Walk-In & Drive-In Environmental Test Chambers

Weiss Technik’s Walk-In Drive-In environmental test chambers deliver comprehensive testing solutions in extensive size configurations, ranging from pre-engineered standard models to fully customized systems designed for large-scale testing applications across diverse industries. Our high-performance Panelized and Welded walk-in environmental chambers feature precision-engineered systems with extensive customization capabilities to meet the most demanding testing requirements.

Chambers Equipped with Industry-Leading Environmental Testing Technology

Our breakthrough LEEF™ and Low Global Warming Potential (GWP) technologies achieve up to 40% energy savings while utilizing R-449A refrigerants to ensure compliance with EPA American Innovation and Manufacturing (AIM) Act requirements for hydrofluorocarbon (HFC) reduction. This future-proof design combines environmental sustainability with superior performance, offering customizable environmental testing for a variety of applications. Learn more.

Walk-In Drive-In Test Chamber Capabilities

  • Compound environmental testing allows users to combine test conditions such as temperature, humidity, vibration and solar simulation to meet comprehensive performance testing requirements for complex applications
  • Custom-engineered solutions tailored to your unique test requirements
  • Customization options include specialized access ports, heavy floor loading, variable wall thickness, noise reduction packages, multiple doors configurations, observation windows, comprehensive safety options, LN2 boost and more.
  • Proprietary patented airflow designs for uniform temperature distribution and optimal test conditions
  • Advanced WebSeason Controller Interface for precise real-time monitoring and control
  • Superior temperature gradient accuracy

What is a Walk-In and Drive-In test chamber?

A Walk-In environmental test chamber is an insulated panelized or welded system that can be configured to multiple sizes for storing products in specific environmental conditions and also for product reliability and validation testing. Walk-in test chambers can be designed with foam panels that lock together to create various box sizes or fully welded versions depending on the simulated environment and performance conditions that need to be simulated.

Drive-In test chambers utilized the same types of box construction and are used to test full-size vehicles from motorcycles to automobiles to full-size trucks. Multiple conditions may be simulated in a walk-in or drive-in environmental test chamber depending on the test requirements. These may include temperature, humidity, vibration, altitude, solar, salt spray, and more in order to test products in multiple environments that they may be exposed to during the life of the product.

What temperature and humidity ranges can walk-in/drive-in chambers achieve?

Walk-in and drive-in chambers typically operate from -70°C to +180°C (-94°F to +356°F), or up to +85°C for panelized chambers, with humidity control from 20% to 95% RH. The specific range depends on chamber size, configuration, and application requirements. Weiss Technik chambers utilize advanced refrigeration systems and precise control technology to maintain tight tolerances across the entire testing volume.

What industries use walk-in and drive-in environmental test chambers?

Key industries include aerospace for aircraft component testing, automotive for full vehicle climate testing, defense for military equipment qualification, telecommunications infrastructure testing, pharmaceuticals for stability testing, electronics, and research institutions. Drive-in chambers for full vehicle testing are particularly valuable for automotive and defense industries.

What environmental conditions can walk-in and drive-in test chambers simulate?

Walk-in and drive-in environmental test chambers simulate comprehensive real-world conditions including extreme temperatures, humidity levels, and combined environmental stress testing with simultaneous temperature/humidity cycling, thermal shock, solar radiation simulation, vibration integration, altitude simulation, and specialized atmospheric conditions. These systems also integrate with other systems such as vibration shakers and dynamometers.