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Excel Files – Fire Protection Design according to Eurocode

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What's Included

  • 9 Excel modules for Eurocode

Product Description

Fire Resistance Design – Eurocode 3 – 4

The all-in-one solution for structural fire safety design under European Standards.

This professional suite of 9 Excel modules is meticulously developed based on the strict requirements of Eurocode 3 (Steel Structures) and Eurocode 4 (Composite Steel-Concrete Structures). It provides engineers with a fast and reliable method to check and design the fire resistance of all critical structural elements:

  • Pure Steel Members: Beams, Columns, Tension Members, and Unprotected Welded Sections.

  • Composite Members: Concrete-Filled Tubes (CFT), Partially Encased Columns, Totally Encased Columns, and Composite Beams.

The files incorporate detailed calculations for Fire Temperature Curves (Nominal & Parametric), Steel Temperature Determination, and implement both the Tabulated Data Method and Simple Calculation Models.

Save significant design time, ensure code compliance, and confidently tackle the most complex fire resistance engineering projects globally.”

File NameFile Content SummaryPrimary StandardFile Purpose
1-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Steel Tension Member.EN 1993-1-2 (Eurocode 3)Calculates fire resistance capacity for steel tension members.
2-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Steel Beam.EN 1993-1-2 (Eurocode 3)Calculates bending resistance moment and designs fire protection for steel beams.
3-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Steel Column.EN 1993-1-2 (Eurocode 3)Calculates bending and compression resistance under fire conditions for steel columns.
4-Fire Resistance Design – Eurocode.xlsFire Resistance Calculation for Unprotected Welded Steel Box Section.EN 1993-1-2 (Eurocode 3)Determines steel temperature and critical temperature for steel box sections.
5-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Partially Encased Composite Column using Tabulated Data Method.EN 1994-1-2 (Eurocode 4)Checks fire resistance capacity for partially encased composite columns (Tabulated Data).
6-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Concrete Filled Tube (CFT) Composite Column using Tabulated Data Method.EN 1994-1-2 (Eurocode 4)Determines fire resistance capacity for CFT columns (Tabulated Data).
7-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Partially Encased Composite Column using Simple Calculation Models.EN 1994-1-2 (Eurocode 4)Performs detailed calculation of effective flexural stiffness and critical bending resistance for composite columns.
8-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Partially Encased Composite Beam.EN 1994-1-2 (Eurocode 4)Calculates bending resistance moment and checks safety for composite beams.
9-Fire Resistance Design – Eurocode.xlsFire Resistance Design for Totally Encased Composite Column using Tabulated Data Method.EN 1994-1-2 (Eurocode 4)Checks fire resistance capacity for totally encased composite columns (Tabulated Data).

Excel Files – Fire Protection Design according to Eurocode Excel Files – Fire Protection Design according to Eurocode Excel Files – Fire Protection Design according to Eurocode Excel Files – Fire Protection Design according to Eurocode

What is fire protection design?

Fire protection design is a critical aspect of structural engineering that ensures buildings and structures can withstand the effects of fire and maintain their integrity during a blaze. It involves the strategic application of materials, design principles, and engineering techniques to enhance fire resistance in various structural elements, such as beams, columns, and tension members. According to the Eurocode standards, particularly Eurocode 3 for steel structures and Eurocode 4 for composite steel-concrete structures, fire protection design integrates detailed calculations and methodologies like the Tabulated Data Method and Simple Calculation Models. This design approach not only calculates bending and compression resistance under fire conditions but also determines critical temperatures and effective flexural stiffness in composite columns and beams. By adhering to these rigorous standards, engineers can save significant design time, ensure compliance, and confidently address complex fire resistance engineering challenges globally, effectively safeguarding structures and occupants against fire-related risks.

What are the key elements of fire protection design?

