Before EN 13670 was adopted, Serbia used various standards (e.g., Pravilnik o betonu i armiranom betonu from 1987). Key differences:
| Aspect | Old Yugoslav standards | SRPS EN 13670 | |--------|------------------------|----------------| | Approach | Prescriptive (you must do X) | Performance-based (achieving a result) | | Tolerances | Often too strict or not defined | Realistic, risk-based | | Documentation | Basic logbooks | Formal Execution File | | Curing | Vague requirements | Detailed, based on strength gain | | Non-conformities | Often ignored | Explicit decision process |
A key feature of SRPS EN 13670 (the Serbian national adoption of the European standard EN 13670) is its focus on "Execution Classes,"
which allow for a tailored approach to quality management based on the complexity and risk of a specific project. iTeh Standards Why Execution Classes Are Important
Instead of a "one-size-fits-all" rule, this standard uses three Execution Classes to determine the level of inspection and documentation required: iTeh Standards Execution Class 1:
Used for simple, low-risk structures (e.g., small agricultural buildings or single-story structures) where minimal oversight is needed. Execution Class 2:
The "default" class for most standard engineering projects, such as residential or commercial buildings. Execution Class 3:
Reserved for complex, high-risk structures (e.g., high-rise buildings or major bridges) that require the most stringent quality controls and documentation. Other Notable Components srps en 13670
The standard acts as a bridge between the design (Eurocode 2) and the final structure, ensuring that the safety assumptions made during design are actually met on-site. It covers: iTeh Standards Falsework and Formwork:
Detailed requirements for design and removal to prevent premature structural stress. Concreting Operations: Specific protocols for delivery, placing, compaction, and —which is vital for durability. Geometrical Tolerances:
Provides clear limits on deviations for foundations, walls, and beams to ensure everything fits as designed. iTeh Standards You can find more specific technical details on the Institute for Standardization of Serbia (ISS) project page.
Институт за стандардизацију Србије for one of these execution classes? SRPS EN 13670:2012 27 Apr 2012 —
SRPS EN 13670:2012 is the Serbian national standard for the execution of concrete structures, adopting European standards for both in-situ and prefabricated construction. Managed by the Institute for Standardization of Serbia, this standard specifies requirements for ensuring structural safety and is used in quality control, training, and condition assessments. The standard is available for purchase in Serbian and English via the Institute for Standardization of Serbia
Институт за стандардизацију Србије
AI responses may include mistakes. For legal advice, consult a professional. Learn more SRPS EN 13670:2012 Before EN 13670 was adopted, Serbia used various
SRPS EN 13670:2012 is the Serbian national version of the European standard EN 13670:2009, which outlines the requirements for the execution of concrete structures. It is a critical document for civil engineers and construction professionals in Serbia, ensuring that the physical construction of buildings and infrastructure meets safety and quality benchmarks. Key Scope and Application
Purpose: It provides common requirements for the execution of concrete works to ensure they meet the design intent of Eurocode 2 (SRPS EN 1992).
Types of Work: The standard applies to both in-situ (cast on-site) concrete works and the assembly of prefabricated (precast) concrete elements.
Structure Types: It covers both permanent and temporary concrete structures.
Exclusions: This standard does not cover the production, specification, or conformity of the concrete material itself (which is handled by SRPS EN 206), nor does it cover health and safety or contractual responsibilities. Relationship with Other Standards
In the Serbian regulatory framework, SRPS EN 13670 works in tandem with several other standards:
SRPS EN 206: Specifies the properties and production of the concrete used. Improper curing is a leading cause of early-age
SRPS EN 1992 (Eurocode 2): Provides the design rules that the execution must follow.
SRPS EN 13791: Used for assessing the in-situ compressive strength of concrete in structures. Document Availability
The official Serbian text was published by the Serbian Institute for Standardization (ISS) in September 2012. It replaced the older pre-standard ENV 13670-1:2000. SRPS EN 13670:2012
Improper curing is a leading cause of early-age cracking and durability failure. SRPS EN 13670 mandates:
Yes, for any construction that requires a building permit and is subject to technical inspection. Small non-permanent structures may be exempt, but best practice is to follow it.
The primary purpose of this standard is to ensure that the finished structure meets the design requirements regarding safety, serviceability, and durability.
It applies to two main categories:
It covers all stages of the execution process, including: