Lab Coarse-Grained Soil Electric Compaction Apparatus

Lab Coarse-grained soil electric compaction apparatus

This equipment was developed in accordance with the requirements of the Chinese standard GB/T50123-2019 “Standard for Geotechnical Testing Methods” and the power industry standard DL/T5356-2006 “Test Procedures for Coarse Grained Soil in Hydropower Projects” issued by the National Development and Reform Commission of China. Based on the suggestions from the majority of users, our unit, through continuous research and updates by the technical department, has incorporated the advantages of domestic and foreign products and innovated on the basis of the chain-type transmission system. It adopts gear rotation to avoid the problems of hammer dropping and the hammer not being able to be lifted.

Product Introduction：

Voltage: 380V 50Hz
Motor power: 750w
The inner diameter of the compaction cylinder: φ300 × 288 mm
Shield tube: φ300 × height 100mm
Compaction function: 592.2; 2684.9 KJ/m³
Hammer weight: 15.5kg, 35.2kg
Bottom diameter of the hammer: φ150mm
Hammer height: 600mm ± 2mm
Automatic height tracking error: ≤ ±1%
Number of strikes per layer: 1 – 99 times
Overall dimensions: 770 × 550 × 1860 mm
Weight: 375 kg

Coarse-Grained Soil Electric Compaction Apparatus:

Coarse-grained soil vertical permeability apparatus:

Coarse-grained soil consolidation direct shear apparatus:

Soil Strain-controlled triaxial apparatus:

Packing：

Electric compactor for coarse-grained soils: an innovative approach to soil stabilization

In the field of civil engineering and construction, the stability and strength of the foundations beneath buildings are of vital importance. One of the most effective ways to enhance the properties of soil, especially coarse-grained soils, is through compaction. The advent of the electric compactor for coarse-grained soils marks a major advancement in this field, providing a modern solution to traditional compaction methods.

Understanding Coarse-Grained Soils

Coarse-grained soils, including gravel and sand, are characterized by larger particles and lower plasticity than fine-grained soils. These soils are often more suitable for construction due to their excellent drainage and load-bearing capacity. However, achieving optimal density and stability in coarse-grained soils can be challenging, especially in areas with high water content or where the soil has been disturbed.

The role of compression

Compaction is the process of compacting soil by reducing the voids between particles, thereby increasing the soil’s bearing capacity and stability. Traditional compaction methods, such as mechanical rollers and vibrating plates, have been widely used. However, these methods can be labor-intensive and time-consuming, and may not always achieve the desired results, especially in challenging soil conditions.

Electric Compactor

The Coarse-Grained Soil Electric Compactor represents a revolutionary approach to soil compaction. The instrument uses electrical energy to generate vibrations, effectively compacting the soil. Key benefits of this technology include:

1. High Efficiency**: Electric compactors are able to achieve higher levels of compaction in a shorter time than traditional methods. This efficiency is especially important in large construction projects where time is of the essence.

2. Precision**: The equipment controls compaction to ensure uniform density across the entire area. This precision minimizes the risk of weak points that could compromise the integrity of the structure.

3. Reduced Labor: With automated features, electric compaction equipment reduces the need for labor, saving costs and creating a safer working environment.

4. Environmental considerations**: Electric compaction is generally quieter and produces fewer emissions than diesel-powered machinery, making it a more environmentally friendly choice.

Application in Architecture

Coarse-grained soil electric compactors are particularly useful in a variety of construction applications, including:

Road Construction**: Ensuring a stable foundation for roads and highways is critical to the longevity and safety of the roads.
Foundation Preparation**: Provides a solid base for buildings, bridges and other structures, thereby enhancing their durability.
Landfill and Waste Management**: Compact soils in landfills to minimize settlement and maximize space efficiency.

in conclusion

The Electric Compactor for Coarse-Grained Soils is set to revolutionize the world of soil stabilization and construction. This innovative device uses electricity for efficient and precise compaction, addressing many of the challenges of traditional methods. As the construction industry continues to evolve, adopting advanced technologies like these will play a key role in making construction safer, more efficient, and more sustainable. With continued research and development, soil compaction technology has a bright future ahead of it, paving the way for stronger, more resilient infrastructure.