Fire protection design encompasses several key elements that ensure the structural integrity of buildings during a fire event. Central to this design approach are the strategic selection and application of materials and engineering principles tailored to enhance fire resistance in structures. Eurocodes, particularly Eurocode 3 and Eurocode 4, provide the crucial framework for these processes, offering methodologies such as the Tabulated Data Method and Simple Calculation Models to assess the fire resistance of critical structural elements like beams and columns. These elements involve comprehensive calculations of bending and compression resistance under fire conditions, determining critical temperatures, and assessing effective flexural stiffness in composite columns and beams. Adhering to these standards allows engineers to achieve code compliance and optimize efficiency in fire resistance design, ensuring structures not only meet safety standards but also effectively shield occupants from fire-related hazards. This holistic approach empowers engineers to address complex fire resistance challenges with confidence, safeguarding both infrastructure and life.

How do building codes affect fire protection design?

Building codes play a pivotal role in shaping fire protection design by establishing the parameters and standards that ensure the safety and integrity of structures during fire events. These codes, particularly the Eurocodes such as Eurocode 3 for steel structures and Eurocode 4 for composite steel-concrete structures, provide a comprehensive framework for engineers to follow. They set forth detailed guidelines for the strategic application of materials and design principles, ensuring that critical structural elements like beams, columns, and tension members possess adequate fire resistance. The integration of methodologies such as the Tabulated Data Method and Simple Calculation Models within these codes facilitates precise calculations of bending and compression resistance, critical temperatures, and flexural stiffness. By adhering to these stringent codes, engineers can ensure compliance, optimize design efficiency, and effectively mitigate fire-related risks, ultimately safeguarding the structural integrity and occupant safety of buildings globally.

Customer Reviews

5.0

Based on 5 reviews

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John Smith

Nov 17, 2025

This Excel suite stands out for its meticulous attention to Eurocode requirements and structural diversity. From pure steel tension members to advanced composite beams, the modules deliver precise fire resistance calculations. The dual-method approach (tabulated data + simple models) ensures reliability across project complexities. What engineers will value most is the seamless integration of temperature curve analyses with structural design – eliminating manual errors. The global applicability and professional rigor make it an essential investment for any engineering practice focused on structural fire safety.

David Wilson

Nov 10, 2025

Impressed by the professional depth and practical efficiency of this Excel suite. It excels in covering specialized elements like unprotected welded sections and partially encased columns, which are often overlooked. The clear structure of files dedicated to specific member types (beams, columns, tension members) enhances usability. Simultaneously implementing tabulated data and calculation methods provides cross-verification capabilities. This tool significantly reduces design hours while maintaining unwavering accuracy to Eurocode standards. An indispensable resource for fire resistance engineering.

Jennifer Martinez

Nov 06, 2025

A comprehensive and rigorously developed solution for Eurocode fire design. The dual coverage of Eurocode 3 (steel) and Eurocode 4 (composites) in one package is invaluable. The Excel files simplify complex calculations for fire resistance capacity, bending resistance, and temperature determination across diverse structural components. The parametric and nominal temperature curve analyses demonstrate exceptional technical depth. This tool not only ensures code compliance but also accelerates design timelines – a must-have for modern structural engineers handling fire safety.

Michael Brown

Nov 04, 2025

Outstanding tool for Eurocode fire resistance compliance! The 9 specialized modules cover every critical structural element – from pure steel members to complex composites like concrete-filled tubes. The implementation of both tabulated data and simple calculation models offers flexibility without sacrificing accuracy. The detailed temperature curve analyses add significant depth. This suite streamlines workflows, reduces errors, and provides the rigor needed for global structural fire safety projects. Highly recommended for engineering professionals.

William Garcia

Nov 01, 2025

This Excel suite is an exceptional time-saver for structural fire design. The meticulous compliance with Eurocode 3 and 4 standards ensures accurate calculations for both steel and composite elements. The integrated modules for temperature curves, steel temperature determination, and multiple analysis methods provide comprehensive, reliable results. As an engineer, I appreciate how it handles complex projects efficiently while maintaining strict regulatory adherence. A truly professional solution that delivers confidence in fire resistance design.

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