Basic differences among RC slab and RB slab

RC Slab: RC Slab stands for a horizontal structural component of steel reinforced concrete. Generally, the thickness of RC slab varies from 100mm to 500mm. RC Slabs are frequently applied as floorings, ceilings etc. Slabs are supported on two sides only or contain beams on all four sides.

RC slabs are erected with formwork, that is generally created with wooden planks, boards, plastic & steel. In recent times, prefabricated RC slabs are also utilized. RC Slab is also termed as Reinforced Concrete Slab that arranges reinforcement for retaining the strength of the structure. Straight bar and alternative cranked bars are also applied as reinforcement in the RC slabs.

RB slabs: RB slab stands for a reinforced brick slab that is suitable for floorings and ceilings. RB slab is erected with steel reinforcement arranging spacing with the bricks. The construction cost of RB slab is less with regard to RC slab.

An RC slab alias Reinforced Cement slab is found in buildings and in bridge construction. The reinforcement is provided with steel bars which are arranged with some distances according to design and based on the load the slab has to undergo.

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Arka Roy
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The role of Site Engineer & Project Engineer in a construction project

Site engineers and project engineers frequently work in tandem on a job performing various things. Both play important role for major projects with equally significant liabilities.

Comparing Site Engineers to Project Engineers: Both the site engineers and project engineers take diverse liabilities for accomplishment for different types of construction projects.

Site engineers have sound technical skills which can be applied for specific engineering aspects of the project. Project engineers supervise the general operation of the project. They acquire the resource orders, deal with clients, and coordinate with designers and other engineers.

Given below, the basis differences among site engineers and project engineers :-

Liabilities of Site Engineers vs. Project Engineers

Site engineers perform according to a designer’s plans, engineer’s specifications and city codes to execute their jobs. Conversely, the project engineers perform very intimately with management and planners in an consultative manner to produce blueprints that fulfill the objectives of the clients as well as city and state codes.

Site Engineers: The site engineers may possess an office somewhere, but in several occasions they are active at the job site ensuring specific jobs are accomplished perfectly and with adherence to code.

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Some useful tips to examine concrete formwork in job site

The finalized inspection of concrete formwork should be examined prior to set the reinforcement bars in exact location. By implementing perfect form work, honey combing, blow holes, grout less or discoloration of concrete can be circumvented and consequently the finished surface of concrete becomes superior.

Prior to commencement of concreting work, shuttering surface should be fully cleansed and does not contain any defect/deposits in order to provide rightly straight smooth concrete surface. Shuttering surface does not contain any damage and unnecessary roughness to its surface.

While building concrete form work, the following should be examined properly.

1. Any member to be retained in position once the general dismantling is completed, should be labeled perfectly.
2. The applicable materials should be thoroughly examined in order that no incorrect items/rejects are utilized.
3. When excavations exist nearby reformatory and strengthening action should be undertaken to impact the safety of form work.
4. The quality of bearing soil should be strong and it should be arranged properly and the sole plates should bear well on the ground. Sole plates should be perfectly placed on their bearing pads or sleepers. The bearing plates of steel props should not be deformed. There should be adequate bearing areas for the steel sections on the bearing members.

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Arka Roy
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SketchUp and Rhino plug-ins now available for Unity Reflect

In the modern AEC world, 60% of all augmented reality (AR) and computer generated reality (VR) content is fueled by Unity. The devs of Unity propelled Unity Reflect to get those continuous 3D encounters VR and AR to the architecture, engineering, and construction (AEC) industry. They have been tuning in to the customers input since the dispatch and have been working diligently on developers’ next discharge. Presently, They are eager to report new highlights and upgrades to Unity Reflect.

SketchUp and Rhino modules

Unity Reflect as of now coordinates with Autodesk Revit, empowering constant BIM and supporting developers’ promise to accomplish full information interoperability between Autodesk items and Unity. To encourage developers’ help for the AEC business, They have included modules for SketchUp and Rhino.

This permits the AEC business to move Revit, SketchUp, and Rhino models into Unity to make continuous encounters, construct exceptionally adjustable ongoing 3D applications, and direct audits in a vivid, intelligent path on a variety of gadgets. Unity Reflect bolsters the 2019 arrival of SketchUp and Rhino 6.

Unity Reflect is presently good with Unity 2019.3 and will keep on remaining perfect with the Long-Term Support (LTS) rendition of Unity. The 2019.3 discharge carries new highlights to Unity, for example, a pristine Editor interface, Input System, and quicker in-Editor emphasis time.

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Details guidelines on RCC Staircase Design

RCC or reinforced concrete structures comprise of various building elements like Footings, Columns, Beams, Slabs, Staircase etc.

These elements are reinforced with steel to increase the strength of the structure. Staircase is considered as one such vital element in a RCC structure.

