems, preventing flooding and erosion, and protecting the environment.
Reinforced Concrete Box Culvert Calculation Spreadsheet
Standard DWG Autocad Drawing For Box Cell Culvert
Pipe Culvert Wing Wall CAD template DWG
Culvert General Plan and Sections Details CAD Template DWG
Box Culvert Curved Concrete Layout CAD Template DWG
Box Culvert Concrete Reinforcement Details CAD Template DWG
Culvert Concrete Reinforcement Details CAD Template DWG
Box Culvert Design and Calculation Spreadsheet
Purpose of calculation: The details of a cantilever retaining wall are shown below, is the design of the wall satisfactory?
Calculation Reference: Craig Soil Mechanics. R.F. Craig
Calculation Validation: Check against a worked example in the reference above.
Calculation Parameters :
Calculation Reference
Geotechnics
Pile design following methods in Foundation Design 2nd Edt’n by Donald Coduto coverin:
Calculation Reference
Foundation Design 2nd Edt’n by Donald Coduto
Spreadsheet to calculate pile bearing capacity of drilled shaft foundation – bore pile according to BS 8004. For preliminary design purposes, BS 8004 gives presumed bearing values which are the pressures which would normally result in an adequate factor of safety against shear failure for particular soil types, but without consideration of settlement.
Category | Types of rocks and soils | Presumed bearing value |
Non-cohesive soils | Dense gravel or dense sand and gravel | >600 kN/m² |
Medium dense gravel, or medium dense sand and gravel |
<200 to 600 kN/m² | |
Loose gravel, or loose sand and gravel | <200 kN/m² | |
Compact sand | >300 kN/m² | |
Medium dense sand | 100 to 300 kN/m² | |
Loose sand | <100 kN/m² depends on degree of looseness |
|
Cohesive soils | Very stiff bolder clays & hard clays | 300 to 600 kN/m² |
Stiff clays | 150 to 300 kN/m² | |
Firm clay | 75 to 150 kN/m² | |
Soft clays and silts | < 75 kN/m² | |
Very soft clay | Not applicable | |
Peat | Not applicable | |
Made ground | Not applicable |
Calculation Reference
Reinforced Concrete Design
Details
Title | Designing, Analysis & Documenting of RCC Bridge Robot Structural Analysis Professional 2020 |
Duration | 15 Mins |
Language | English |
Format | MP4 |
Size | 49 MB |
This Power point Presentation is a complete guide to understand bearing capacity of shallow foundation with examples.
A complete power point presentation with all you need to make the best choice of foundation type, how to design and calculate it.