What is the purpose of soil testing?

Soil testing determines properties such as moisture content, plasticity, and strength to ensure suitability for embankment, subgrade, and pavement layers.

Which IS codes are used for soil tests?

Most soil tests follow IS 2720 series. Some field tests may also reference MoRTH or IRC guidelines.

Why is moisture content important in highway construction?

Moisture content affects compaction, strength, and stability of subgrade and embankment layers.

What are common soil test methods?

Tests include Liquid Limit, Plastic Limit, Free Swell Index, CBR, Grain Size Analysis, and Moisture Content determination.

Which method is faster for moisture content determination?

Rapid Moisture Meter (RMM) method is fast for field-based testing, while Sand Bath/Oven-Drying is more accurate in the lab.

Concrete Cube Test Process, Calculation & Result

Table of Contents

Concrete Cube Casting & Compressive Strength Testing (IS:516)

1. Objective

To prepare, cast, cure, and test concrete cube specimens of size 150 × 150 × 150 mm or 100 × 100 × 100 mm to determine compressive strength of concrete at specified ages (usually 7 days and 28 days).

2. Apparatus Required

Cube moulds – 150 mm or 100 mm
Mixing tray and scoop
Tamping rod (16 mm diameter)
Trowel
Concrete mixer (if required)
Curing tank (27 ± 2°C)
Compression Testing Machine (CTM)

3. Preparation of Cube Moulds

Clean moulds to remove dust and hardened mortar.
Assemble moulds properly and tighten bolts.
Apply thin uniform oil layer on internal faces.
Check alignment and squareness of mould.

4. Sampling and Mixing of Concrete

Sample concrete from freshly mixed batch.
Mix thoroughly until uniform colour and consistency are achieved.
Start casting immediately to avoid loss of workability.

5. Casting of Concrete Cubes

Fill mould in three equal layers.
Distribute concrete evenly around mould.

6. Compaction of Concrete

Compact each layer by rodding or vibration.
Manual compaction: 35 strokes per layer.
Rods to penetrate into the previous layer.
Tap mould sides gently to remove air voids.
Finish top surface smoothly using trowel.

7. Identification and Initial Storage

Date of casting
Grade of concrete
Cube number / location

Store cubes undisturbed for 24 hours at 27 ± 2°C.

8. Curing of Concrete Cubes

Demould cubes after 24 ± ½ hours.
Immediately immerse in clean water.
Maintain curing temperature at 27 ± 2°C.
Continue curing till testing age.

9. Compression Testing of Cubes (IS:516)

Remove cube from curing tank (SSD condition).
Clean cube and CTM platens.
Measure dimensions (nearest 0.2 mm).
Place cube centrally on CTM platen.
Apply load gradually at ≈140 kg/cm²/min.
Record maximum load at failure.

Note: Improper centring causes eccentric loading and wrong test results.

10. Calculation of Compressive Strength

Compressive Strength (N/mm²) = Maximum Load at Failure ÷ Loaded Area

11. Cube Size – Area – Thumb Rules

Cube Size	Loaded Area
150 mm Cube	225 cm²
100 mm Cube	100 cm²

Fast Site Calculation Rules

150 mm cube → Load (kg) ÷ 225 | Load (kN) ÷ 22.5
100 mm cube → Load (kg) ÷ 100 | Load (kN) × 10

12. Sampling Frequency (IS Practice – Simplified)

Concrete Quantity	No. of Samples	Total Cubes
1 – 5 m³	1	3
6 – 15 m³	2	6
16 – 30 m³	3	9
31 – 50 m³	4	12
Each additional 50 m³	+1	+3

13. Reporting of Results

Calculate strength of each cube.
Round off to nearest whole number.
Average of 3 cubes = representative strength.
Variation limits must be satisfied.

Concrete Strength Acceptance Criteria (±15% Rule Explained)

Basic Rule

For any set of 3 cubes (one sample):

Calculate average strength
Each cube must lie within:
- 0.85 × Average (−15%)
- 1.15 × Average (+15%)

If even one cube is outside this range, the sample is REJECTED, irrespective of average strength.

