Temperature Humidity Test Chamber
Temperature Humidity Chamber simulates a variety of temperatures and humidity conditions to test various products and components. It can perform basic thermal cycling tests or accelerated stress testing. There are 6 models to choose from and test cabinets ranging in size from 80L up to 1000L. Customized sizes are also available.
Imported temperature controllers regulate temperature and humidity in the temperature humidity test chambers. You can set many parameters with programmable controllers. A digital display of temperature and humidity is available. The operation of the constant-temperature test chamber is also easy.
An industrial programmable controller controls the equipment and accurately measures the temperature and humidity. It adjusts the humidity level in the chamber and processes the data to produce the printed results. It can measure humidity continuously and repeatedly with high accuracy and control.
It can be used for product testing in scientific research units like aerospace, metrology, and petrochemical industries, pharmaceutical engineering, agricultural research, and life science.
Features of the Temperature Humidity Test Chamber
Japanese and German refrigeration technology introduced, Energy Savings of 20%.
Simple operation, available for both fixed-value and programmable tests.
You can customize your design or use the various options available to meet your test needs.
RS485/RJ45 communications are available for remote control.
Use an interior light and a fog-free observation window to see the product being tested.
How a Temperature Humidity Chamber Works?
The main components are the mechanisms that bring moisture and heat into a humidity chamber. You can use a spray, bath, or other methods to add moisture to the chamber. Similar principles apply to heat that is supplied by heating elements or coils.
Most humidity chambers can be designed, manufactured, and customized to meet the customer’s requirements. There are many humidity chambers available, but the essential components of heat and water are required to create the desired humid conditions.
Temperature and humidity are the two main factors that impact the stability of a product. Manufacturers test the effect of humidity on their products because humidity fluctuations can cause expansion and contraction. Three main methods of creating artificial humidity include steam generators and atomizers.
Immersion heaters heat the water in steam generators. The steam is created by a water tank and rises to the top of a chamber where heaters create humidity. The heat produced by steam generator chambers can range from 300 to 1300 degrees C using CNC-programmed control panels. A steam generator humidity chamber has the main advantages of producing high volumes of moisture and water vapor with consistent quality.
Atomizer Test Chambers
The spray nozzle sprays atomized water into test chambers. This creates moisture and humidity. The chamber heater heats the water to create humidity. An atomizer test chamber’s operation is straightforward to understand. It can generate large volumes of moisture.
How to choose a Temperature humidity chamber
Many factors go into deciding to conduct in-house testing. These include company size, product types, quality control, and cost. Many other factors must be considered once the purchase of a test chamber is made. For larger companies that have specific goals, the choice of a test chamber should be based on scientific research and the needs of their clients. Companies grow and expand. They discover that their customers are better served if they do thorough research about their products.
Weaknesses Temperature Humidity chambers Test
Humidity chambers are used to find weaknesses and flaws within tested items to be fixed. The humidity chambers quickly reveal the most vulnerable areas and provide a prediction about their viability. These tests test the product’s viability and determine its parameters.
Weaknesses That Humidity Chambers Identify
Coatings are used to protect products from adverse atmospheric conditions. The humidity chambers are designed to place coated products under extreme conditions. These tests can result in cracking, expansion, contraction, and moisture ingress.
Tests for moisture seepage are done on sealed units with a viewport, window, or windshield. These products are subject to rapid temperature changes, so they are usually put through tests that quickly raise or lower the temperature. Fog indicates poor quality and potential failure of the product.
Temperature and moisture are the most dangerous atmospheric conditions. It is tested for moisture and temperature to ensure the product is resistant to water ingress. Leakage, water droplets, and collecting are the most common failures found during testing.
As a product passes through different climate conditions, the atmosphere can put a lot of stress. Humidity chambers may create conditions that could cause a product’s mechanism. Manufacturers are concerned primarily with the testing of mechanical components and their correct function, particularly in the case of microcircuitry.
A humidity chamber examines the product’s reaction to humidity. Depending on the product, testing can be done in either a static or dynamic condition.
Most humidity chambers are custom-designed, manufactured, and installed to meet the customer’s requirements. Industries use humidity chambers to assess the effects of various weather conditions on the physical and chemical properties of parts and assemblies.
Humidity chambers have been constructed from durable materials and can provide reliable information about the various factors that could cause product failure.