
A singly reinforced beam 230 mm × 480 mm, effective to the centre of 4-20 mm diameter Fe415 bars is cast using M20 concrete. Find the ultimate moment of resi…
Read moreCalculate ultimate moment of resistance of R.C. Slab 130 mm thick, reinforced with 10 mm φ bars @ 100 mm c/c. Cover to center of bars is 20 mm. M20 concrete …
Read moreUsing L.S.M., calculate ultimate moment of resistance of a beam 230 mm × 400 mm effective, reinforced on tension side with three bars of 20 mm diameter bars.…
Read moreCalculate the ultimate moment of resistance of R.C. beam 250 mm × 500 mm. Reinforcement of 1256 mm2 is placed at a distance of 30 mm from the bottom face. Us…
Read moreA singly reinforced concrete beam 200 mm width and having effective depth 350 mm is reinforced with 3 bars of 12 mm diameter. Using M15 concrete of Fe415 ste…
Read moreA singly reinforced beam 230 mm × 500 mm effective cross-section is simply supported and has 6 m. effective span. Beam is reinforced with 4 Nos. of 16 mm φ …
Read moreFind the ultimate moment of resistance for a singly reinforced concrete beam having 230 mm wide and 400 mm effective depth. It is reinforced with 4 bars of 1…
Read moreA RCC beam of rectangular section 250 mm wide and 600 mm deep (effective) is reinforced on tension side by 4 bars of 20 mm diameter. The beam is subjected t…
Read moreThe limiting values of the neutral axis and moment of resistance depend on the type of steel used in reinforced concrete design. Here's a summary for mild …
Read moreAn RCC beam 230 mm wide and 400 mm deep (effective) is supported over an effective span of 6.0 m and reinforced with 4 bars of 20 mm diameter along tension s…
Read moreA singly reinforced rectangular beam is 450 mm (wide) and 560 mm (effective depth) with tensile reinforcement of 4 mild steel bars of 20 mm diameter. The eff…
Read moreA beam having dimension 230 × 450 mm effective is reinforced with 4 bars of 16 mm diameter on tension side. Calculate the ultimate moment of resistance of th…
Read moreImportance of Testing Fineness of Cement Strength Development : Fineness affects the rate of hydration and strength development of cement. Finer particles lead…
Read moreDefinition of Hydration: Hydration refers to the process by which a substance absorbs water. Factors Affecting the Rate of Hydration: Temperature:
Read moreTri Calcium Silicate (C3S) : Role : Primary contributor to the early strength of cement. Hydration : Rapid hydration, resulting in early strength development. …
Read moreThrilled to share the latest dashboard I designed for the Heavy Industrial PEB Warehou…
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