Concrete Paving Design Spreadsheet – Vehicle Loading Calculations

This suite of 9 spreadsheets allows the designer to calculate the traffic loading exerted by the most common types of plant operating on highway or industrial paving.

The suite includes a total of 9 spreadsheets;

  • A spreadsheet calculating the point loads exerted by stacks of shipping containers.
  • A spreadsheet calculating the equivalent Million Standard Axle loading from a user defined set of expected highway traffic volumes.
  • A spreadsheet calculating the equivalent Million Standard Axle loading from a user defined axle load from a non-standard vehicle.
  • A spreadsheet calculating the Single Equivalent Wheel Load from a user defined Front Lift Truck style vehicle.
  • A spreadsheet calculating the Single Equivalent Wheel Load from a user defined Reach Stacker style vehicle.
  • A spreadsheet calculating the Single Equivalent Wheel Load from a user defined Rubber Tyred Gantry Crane style vehicle.
  • A spreadsheet calculating the Single Equivalent Wheel Load from a user defined Side Lift style vehicle.
  • A spreadsheet calculating the Single Equivalent Wheel Load from a user defined Straddle Carrier style vehicle.
  • A spreadsheet calculating the Single Equivalent Wheel Load from a user defined Tractor & Trailer style vehicle.

For a fully functional free trial of these spreadsheets, please enter your email address below.

Concrete Pavement Design – Vehicle Loading Analysis (9 Spreadsheets)

Just £10!

License Type

Other Concrete Road & Pavement Design Spreadsheets from CivilWeb...

Concrete Road Design – TRL 87 Method

Analysis and design of a concrete road using the TRL 87 Method.

Industrial Concrete Paving Design - Heavy Duty

Heavy Duty Industrial Concrete Pavement Design using the Interpave Heavy Duty Pavements design guidance

Industrial Concrete Paving Design - Meyerhof Method

Industrial Concrete Pavement Design using the Meyerhof Method from the TR34 design guidance

Industrial Concrete Paving Design - Hetenyi Method for UDLs

Industrial Concrete Pavement Design using the Hetenyi Method for UDLs

Industrial Concrete Paving Design - Westergaard Method

Industrial Concrete Pavement Design using the Westergaard Method

Industrial Concrete Paving Design – HD Block Paving Design

Industrial Concrete Pavement Design using the Williams Method for HBM based pavements

Concrete Paving Design – Fibre Reinforced Concrete Pavement Flexural Strength

Concrete Pavement Analysis tool for estimating the flexural strength of polypropylene fibre reinforced slabs

Concrete Paving Design – Conventionally Reinforced Concrete Pavement Flexural Strength

Concrete Pavement Analysis tool for estimating the flexural strength of conventionally reinforced slabs

Concrete Paving Design – Dowelled Joint Design

Concrete Paving Design tool for design of dowelled joints

Concrete Paving Design – Tied Joint Design

Concrete Paving Design tool for design of tied joints

Concrete Paving Design – Induced Joint Aggregate Interlock Analysis

Concrete Paving Analysis tool for estimating the differential movement across sawn joints

Concrete Road Design – AASHTO Method

Analysis and design of a concrete road using the AASHTO Method

Concrete Paving Design – Curing Analysis

Concrete Pavement Analysis tool for estimating the bleeding and evaporation rates from newly poured concrete paving

Concrete Paving Design – Non Loading Stresses

Concrete Paving Design tool for calculating the stresses acting on a concrete slab due to curling and shrinkage

Concrete Paving Design – Punching Shear

Concrete Paving Design tool for calculating the punching shear capacity of concrete pavement slabs