Mandatory Checklist for Strip Foundation Design.

Mandatory Checklist for Strip Foundation Design.
Mandatory Checklist for Strip Foundation Design.

Designing a strip foundation involves creating a continuous strip of reinforced concrete to support the load of a linear arrangement of columns or load-bearing walls. Below is a detailed checklist with explanations and examples for the design of a strip foundation:

1. Site Investigation:

  • Explanation: Conduct a thorough site investigation to understand soil conditions.
  • Example: Perform soil tests (SPT, CPT) to determine soil properties, bearing capacity, and potential settlement.

2. Load Analysis:

  • Explanation: Analyze and calculate all loads acting on the strip foundation.
  • Example: Consider dead loads (structural weight), live loads, wind loads, and seismic loads to determine the total load on the foundation.

3. Soil Bearing Capacity:

  • Explanation: Ensure that the soil bearing capacity exceeds the applied loads.
  • Example: If the total load is 600 kN and the soil bearing capacity is 1000 kN/m², the foundation is considered suitable.

4. Settlement Analysis:

  • Explanation: Analyze and limit potential settlement within acceptable limits.
  • Example: If the allowable settlement is 20 mm, design the foundation to minimize settlement.

5. Strip Dimensions:

  • Explanation: Determine the width, depth, and length of the strip foundation.
  • Example: Design a strip foundation with a width of 1.2 meters, a depth of 0.6 meters, and a length sufficient to distribute loads effectively.

6. Reinforcement:

  • Explanation: Specify the type and amount of reinforcement in the strip foundation.
  • Example: Include a grid of reinforcing bars (rebar) in the foundation to enhance tensile strength.

7. Depth of Foundation:

  • Explanation: Determine the optimal depth of the strip foundation for stability.
  • Example: If the soil near the surface is weak, increase the depth of the strip foundation to reach more stable soil layers.

8. Column Layout:

  • Explanation: Plan the layout of columns along the strip foundation.
  • Example: Arrange columns in a linear configuration along the strip foundation, ensuring that loads are evenly distributed.

9. Edge and Corner Details:

  • Explanation: Address edge and corner details to prevent differential settlement.
  • Example: Provide thickened slab sections or use a drop panel at column locations to enhance load distribution.

10. Waterproofing and Drainage:

  • Explanation: Implement waterproofing measures and ensure proper drainage.
  • Example: Apply a waterproofing membrane on the foundation surface and install a drainage system along the length of the strip foundation to prevent water accumulation.

11. Construction Sequence:

  • Explanation: Develop a construction sequence that ensures the stability of the strip foundation.
  • Example: Excavate the foundation area, compact the soil, pour and cure concrete, and ensure proper curing to prevent cracking.

12. Quality Control:

  • Explanation: Implement quality control measures during construction.
  • Example: Conduct inspections at key construction stages, such as rebar placement and concrete pouring, to ensure compliance with design specifications.

13. Code Compliance:

  • Explanation: Ensure compliance with local building codes and standards.
  • Example: Adhere to relevant codes such as ACI 318 for concrete design or Eurocode 7 for geotechnical design, depending on the project location.

14. Professional Engineer Involvement:

  • Explanation: Engage a qualified structural engineer to oversee the design.
  • Example: Have a licensed structural engineer review and approve the strip foundation design to ensure it meets safety and code requirements.

15. Record Keeping:

  • Explanation: Maintain detailed records of the strip foundation design process.
  • Example: Document all design calculations, soil test results, construction activities, and as-built drawings for future reference and audits.

By following this checklist, engineers can ensure a well-designed strip foundation that meets structural requirements, minimizes settlement, and provides stability for the supported linear arrangement of columns or walls.

By Md Abu Zaed Khan

Hello, this is Engr. Zaed Khan Planning Engineer, Associate member of Society of Engineers UAE. Expert in construction project planning, FIDIC red book, computation of extension of time claim, Contract agreement and contractual letters.

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