Описание

Тестер теплопередачи стекла DRC-II

Обзор:

The instrument is designed and manufactured according to GB/T 10295-2008 (Determination of steady-state thermal resistance and related properties of thermal insulation materials – heat flux meter method) стандартный. The measurement and control are controlled by computer to realize the automatic measurement of the instrument.

The instrument is mainly used to test the heat transfer coefficient U (К) value of insulating glass, and can also be used to test the thermal conductivity of other thermal insulation materials.

Тестер теплопередачи стекла DRC-II

Основные технические индикаторы:

1, heat transfer coefficient U (К) value range: 0.5-20W/m2K, точность теста: < 5%.

2, диапазон теплопроводности: 0.005-0.2W/mk, точность теста: < 5%.

3, размер образца: greater than or equal to 600mm×600mm× (5-50) мм.

4, Диапазон температур горячей поверхности: room temperature +10℃ – 90℃.

5, Диапазон температур холодной поверхности: 5℃ – 60℃.

6, pressure control: 0-1000 (Н).

7, computer automatic test control.

8, Приборная питания: 220В/50 Гц, power consumption is less than 2KW.

Тестер теплопередачи стекла DRC-II

Принцип работы:

Under steady state conditions, in a uniform specimen with parallel surfaces, a one-dimensional uniform heat flux similar to that existing in an infinite plate bounded by two parallel planes with uniform temperature is established. The heat transfer coefficient and thermal conductivity of the sample can be calculated by measuring the temperature and heat flux of the hot and cold surface.

The equipment is composed of cold plate assembly, electric pressure device, hot plate assembly (including calorimetric heat, inner protection heat, outer protection heat part), data acquisition control system and computer measurement and control system. The sample is placed between the hot and cold plates, the sample is pressed by an electric pressurizing device, the cold plate constant temperature system and the hot plate temperature control system provide a stable temperature difference between the two sides of the sample, the heat flux meter on the calorimeter measures the heat flux density through the sample, and then calculates the heat transfer coefficient and thermal conductivity of the sample.