Some introduction to light Incubators

A versatile concentrator device for ultra-high-speed periodic sunlight exposure testing of test materials in a controlled, persistent environment, including: obtaining normal sunlight, sending VIS/NIR and reflecting UV/VIS to The uniform motion of the sample open plane is located close to the focal point of an aspect displayed in the exhibit hall, which means that both temperature and relative humidity are provided at the elevated level of up to 100 times that of normal sunlight, which allows the exposure of test materials to accelerated radiation . The illuminance opening takes into account the huge time frame of about 3 to 10 days, which can provide about a year of comparative seasons for the durability values of the tested materials.

The creation was associated with a cycle of exposing the material to an accelerated irradiance open factor that allowed continuous collection over a period of approximately 3 to 10 days representing approximately one year in a controlled persistent environment, including Temperatures may be relatively low at the same time or during unusually high normal daylight.

During the creation cycle, a sun-facing concentrator [possibly incorporating a High Flux Solar Furnace (HFSF) and an Irradiance Redistribution Guide (IRG)] is used to obtain higher levels (25-100 times) of concentration Light daylight to speed up testing of material samples. When using the IRG, it has the option to change (redistribute) the Gaussian-formed bars from the HFSF to a more uniform profile on the sample open plane.

Also included in the development cycle to obtain ultra-high-speed conventional solar openness testing is the use of smart devices such as multi-step and diversification concentrators, and refractive devices such as Fresnel focus concentrators, holographic , 2D or 3D micro focus exhibits, and various Fresnel focus features for higher concentrated daylight levels (25-100×) to speed up normal daylight testing of material samples.

This ingenious ability allows materials to be exposed to accelerated irradiance , so a year's representative persistence (regarding normal daylight opening) can be collected over a period of about 3 to about 10 days.

In a complex concentrator apparatus for ultra-high-speed normal daylight openness testing of test materials in a controlled persistent environment containing means for consistently concentrating the conversion of solar energy into concentrated homogeneous specular light , and the means for coordinating said concentrated homogeneous specular light onto the test material contained in the chamber has means for providing single or multiple simultaneous temperatures and relative opacities motion and imply a coordinated concentration of homogeneous specular light consisting of: multi-layer concentrators, including features where regular daylight appears, sending VIS/NIR and mirroring uniform transitions of UV/VIS to points at or near expressive features in the chamber An example of an open plane, meaning that at up to 100 times elevated altitude while providing temperature or potential relative humidity allows the test material to be exposed to regular sunlight at an accelerated irradiance open factor over a critical time frame of approximately 3 to 10 days , to provide a comparative season of approximately equivalent one-year representative persistence of the test material.