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Bar Bending Schedule (BBS)

October 15, 2020

Bar Bending Schedule is a very important knowledge an engineer should have and it is even more important for the site engineers. Basically, Bar bending schedule is used to obtain the quantity of rebar in a construction. BBS includes the cutting length of rebar, size of rebar, bending of rebar and total quantity of rebar. BBS is a very important document which needs to be included in the Running Bill (Interim Payment certificate) prepared by the contractor. Hence BBS is generally prepared by the contractors engineer and approved by the consultants. However in big projects such as hydropower the BBS is prepared by the District Resident Engineer from consultant. It is better to prepare BBS during the site is running and when needed. BBS provides the total quantity of rebar used and it is updated in every IPC. BBS also helps the barbenders to prepare the rebar which needs to be installed. It is very user friendly and can be understood easily. Basicall

Thumb Rules on Rebars in Civil Engineering

October 15, 2020

As a civil engineer it is better to have knowledge about the thumb rules. These rules are quite useful in sites. However, the values obtained from these thumb rules might not be correct so calculation must be done for proper estimation. Thumb rule only helps to get an idea about the result. Below are some of the practised thumb rules in civil engineering: - 1) Thumb rule for Steel quantity required for Slab, Beams, Footings & Columns: - Steel required in Residential buildings = 4.5 Kgs to 4.75 Kgs / Sq. Ft. Steel required For Commercial buildings = 5.0 Kgs to 5.50 Kgs/Sq. Ft. 2) Percentage of Steel in Structural Members: a ) Slab – 1% of the total volume of concrete b ) Beam – 2% of the total volume of concrete c ) Column – 2.5% of total volume of concrete d ) Footings – 0.8% of the total volume of concrete Example: How to calc

Development Lengths

October 11, 2020

Development length? It is a term we hear in RCC subject in engineering while we talk about rebar. So what actually is development length? It is very important for a fresh site engineer to know about the development length. The definition of development length is “ A development length can be defined as the amount of reinforcement(bar) length needed to be embedded or projected into the column to establish the desired bond strength between the concrete and steel .” This definition can easily be found in google. What we need to learn is how to calculate the development length. Development length is denoted by Ld. Development length depends upon following:- 1) Diameter of rebar 2) Grade of steel 3) Grade of concrete As per IS 456:2000 clause 26.2.1 Development length= (Día of bar *grade of steel) /( 4* Design bond stress (ζbd) ) *Value of Design bond stress is given on code which differs fr

Specification of construction material in building

October 10, 2020

Construction material code: - Construction material is the materials used in the construction process of any kind of structure. The selection of construction material is very much important in construction in order to ensure the quality of the work. Some of the materials in building construction are shown below: - 1) Cement: - Cements stored more than two months from the date of receipt should either be avoided or tested in the lab. Cement should be ordinary Portland cement meeting the requirement of NS049-2041. 2) Coarse Aggregate: - Shall consist of crushed or broken stones, shall be hard, strong, dense, and durable. Should be angular in shape, flankey elongated pieces shall be avoided. Aggregate should confirm the requirement if IS 383-1970 and IS515-1959. Sizes: - a) Normal cement concrete with a thickness of 100mm and above graded from 20mm downward. b) Cement concrete from 40mm to 100mm thickness is graded from 12mm downward.

Notes on building

October 06, 2020

1) Horizontal formwork is called centering and vertical is called shuttering. 2) In slabs bars parallel to the shorter span are main bars. They are laid below distribution bars. 3) In slabs bars parallel to longer span are called distribution bars. They are laid above main bars. 4) In the slabs bar is cranked at one side then the bar is straight at the other side in slabs. 5) At the corner of each slab what happens is that the crank and the straight bars from both the sides merge at the point and make a mesh like formation of rebars. 6) The thumb rule is rebar size in slab should not be greater than 1/8 th of the depth of slab and the minimum diameter for slab rebar is 8mm. 7) In discontinuous end bars are bent U-turn after providing upto end of slab and extended upto (L/4) length from the face of the beam where L is the span of the slab on the direction of the rebar . For continuous end

Water Supply Part-1

October 03, 2020

Let's talk about a topic in which currently I am working on which is pipeline work. I am working currently as a contractor in a water supply project. Basically, in a water supply system, there are two parts which are: - Structure Part Pipeline Part Structure Part: - The starting of the structural part consists of an intake structure. Then from there, raw water is taken to another structure called a grit chamber and sedimentation tank. From the sedimentation tank, the raw water is taken to another structure called the water treatment plant where the raw water is purified. Then the purified clear water is taken to different storage structures such as reservoirs and overhead tanks. This is a very brief introduction to the structure portion of a water supply system. Here we are going to discuss the pipeline part. Pipeline Part: - We all know what is a pipeline. It is laying of pipe for the flowing of flui

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