Given below, the details on several types of staircases and how the design is created for the dog-legged reinforced cement concrete staircase.

Stairs: There are lots of steps in a stair which are organized in a series to provide entry to various floors of a building. As a stair is the only medium for making communication among different floors of a building, the position of the stair should be perfect.

In a residential building, the staircase should remain adjacent to the main entrance.

In a public building, the stairs should be constructed from the main entrance itself and situated centrally, to give rapid entry to the main apartments.

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Types, applications and benefits of aggregates

Aggregates are the vital components in concrete. They are granular materials obtained from the natural rocks, crushed stones as well as natural gravels and sands. The aggregates are amalgamated with a binding material in fixed ratios to form concrete.

Aggregates normally capture about 70% to 80% of the concrete volume and they significantly affect the different properties like strength, hardness and stability of the concrete. Aggregates function as fillers or volume increasing components.

Applications of aggregates:

1. They are used as an underlying material for foundations and pavements.

2. They are used as constituents in portland cement concrete & asphalt concrete.

Properties of Aggregate: Aggregate should contain the properties given below –

1. It should be chemically static that means they should not respond to cement or any other aggregate or admixture.

2. It should contain adequate hardness to avoid scratching and erosion in the hardened state.

3. It should contain adequate toughness to sustain impact and vibratory loads.

4. It should be physically strong to carry compressive and normal tensile loads in ordinary mixture.

5. It should not contain impurities, inorganic or organic in nature for which the quality of concrete will be affected significantly.

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Step-by-step guidelines to calculate the volume of a trapezoidal footing

Isolated footings alias pad or spread footings are mostly found in shallow foundations with the intention of conveying and distribution of concentrated loads resulting from columns or pillars. Isolated footings either comprise of reinforced or non-reinforced material. For the non-reinforced footing, the height of the footing should be larger to maintain the required spreading of load.

To apply Isolated footings, there should not be fluctuating settlements under the whole building.

Necessity of materials for Isolated Footing : The following materials will be utilized for building up a isolated footing – Shutter Material, MS Rod, Binding Wire, Cover Block and Chair, Concrete.

Shutter Material for Isolated Footing: In isolated footing, generally wooden shutter materials are utilized. Often, steel shutter materials can also be applied.

This type of footing is utilized under the following conditions : Columns are not arranged narrowly. Fewer loads enforce on footings. The safe bearing strength of the soil is usually extreme.

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Types of Leveling Methods in Surveying

Leveling is the most generally utilized technique for getting the elevations of ground points comparative with a reference datum and is normally done as a different system to those utilized in fixing planimetric position. The fundamental idea of leveling includes the estimation of vertical separation comparative with a horizontal line of sight. Consequently, it requires a graduated staff for the vertical estimations and an instrument that gives a horizontal line of sight.

The different types of Leveling in ground survey are:

a. Precise or Geodetic Leveling
b. Ordinary or Simple Leveling

Techniques for Leveling

Techniques for leveling might be immediate, for example:

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How to estimate cement bags in 1 cubic meter

Suppose the proportion of nominal mix is 1:2:4 (one part cement, 2 part sand and 4 part aggregate)

Wastage of cement is taken as 2%
Output of mix is provided as 67%.

For 1 cum output, the requirement of dry mix is 1/0.67 = 1.49 say 1.50 cum.
After including the wastage (2%), the output will be (1.50 + 0.02) = 1.52 cum.
Volume of cement = (cement/cement+sand+aggregate) × Total material

= (1/1+2+4) × 1.52
=0.2171 cum
The density of cement is 1440 kg/cum and
Weight of 1 bag cement = 50 kg.

So, volume of 1 bag cement = 50/1440
=0.0347 cum.
No. of cement bags essential in 1 cubic meter = 0.2171/0.0347
= 6.25 bags.
The above formula can be utilized for measuring cement for other nominal mixes.

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Some important points for civil site engineer

Civil engineer accomplishes several tasks at construction site. Given below, some points, tips and tricks essential for a civil engineer for doing rapid calculations and providing instant solutions to construction site problems.

Given below, some general points which civil site engineers should focus on to simplify the construction work whereas retaining the quality of construction.

Lapping should not be provided for the bars with diameters in excess of 36 mm.

Highest spacing for chair should be 1.00 m (or) 1 No per 1m2.
For dowels rod, lowest 12 mm diameter should be applied.

For Chairs, bars with minimum diameter of 12 mm should be utilized.
Longitudinal reinforcement should remain not below 0.8% and in excess of 6% of gross C/S.
Least bars for square column is 4 No’s and 6 No’s for circular column.
Main bars in the slabs should not be under 8 mm (HYSD) or 10 mm (Plain bars) and the distributors should not be under 8 mm and not in excess of 1/8 of slab thickness.

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