A vast collection of rules known as Indian Standards cover practically every facet of civil engineering, including structural steel design. Civil engineers involved in the development of large projects are typically required to consult a large number of IS codes, as such projects involve the use of numerous construction materials in a wide range of structures, including buildings, roadways, steel structures, various types of foundations, etc.
This article will explain why IS code for steel is so important, and you will find a list of IS codes for steel from which you may choose the one that is most suited to your needs.
IS code for steel: Significance
- The simplified formulas and charts provided by the IS code for steel assist or guide the structural engineer.
- The experimental investigation, research, and experts/practitioners/professionals’ views all factor into drafting the IS code for steel. It also considers learnings from previously completed or attempted constructions, setbacks, and successes. That’s why it sounds more plausible.
- Security procedures and considerations are encouraged by the IS code for steel. As a result, you can be certain that everyone’s safety is being taken seriously. Likewise, it specifies the bare minimum of loads that must be considered. It will safeguard the populace against calamities brought on by shoddy construction if implemented.
- In the event of a design conflict, the codified advice will always be followed.
IS code for steel list
The following is a complete list of the IS Code for Steel. When designing steel buildings, these codes should be considered.
| Code | Description of Code |
| IS 800:2007 | A practice code for using steel in general constructions. |
| IS 801:1975 | A recommended code of practice for the use of cold-formed light-gauge steel structural elements in conventional building construction |
| IS 802 (Part 1/Sec 1):1995 | Guidelines for the Application of Structural Steel in Transmission Line Towers, Part 1 addresses loads, materials and permissible stress, and Section 1 addresses materials and loads. |
| IS 802 (Part 1/Sec 2):1992 | Code of practice for the usage of structural components in an overhead transmission system, Part 1 addresses material, loads and allowable stress, and Section 2 addresses permissible stress. |
| IS 802 (Part 2):1978 | Code of practice for using structural components in the overhead transmission system, Part 1 addresses fabrication, inspection, galvanising, and packing. |
| IS 802 (Part 3):1978 | Code of practice for using structural components in the overhead transmission system, Part 3 addresses testing. |
| IS 803:1976 | Guidelines for the development, production, and installation of welded cylindrical mild steel oil storage tanks in vertical configurations |
| IS 804:1967 | Specification for rectangular steel tanks that have been crushed |
| IS 805:1968 | Recommended Methods for employing steel in centrifugal water systems |
| IS 806:1968 | General guidelines for the installation of steel pipes in buildings |
| IS 808:1989 | Specifications for hot-rolled steel beam, pillar, channel, and elbow sections |
| IS 811:1987 | Cold-formed light-gauge structural steel sections specification (revised) |
| IS 1173:1978 | Detailed description of cut tee bars made from hot-rolled steel |
| IS 1252:1991 | Specifications for hot-rolled steel bulb inclinations |
| IS 1730:1989 | Steel plate, sheets, strips, and flat specifications for use in structural engineering |
| IS 1732:1989 | The standard sizes for round as well square steel bars used in construction and other technical applications |
| IS 1852:1985 | Tolerances for rolling and cutting in relation to items made of hot-rolled steel |
| IS 1863:1979 | ISO 657-19 | Specification for steel bulb flats that have been hot rolled |
| IS 1864:1979 | ISO 657-18 | L-sections made of hot-rolled steel, with specifications for use in shipbuilding |
| IS 2314:1986 | Specification for the various components of steel sheet piling |
| IS 2713 (Part 1-3):1980 | Specs concerning tubular steel posts to be used in the construction of overhead electricity lines |
| IS 2750:1964 | Detailed description of the requirements for steel scaffoldings |
| IS 3443:1980 | Detailed description of the part of the crane rail |
| IS 3908:1986 | Requirement for equal leg aluminium angles |
| IS 3909:1986 | Requirement for aluminium uneven leg angles |
| IS 3921:1985 | Specifications for aluminium channel |
| IS 3954:1991 | Dimensions of hot-rolled steel frame members for typical engineering applications |
| IS 3964:1980 | Specification for commuter rail |
| IS 4000:1992 | Code of practice for installing high-strength bolts in steel constructions |
| IS 4014 (Part 1):1967 | Practice guidelines for steel tubular scaffolding, including Part 1 addressing materials and terminology. |
| IS 5384:1985 | I-beam aluminium beam specification |
| IS 5488:1987 | Dimensions and dimension tolerances for hot-rolled steel plates used in ship hull construction. |
| IS 6445:1985 | Detailed description of the requirements for aluminium tee-sections |
| IS 6449:1987 | Specification for aluminium bulb angles intended for use in maritime environments |
| IS 6475:1987 | The specification for tee bars made of aluminium for use in maritime applications |
