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Tech Sethia Construct the people dream into reality

03/02/2026

DAY 6 | PLINTH BEAM & MURRUM FILLING πŸ—οΈ

Strong home starts below ground level πŸ’ͺ

πŸ”Ή After plinth beam casting
πŸ”Ή Selected murrum filling in layers
πŸ”Ή Proper water sprinkling πŸ’§
πŸ”Ή Mechanical compaction for zero settlement

Why this matters? πŸ‘‡
βœ” Prevents floor cracks
βœ” Controls dampness
βœ” Increases load-bearing capacity
βœ” Long life of flooring & structure

⚠️ ΰ€―ΰ€Ύΰ€¦ ΰ€°ΰ€–ΰ₯‡ΰ€‚:
Murrum filling without compaction = future repairs

Quality is not visible later,
but its effect is permanent.

πŸ“Day 6 done right.
🏠 Building trust, layer by layer.



SiteExecution StrongFoundation
BigInfra YourTrustedHomePartner

31/01/2026

Day 5

21/01/2026

VN 355 house plan | 25x50 house plan | new house plan | new site visit | update new

17/01/2026

Day 3

10/01/2026

Day 2 | Footing Excavation in Progress πŸ—οΈ | Black Cotton Soil Foundation Work | Site Update

Day 2: Footing Work on Black Cotton Soil 🚧

βΈ»

Footing excavation work is in full swing and foundation depth has reached black cotton soil level.
Proper planning, correct excavation, and soil consideration are the backbone of a strong & long-lasting structure.

πŸ“ Footing mat preparation in progress
🧱 Black cotton soil handled with engineering precision
πŸ—οΈ Quality construction starts from the foundation

Stay connected for more real site updates & civil engineering insights.

βΈ»

Call 9584524886





04/01/2026

Day 1 site visit in indore

Components Of A Load Bearing Structure1. CopingA protective top layer provided on parapet walls to prevent water seepage...
26/11/2025

Components Of A Load Bearing Structure

1. Coping

A protective top layer provided on parapet walls to prevent water seepage.

2. Parapet Wall

A small wall on the roof edge for safety and protection from wind and rain.

3. Chajja

A small slab projection above windows/doors to protect from rain and sun.

4. RCC Lintel

A reinforced concrete beam placed above openings (doors/windows) to carry the load of masonry above it.

5. Sill Level

The bottom horizontal portion of a window opening.

6. Plinth Level

The level between ground and floor, preventing moisture and providing elevation to the building.

7. DPC (Damp-Proof Course)

A horizontal barrier layer preventing moisture from rising into the walls from the ground.

8. GL (Ground Level)

Natural ground surface around the building.

9. PCC Bed

Plain cement concrete layer provided as a base for masonry work and flooring.

10. Footing Stonework

Stone masonry or concrete footing that transfers the load from walls to the ground.

11. Gravel Fill

A layer placed for leveling and reducing capillary rise of water under floors.

12. Floor Finish

The final smooth surface (tiles, marble, etc.) on which people walk.

13. Sliding Window

A type of window that slides horizontally for ventilation/light.

14. RCC Slab

The structural roof slab is made of reinforced concrete.

15. Weathering Course

A protective top layer on the roof to resist heat and water pe*******on.

Related Hashtag:








22/11/2025

Fenglai Bridge: Precision Engineering at Extreme Heights

China’s Fenglai Bridge showcases the next level of steel-arch engineering. Built over a deep canyon, each massive arch segment is lifted, positioned, and aligned with extreme accuracy hundreds of meters above the ground. Advanced wind-control systems stabilize the structure during lifting, while towering temporary supports ensure safety and balance throughout construction. Real-time digital monitoring tracks stresses, alignment, and environmental conditions, allowing engineers to make instant adjustments. This blend of heavy engineering and smart technology reduces risks, improves speed, and guarantees structural integrity. The Fenglai Bridge stands as a powerful example of how modern infrastructure pushes boundaries to deliver safe, durable, and world-class spans.

