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Monday, September 30, 2019

Top 4 apps for civil engineering students

Civil Sutra: Civil Sutra is specifically created for the benefits of site engineers, site supervisor, contractors and Architects to supply crucial and useful information.
The app can be used for the following purposes :-
1. Quantity of concrete
2. Bricks quantity
3. Paint quantity
4. Mortar calculation for plaster
5. Unit Conversion Etc.
Civil Sutra can simplify the calculation and designing work with the use of standard tables and formulas. The civil engineers get rid of tedious manual calculation process on site and start automatic calculation with some simple clicks of the mouse.
Downoad (play.google.com)
My Civil CalC: This calculator can be used for rapid & precise unit conversion and calculation for area, volume, conversion with meter cube to meter feet, inch to mm etc.
It contains a unique feature of assigning measurement units feet-inch/ M/mm also with calculator to the input numbers and obtain the desired result together with the unit.
It is also possible to convert the calculated results to alternative units with different accessible converters at the bottom. It is very time saving and user friendly calculator toward the builders, civil engineers, architects, interior designers, estimators, contractors, billing engineers, store keepers. It also facilitates to covert the value with calculator.
Top 4 apps for civil engineering students

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Published By
Rajib Dey
www.constructioncost.co
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Friday, September 20, 2019

Some vital tips to control cracking with Reinforce Concrete Slab on Ground

Steel reinforcing bars and welded wire reinforcement are used to check crack width in nonstructural slabs-on-ground.
Most slabs-on-ground are unreinforced or minimally reinforced for crack-width control. If steel reinforcement is arranged in the upper or top portion of the slab thickness, it restricts the widths of random cracks resulting from concrete shrinkage and temperature restraints, subbase settlement, applied loads or other issues. This type of reinforcement is normally defined as shrinkage and temperature reinforcement.
Shrinkage and temperature reinforcement is not same as structural reinforcement. Structural reinforcement is generally arranged in the bottom section of the slab thickness to enhance the load bearing strength of the slab. Most structural slabs-on-ground contain both top and bottom layers of reinforcement for managing crack-widths and improving load capacities. Due to constructability issues and costs regarding two layers of reinforcement, structural slabs-on-ground are not regularly used as nonstructural slabs.
The basics: Steel reinforcing bars and welded wire reinforcement can’t control cracking. Reinforcement mainly remains inoperative unless the concrete cracks. Once cracking happens, it gets activated and manages crack widths by limiting the expansion of crack.
When the slabs are provided on greater quality sub bases with uniform support and include low shrinkage concrete with joints perfectly installed at a gapping of 15 feet or less, reinforcement is normally is not required. Seemingly, there exist few random or out-of-joint cracking. In case of random cracks, they should remain moderately tight due to the restricted joint spacing and low concrete shrinkage thus future serviceability or maintenance issues will be reduced.
If slabs are arranged on difficult sub bases with risks of non-uniform support or comprise of medium to high shrinkage concrete or joint spacing surpassing 15 feet, then reinforcement should be provided to control the widths of cracks. Since crack widths expand and become about 35 mils (0.035 inches), the effectiveness of load transfer via aggregate interlock is reduced and differential vertical movements over cracks or slab "rocking" can happen.
Due to this, crack edges remain uncover and edge spalling takes place, particularly when the slab is uncovered to wheeled traffic and especially hard-wheeled lift trucks. As soon as spalling begins, crack widths at the surface get expanded and slab deterioration along cracks is raised considerably.
When contraction joints are inappropriate and not installed, shrinkage and temperature reinforcement is necessary. This design approach is sometimes called as continuously reinforced or joint-less slabs and produces several closely spaced (3 to 6 feet) fine cracks all through the slab.
Crack control options: Normally, the cracks in slabs-on-ground are controlled with the following ways -
1) check the location of cracking by installing contraction joints (does not control crack widths) or 2) Installation of reinforcement (does not control crack location).
With Option 1, we can know where to crack in the slab and widths of contraction joints or cracks in the joints are mostly managed by the joint spacing and concrete shrinkage. When joint spacings and concrete shrinkage are raised, joint widths also expand. Similar to cracks, when joint widths turn out to be about 35 mils, the effectiveness of the aggregate interlock to transmit loads and resist differential vertical movements across joints is considerably decreased. Because of this, several load-transfer devices like steel dowels, plates or continuous reinforcement through contraction joints are used to keep positive load transfer and control differential vertical movements across joints.
With Option 2, the slabs are allowed to crack indiscriminately but crack widths are controlled through steel reinforcing bars or welded wire reinforcement. Normally, contraction joints are not installed with this option rather cracking happens indiscriminately that develop several, tightly held together cracks.
Some vital tips to control cracking with Reinforce Concrete Slab on Ground

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Published By
Rajib Dey
www.constructioncost.co
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Thursday, September 19, 2019

Step by Step Guide to Hard Plaster a Brick Wall

After constructing a brick wall, we need to plaster it. This is to prevent water ingress into the brickwork since bricks absorb water from outside. Also, to make up the issues in underlying brickwork like plumb-outs, diagonal-outs, etc. And lastly, it also helps prepare a proper base for further painting works (Putty application, paint application, wall paper application, etc.)

Now let us look at the step by step process of applying a hard plaster on a brick wall

Preparing the wall – Remove any excess dust and dirt from the wall with the help of a paint brush. Lightly brush the bricks with water as it helps the plaster to stick. Lay drop sheets in front of the wall.
Prepare the plaster mix – Before you proceed any further put on your dust mask, safety glasses and protective gloves. Add water in your mixing bucket. Add three buckets of sand and half a bucket of cement and half a bucket of lime. Use a mixer to combine all the elements.
Scooping up the plaster – Put a corner of the hawk into the plaster and use a trowel to push the mix onto the hawk. Rest the trowel on the hawk, tilt the hawk back and scrape the plaster onto the trowel.
Apply the plaster on the wall – Start from the top and from the right, work up to the bottom and the left while applying the plaster. Spread the mortar evenly across the wall. Use the brick lines as a guide. Start at the bottom of a brick and spread the plaster upwards about two to three bricks. Continue until the entire wall is covered.
Screed the wall – After the plaster is dry to touch, screed the wall to remove excess plaster and give it a flat finish.
Check for level plaster – Hold the spirit level vertically against the wall to ensure flatness, rub spirit level in areas of uneven plaster to flatten it.
Screed the wall – Screed the areas you rubbed with spirit level.
Patch up the wall - After the last screed, there might be areas where the plaster is uneven or patchy. Use the trowel and hawk to apply plaster where it’s needed.
Screed the wall - Again screed to flatten after patching


Step by Step Guide to Hard Plaster a Brick Wall

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Published By
Rajib Dey
www.constructioncost.co
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