| IS 6476:1987 | Specification for aluminium bulb plates intended for use in maritime environments |
| IS 6533 (Part 1):1989 | Code of practice for the design and fabrication of steel chimneys, Part 1 defines mechanical features. |
| IS 6533 (Part 2):1989 | Part 2 addresses structural features of the code of practice for the design and fabrication of steel chimneys. |
| IS 7205:1974 | Prevention Code for the Installation of Steel Structural Work |
| IS 7215:1974 | Steel construction manufacturing tolerances |
| IS 7452:1990 | Requirement for a hot-rolled steel door, window, and ventilation sections |
| IS 8081:1976 | Norm for slotted portions |
| IS 8147:1976 | Conduct standards for the use of aluminium alloys in buildings |
| IS 8640:1977 | Recommendations for industrial building dimensional specification |
| IS 9178 (Part 1):1979 | Part 1 of the criteria for the design of steel bins for the storage of bulk materials contains general requirements and load ratings. |
| IS 9178 (Part 2):1979 | Part 2 of the requirements for designing steel containers for bulk material storage provides design criteria. |
| IS 9178 (Part 3):1980 | Part 3 of the criteria for the design of steel bulk storage bins defines bins built for flow rate and funnel flow. |
| IS 9964 (Part 1):1981 | Part 1 of the regulations for the operation and maintenance of petroleum reservoirs discusses the necessary steps to take before entering and working within the tank. |
| IS 9964 (Part 2):1981 | Part 2 of the Guidelines for the Care and Use of Petroleum Storage Facilities discusses Regular Inspection. |
| IS 10182 (Part 1):1982 | Measurements and tolerances for sections of hot-rolled track shoe, as well as the section TS-L1 that is specified in Part 1. |
| IS 10182 (Part 2):1985 | The measurements and tolerances for the sections of hot-rolled track shoe, as well as the section TS-H1 that is specified in Part 2. |
| IS 10987:1992 | Set of guidelines for the design, manufacture, testing, and placement of horizontal cylindrical holding tanks for energy products that are either subterranean or above ground. |
| IS 12778:2004 | Dimensions and section characteristics of hot-rolled, parallel-flanged steel sections for use in bearing piles, beams, and columns |
| IS 12779:1989 | Tolerances for rolling and cutting for hot-rolled columns and beams sections with parallel flanges |
| IS 12843:1989 | Tolerancing requirements for the assembly of steel structures |
| IS 15663 (Part 1):2006 | The laying of natural gas pipes are outlined in detail in Part 1 of the practice code for the creation and construction of such pipelines. |
| IS 15663 (Part 3):2006 | Part 3 of the code of practice for natural gas pipelines covers the processes of pre-commissioning and commissioning. |
| SP 6 (Part 1): 1964 | Handbook for structural steel sections |
| SP 6 (Part 2): 1962 | Handbook for plate girders and steel beams |
| SP 6 (Part 3): 1962 | Handbook for steel columns and struts |
| SP 6 (Part 4): 1969 | High-strength friction-grip bolts: a designer’s guide |
| SP 6 (Part 5): 1980 | Structure Engineers’ Reference Guide: Cold-formed, Light-Gauge Steel Buildings |
| SP 6 (Part 6): 1972 | The use of plasticity theories in the planning of steel structures: a handbook for structural engineers. |
| SP 6 (Part 7): 1972 | A Guidebook for Structural Engineers: Welded Girders, Basic |
| SP 38 (S&T): 1987 | A handbook that contains archetypal ideas for buildings that use roof trusses made of steel, either with or without cranes |
| SP 40 (S&T): 1988 | A manual on the construction of buildings using structural steel frames (without cranes) |
| SP 47 (S&T): 1988 | A manual on the construction of buildings using steel lattice portal frameworks (without cranes) |
What are the design considerations needed for steel structures?
- The tendency of steel to corrode is the most significant disadvantage that it presents as a building material. Make sure that your attachments are set up so that all of the pieces may be reached in the future for painting and repainting.
- When doing research and development, it is important to avoid being too focused on weight reduction. Expect that certain optimal forms won’t be available from your vendors. The bottlenecks in fabrication and installation are caused by the need to substitute the unavailable forms with something else. Overusing this “minimal weight design” is especially common among inexperienced designers.
- Make it a goal to be as consistent as possible with the IS Code for Steel you use. During installation, the capacity to repeat a process and the ability to reuse that process in different locations are both very valuable.
- Consistently use the same hole sizes and weld thicknesses when making bolted and welded connections. If you want to reduce mistakes on the job site, it’s best to standardise things like bolt diameter, bolt material, and weld size.
FAQs
What are Indian Standard codes?
When designing and analysing civil engineering constructions in India, civil engineers refer to a set of regulations known as Indian Standard codes. These codes are utilised for anything from buildings and dams to highways and airports.
What is Code 800 for steel?
The Indian Standard (IS) 800 provides guidelines for all steel building projects. This standard has been revised twice; the first time was in 1984, and the second was on 22 February 2008.