Key Strength Values – M25 Concrete

Characteristic strength (fck) = 25 N/mm²
Standard deviation (assumed) = 4 N/mm²
Target mean strength = fck + 1.65 × S = 25 + (1.65 × 4) = 31.6 N/mm²

CASE–1: Single Sample (Small Quantity Concrete)

Concrete Quantity = 5 m³ As per IS practice → 1 sample (3 cubes)

Acceptance Criterion (Special Case)

When only one sample is available:
Average strength ≥ fck + 4 = 29 N/mm²

Cube Strengths (N/mm²)	Average	0.85 × Avg	1.15 × Avg
19, 26, 16	20.3	17.3	23.3

Reasons for Rejection

❌ Average strength less than 29 N/mm²
❌ Cubes 26 and 16 N/mm² outside ±15% range

Final Decision: ❌ CONCRETE REJECTED

CASE–2: Multiple Samples (Normal Quantity Concrete)

Concrete Quantity = 28 m³ Samples required = 3 samples (9 cubes)

Acceptance Criteria

Each cube ≥ fck − 2 = 23 N/mm²
Overall average ≥ fck + 4 = 29 N/mm²
±15% variation satisfied for each sample

Sample-wise Results

Sample	Cube Strengths (N/mm²)	Average	0.85 × Avg	1.15 × Avg
1	33, 29, 32	31.3	26.6	36.0
2	24, 32, 28	28.0	23.8	32.2
3	25, 29, 32	28.7	24.4	33.0

Overall Average Strength

(31.3 + 28.0 + 28.7) ÷ 3 = 29.3 N/mm²

Acceptance Check (As per IS Acceptance Criteria)

✅ ±15% Variation Check:
All individual cube strengths fall within the permissible range of 0.85 × Average to 1.15 × Average for their respective samples. This confirms uniformity in batching, mixing, compaction, and curing of concrete.
✅ Minimum Individual Strength Check:
Each tested cube has achieved a compressive strength greater than or equal to fck − 2, i.e. 23 N/mm² for M25 concrete. No cube strength is below the minimum permissible limit.
✅ Average Strength Check:
The overall average compressive strength of all samples is 29 N/mm² or higher, which satisfies the requirement of fck + 4 for acceptance of concrete under normal sampling conditions.
✅ Quality and Compliance Confirmation:
Since variation, individual strength, and average strength criteria are all satisfied, the concrete meets the strength acceptance requirements prescribed under IS practice for M25 grade.

Final Decision: ✅ CONCRETE ACCEPTED

One-Line Site Memory Rules

Single sample → Average ≥ fck + 4
Multiple samples → Each cube ≥ fck − 2
±15% variation is compulsory

Final Takeaway

Concrete cube testing is the backbone of quality control. Correct casting, curing, testing, and acceptance checks ensure strength, durability, and compliance with IS standards.

✅ Why Concrete is ACCEPTED

Uniform Strength: All cube test results lie within ±15% of their respective sample averages, indicating proper batching, mixing, compaction, and curing.
Sufficient Individual Strength: No cube strength is below fck − 2 (23 N/mm² for M25), ensuring minimum safety at the individual specimen level.
Adequate Average Strength: The overall average compressive strength is ≥ fck + 4 (29 N/mm²), satisfying IS acceptance requirements.
Statistical Reliability: Multiple samples provide confidence that at least 95% of concrete will achieve the characteristic strength.

❌ Why Concrete is REJECTED (When Failure Occurs)

One or more cube values fall outside ±15% of the sample average.
Any individual cube strength is less than fck − 2.
Average strength of the sample or overall concrete is less than fck + 4.
High variation indicates inconsistency in material quality, batching, compaction, or curing.

Concrete Cube Test – Exam Notes (IS 516)

Standard cube sizes: 150 mm & 100 mm
Minimum cubes per sample: 3
Manual compaction: 35 strokes per layer
Curing temperature: 27 ± 2°C
Loading rate: ~140 kg/cm²/min
Strength = Load ÷ Area
150 mm cube area = 225 cm²
Acceptance variation limit = ±15%

⬇ Compressive Strength of Concrete Cube Excel Sheet

Frequently Asked Questions (Concrete Cube Test)

Q1. Why is ±15% variation rule used in concrete testing?

The ±15% rule ensures uniformity and consistency of concrete. Even if the average strength is high, excessive variation indicates poor quality control, which can lead to unsafe structures.