A Humidity Chamber (E-Version) is used to simulate various humidity conditions that materials, components, or products might experience in real-world environments. This chamber typically consists of a sealed enclosure with precise humidity control mechanisms. The "E-Version" likely refers to an electronic version, indicating that the chamber's operation and control are primarily electronic, often automated through sensors and controllers. These chambers are commonly employed in industries such as construction, materials testing, electronics manufacturing, and pharmaceuticals, where the effects of humidity on materials and products need to be understood or simulated accurately. Basic type humidity chamber speciality designed for construction material such as concrete, cement, mortar and etc. for accelerated curing test.
Features of Humidity Chamber (E-Version)
- Precise Humidity Control with a specified range, often adjustable to stimulate different environmental conditions.
- Electric control panels for setting and monitoring humidity and temperature.
- Temperature control capabilities allowing users to stimulate a wide range of environmental conditions.
- Fully Stainless Steel Inner Chamber.
- Portable Humidifier.
- Healing element and Air Compressor connected with digimatic control unit.
Standard: EN 196-1,EN 12390-2,EN 12390-9
This standard specifies the methods for testing cement. It covers procedures for determining various properties of cement, including fineness, consistency, setting time, and compressive strength. EN 196-1 provides detailed instructions for conducting these tests in a laboratory setting to ensure consistent and reliable results.
EN 12390-2 focuses on a critical aspect of concrete strength. This standard provides a roadmap for assessing how much force concrete can withstand before breaking. This information is vital for determining whether the concrete is suitable for its intended use in construction projects. EN 12390-2 offers detailed instructions on how to properly prepare and test concrete samples to accurately measure their compressive strength. It covers various aspects, including the selection of appropriate testing equipment and the configuration of specimens for testing. In essence, EN 12390-2 serves as a comprehensive guide for evaluating the durability and performance of concrete in real-world applications.
EN 12390-9 is all about figuring out how heavy concrete is once it's set. This standard lays out the steps for testing the density of hardened concrete, which is crucial because it affects how strong and durable the concrete will be in real-world applications. EN 12390-9 gives specific instructions on different methods for measuring density, like dunking samples in water or comparing them to the air. By following these procedures in the lab, testers can get accurate measurements of concrete density, helping ensure that the material meets the necessary standards for strength and durability. In essence, EN 12390-9 provides a roadmap for understanding one of the key properties that determine how well concrete performs in construction projects.
Test Procedure
- Preparation: Set up the chamber and calibrate sensors.
- Sample Preparation: Prepare test samples as required.
- Parameter Setting: Use the control panel to set humidity and temperature levels.
- Initiate Test: Start the test and monitor conditions.
- Data Recording: Record humidity, temperature, and observations at intervals.
- End Test: Stop the test when complete.
- Analysis: Evaluate results against standards.
- Maintenance: Clean and maintain the chamber.
Technical Specifications:
