Concrete Impermeabilty Apparatus, Digimatic
NL 4022 X / 003

Standard: EN 12390-8, DIN 1048

Concrete Impermeability Apparatus

This updated version is designed to determine the depth of water penetration into concrete specimens (impermeability) under known time and pressure. The unit accommodates concrete cube, cylindrical, or prismatic specimens with dimensions up to 200 x 200 x 200 mm. The specimen is securely placed into the test chamber, clamped with suitable flanges with central screw and special circular gaskets.

The water pressure is controlled automatically via a touchscreen digital control panel, ensuring high precision and stable pressure regulation. The water penetration depth can be determined by breaking the specimens into two halves. The unit comes standard with 6 test chambers and is supplied with a built-in air pressure compressor and water tank.

Features of Digimatic Concrete Impermeability Apparatus

• Versatile Compatibility with various concrete specimen shapes and sizes, up to 200 x 200 x 200 mm.
• Quick Clamping System which facilitates easy and secure placement of specimens between chambers with special circular gaskets.
• A fully automatic digital control panel ensures fine and precise pressure control during testing.
• High-precision Pressure Transducer that enables accurate measurement and control of water pressure.
• Efficient Water Penetration Measurement by splitting the specimen into halves after testing.
• Comes with standard six test chambers for conducting multiple tests simultaneously.
• Integrated Air Pressure Compression.
• Supplied with Water Tank.

Standard: EN 12390-8, DIN 1048

• EN 12390-8

This standardized method is for evaluating the effectiveness of hardened concrete when it endures water pressure. The test involves subjecting concrete samples to controlled water pressure for a set duration and it evaluates how well they resist penetration. After exposure, the specimens are split open to measure the depth of water penetration. Ultimately. EN 12390-8 safeguards the structural integrity of concrete by providing assurance of its ability to withstand water challenges, thus upholding safety and performance standards in construction projects. 

• DIN 1048

This standard is a crucial procedure used to determine the water permeability of hardened concrete. Its primary objective is to assess how effectively concrete resists water penetration, a crucial factor in evaluating its durability for construction applications. The testing procedure achieves its goal by subjecting standardized concrete specimens to controlled water pressure, replicating real-world conditions like heavy rainfall or groundwater pressure. The duration of the test varies based on the concrete type and intended application, ensuring comprehensive evaluation. Following exposure to water pressure, engineers meticulously measure the rate of water permeability through the specimens. Lower permeability rates indicate better resistance, signifying higher durability and suitability for construction.  Ultimately, DIN 1048 ensures standardized testing methods to uphold quality and durability standards in concrete structures across construction projects.

Test Procedure of Concrete Impermeability Apparatus

1. Sample Preparation: Prepare the concrete specimens according to the standard procedures, ensuring they represent the material used in the structure. 
2. Conditioning: The samples are subjected to specific temperature and humidity conditions for a set period to ensure they reflect real-world scenarios.
3. Testing Setup: Set up the Concrete Impermeability Apparatus according to the manufacturer's instructions. Ensure that all connections are secure and that the apparatus is calibrated correctly. 
4. Sample Placement: Concrete samples are securely positioned within the apparatus, ensuring no leakage occurs during testing. 
5. Pressure Application: Pressure is applied to the samples using the apparatus. The pressure simulates the conditions the concrete would face in real-world applications, such as water pressure in a water-retaining structure. 
6. Digital Monitoring: Using advanced Digimatic technology, the apparatus digitally monitors and records permeability measurements, including pressure levels and flow rates.
7. Data Analysis: Analyse the data collected from the test to determine the permeability characteristics of the concrete. This analysis may involve comparing the results to established standards or specifications to assess the concrete's suitability for its intended application. 
8. Reporting: Test results, including equipment used and testing conditions, are documented for future reference and comparison. 
9. Quality Assurance: Perform any necessary quality control checks on the test to ensure test accuracy and reliability, which may involve repeating tests or conducting additional analyses as needed. 
10. Interpretation: Results are interpreted within the context of project requirements, guiding decisions on concrete suitability and potential areas for improvement in construction practices or concrete mixes.

Technical Specifications:

Unit Consists Of: 

Optional Accessories: 

How to Operate Video of Concrete Impermeability Apparatus