This article is about SAES-M-009 which is about Design Criteria for Blast Resistant Buildings and download SAES-M-009 PDF for Structural and Civil engineers, supervisors and project managers, Structural QCs, Civil QC Supervisors. This is saudi aramco standards of Onshore Structures Engineering based on international codes and standards and useful for Structural and Civil Engineering knowledge to get job as engineers, QC Supervisors and QC managers, Engineering managers and technicians.
SAES-M-009 PDF Download
SAES-M-009Design Criteria for Blast Resistant Buildings
The SAES-M-009 standard provides mandatory structural design criteria for new blast-resistant buildings. It includes requirements for selecting structural systems, analysis methods, and designing ancillary items like doors and openings. The standard also covers design criteria for non-structural items that could pose a hazard to occupants in blast-resistant buildings, such as architectural or electrical items and HVAC ductwork.
However, it’s important to note that SAES-M-100, which is the Saudi Aramco Building Code, covers architectural design and structural design for normal (non-blast) loads. SAES-Q-005, on the other hand, specifically addresses concrete foundations.
To ensure compliance with the latest standards and requirements, it is essential to refer to the most up-to-date versions of SAES-M-009, SAES-M-100, and SAES-Q-005, as these standards may undergo revisions or updates over time. Consulting the appropriate authorities or documentation within Saudi Aramco is advised for accurate and current information.
Industry Codes and Standards for SAES-M-009
The industry codes and standards referenced in SAES-M-009 include:
International Code Council (ICC)
- IBC: International Building Code, 2009 Edition
American Iron and Steel Institute (AISI)
- AISI Manual: North American Specification for the Design of Cold-Formed Steel Structural Members, Cold-Formed Steel Design Manual, 2007
American Institute of Steel Construction (AISC)
- AISC Manual: Steel Construction Manual, Thirteenth Edition
American Concrete Institute (ACI)
- ACI 318M: Building Code Requirements for Structural Concrete (ACI 318M-08) and Commentary
- ACI 530/530.1R: Building Code Requirements and Specification for Masonry Structures
American Petroleum Institute (API)
- API RP 752-09: Management of Hazards Associated with Location of Process Plant Buildings
- API RP 753-07: Management of Hazards Associated with Location of Process Plant Portable Buildings
American Society for Testing and Materials (ASTM)
- Various ASTM specifications related to structural steel, concrete, masonry, and materials used in blast-resistant applications.
American Welding Society (AWS)
- AWS D1.1/D1.1M: Structural Welding Code – Steel
ASCE Report
- Design of Blast-Resistant Buildings in Petrochemical Plants, American Society of Civil Engineers, Second Edition
UFC 3-340-02
- Structures to Resist the Effects of Accidental Explosions, US Dept. of the Army, December 2008 (formerly TM 5-1300)
These codes and standards provide guidance and requirements for the design of blast-resistant buildings, including structural systems, materials, and ancillary items. It’s important to refer to the specific editions and versions mentioned in SAES-M-009 to ensure compliance with the applicable standards.
Design Criteria for Blast Resistant Buildings
In SAES-M-009, the following guidelines and requirements are outlined regarding building configuration, blast loads, construction, and materials for blast resistant buildings:
6.2 Building Configuration:
- Blast resistant buildings are generally limited to single-story construction.
- Multi-story construction may be used with prior written approval, and special design considerations should be given to the inter-story response to blast loading.
- The floor plan and elevation should have a clean rectangular profile without re-entrant corners and recessed areas. Exceptions to this requirement require prior written approval.
6.3 Blast Loads:
- Blast resistant buildings should be designed for the dynamic blast loads specified in the BDR (Blast Design Review) Data Sheet.
- Blast loads on individual building surfaces should be calculated using methods described in Chapter 3 of the ASCE (American Society of Civil Engineers) Report – Design of Blast Resistant Buildings in Petrochemical Facilities.
- Blast pressure amplifications due to re-entrant corners or recessed areas should be evaluated and considered during the design.
6.4 Construction and Materials:
- The structural system and materials should be selected to provide an economical design that meets all performance requirements, as specified in SAES-R-004 and SAES-M-100.
- Brittle construction, such as unreinforced concrete, unreinforced masonry, or poured gypsum, should not be used for load-carrying components of blast resistant buildings.
- The use of prestressed concrete requires prior written approval, and non-prestressed reinforcement should be added to carry tensile forces that may develop.
- Advanced materials, such as composites, may be used with prior written approval if adequate test data is available to confirm their satisfactory performance under dynamic blast loading conditions.
- Fragment resistance requirements may necessitate the use of reinforced concrete or fully-grouted reinforced masonry as cladding materials.
These guidelines ensure that blast resistant buildings are designed to withstand blast loads and provide a safe environment for occupants. Compliance with the specified codes and standards, as mentioned earlier, is essential for meeting the design criteria outlined in SAES-M-009.
FAQs about SAES-M-009 PDF Download
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What is SAES-M-009?
SAES-M-009 is a standard issued by Saudi Aramco that establishes mandatory design criteria for blast-resistant buildings. It outlines guidelines and requirements for the selection of structural systems, analysis methods, and design considerations for blast-resistant buildings.
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What is the building configuration for blast-resistant buildings?
Blast-resistant buildings are generally limited to single-story construction. Multi-story construction may be used with prior written approval, but special design considerations should be given to the inter-story response to blast loading.
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How are blast loads determined for blast-resistant buildings?
Blast-resistant buildings should be designed for the dynamic blast loads specified in the Blast Design Review (BDR) Data Sheet. Blast loads on individual building surfaces are calculated using methods described in the ASCE Report – Design of Blast Resistant Buildings in Petrochemical Facilities. Blast pressure amplifications due to re-entrant corners or recessed areas should also be evaluated and considered during the design.
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What construction and materials are recommended for blast-resistant buildings?
The structural system and materials should be selected to provide an economical design that meets all performance requirements, as specified in SAES-R-004 and SAES-M-100. Brittle construction such as unreinforced concrete, unreinforced masonry, or poured gypsum should not be used for load-carrying components of blast-resistant buildings. The use of prestressed concrete requires prior written approval, and advanced materials like composites may be used with prior approval if adequate test data is available. Fragment resistance requirements may necessitate the use of reinforced concrete or fully-grouted reinforced masonry as cladding materials.
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Which standards cover other aspects of blast-resistant building design?
SAES-M-009 focuses specifically on the structural design criteria for blast-resistant buildings. Other design aspects such as architectural design, structural design for normal loads, and foundation design are covered in SAES-M-100 (Saudi Aramco Building Code) and SAES-Q-005 (Concrete Foundations).
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Is compliance with SAES-M-009 mandatory for blast-resistant buildings?
Yes, SAES-M-009 establishes mandatory design criteria for blast-resistant buildings within Saudi Aramco’s standards. Compliance with this standard is necessary to ensure the buildings are designed to withstand blast loads and provide a safe environment for occupants.
Read Also:
SAES-M-006 PDF Download – Saudi Aramco Security and General Purpose Fencing
SAES-M-005 PDF Download – Design and Construction of Fixed Offshore Platforms
SAES-M-001 PDF download – Structural Design Criteria for Non-Building Structures
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