Video rights : veru_oil_petroleum
https://lnkd.in/g_RE8ahT

21/11/2025

🧱 5 Construction Failures Every Engineer Must Learn From β€” Before the Site Teaches You the Hard Way

Construction never fails suddenly β€”
It fails slowly, one ignored detail at a time.

Here are 5 real site failures that happen more often than we admit, and what IS Codes say about preventing them πŸ‘‡

1️⃣ Honeycombing in Columns & Beams

Cause: Poor compaction + low workability
IS Reference: IS 456:2000 – Clause 13.3
Prevention:
βœ” Adequate vibration
βœ” Correct slump
βœ” Proper shuttering tightness

2️⃣ Cracks Due to Improper Joint Placement

Cause: Wrong spacing of contraction joints
IS Reference: IS 11817
Prevention:
βœ” Provide saw-cut joints at correct intervals
βœ” Control shrinkage early

3️⃣ Weak Concrete Surface (Dusting)

Cause: High water–cement ratio + late finishing
IS Reference: IS 10262
Prevention:
βœ” Maintain W/C ratio
βœ” Proper curing duration

4️⃣ Settlement Cracks in Masonry Walls

Cause: Differential settlement of foundation
IS Reference: IS 1905
Prevention:
βœ” Uniform soil compaction
βœ” Proper footing design

5️⃣ Reinforcement Exposure / Spalling

Cause: Insufficient cover & corrosion
IS Reference: IS 456 – Table 16
Prevention:
βœ” Maintain cover blocks
βœ” Use correct concrete grade

🌟 Why this matters

Every failure tells a story.
The question is β€” are we paying attention?

πŸ’¬ Which construction failure have YOU seen the most on site?

Drop it below β€” let’s help young engineers learn faster.

Mohammad Umar
Maroof Khan
Mohammad Haider
Mohd Huzaifa Akhtar





















🧱 5 Construction Failures Every Engineer Must Learn From β€” Before the Site Teaches You the Hard WayConstruction never fa...
21/11/2025

🧱 5 Construction Failures Every Engineer Must Learn From β€” Before the Site Teaches You the Hard Way

Construction never fails suddenly β€”
It fails slowly, one ignored detail at a time.

Here are 5 real site failures that happen more often than we admit, and what IS Codes say about preventing them πŸ‘‡

1️⃣ Honeycombing in Columns & Beams

Cause: Poor compaction + low workability
IS Reference: IS 456:2000 – Clause 13.3
Prevention:
βœ” Adequate vibration
βœ” Correct slump
βœ” Proper shuttering tightness

2️⃣ Cracks Due to Improper Joint Placement

Cause: Wrong spacing of contraction joints
IS Reference: IS 11817
Prevention:
βœ” Provide saw-cut joints at correct intervals
βœ” Control shrinkage early

3️⃣ Weak Concrete Surface (Dusting)

Cause: High water–cement ratio + late finishing
IS Reference: IS 10262
Prevention:
βœ” Maintain W/C ratio
βœ” Proper curing duration

4️⃣ Settlement Cracks in Masonry Walls

Cause: Differential settlement of foundation
IS Reference: IS 1905
Prevention:
βœ” Uniform soil compaction
βœ” Proper footing design

5️⃣ Reinforcement Exposure / Spalling

Cause: Insufficient cover & corrosion
IS Reference: IS 456 – Table 16
Prevention:
βœ” Maintain cover blocks
βœ” Use correct concrete grade

🌟 Why this matters

Every failure tells a story.
The question is β€” are we paying attention?

πŸ’¬ Which construction failure have YOU seen the most on site?

Drop it below β€” let’s help young engineers learn faster.

Mohammad Umar
Maroof Khan
Mohammad Haider
Mohd Huzaifa Akhtar





















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(Building Information Modeling)

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