ZT0010 Thermal Conductivity of Building Materials School Training Bench School Laboratory Equipment Educational Thermal Training Equipment1. Introduction to the equipment
1.1 Overview
Thermal insulation in building planning is a branch of building physics that uses appropriate measures (such as component design) to achieve a comfortable indoor climate all year round while consuming little energy. This is achieved by using building materials with high thermal resistance and low thermal radiation transmission. All samples are of the same size and are placed between a heating plate and a water-cooled plate. A clamping device ensures repeatable contact pressure and thermal contact.
The hot plate is heated by an electric heating pad and the cold plate is cooled by water. Sensors measure the temperature at the inlet and outlet of the cooling water and in the center of the two plates. The temperature of the hot plate above the sample and the cold plate below the sample is set by the provided software. The temperature control system ensures constant temperature. The heat flux between the hot plate and the cold plate passes through the sample and is measured by a dedicated heat flux density sensor. The entire housing (including the cover) is insulated to ensure constant environmental conditions. The measured values are transferred directly to the PC via USB and can then be analyzed using the included software.
1.2 Features
(1) The ZT0010 experimental platform is equipped with building materials with different properties to compare and study thermal conductivity.
(2) The test bench is equipped with a temperature control system to ensure constant temperature during the experiment.
(3) The test bench is equipped with a sample fixture to ensure that the same experimental conditions are provided for different experimental samples.
(4) The shell of the test bench is insulated as a whole to avoid the influence of external temperature differences on the test results.
(5) Various physical quantity data during the workbench experiment can also be transmitted to a PC through a USB interface for further processing (the computer must be provided by yourself).
2. Technical parameters
Input power: single-phase 230V, 50Hz
Dimensions:1130mmx630mmx810mm
Weight:85KG
3. Component list and detailed introduction
3.1 Main part
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No.
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Name
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1
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Housing
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2
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Handle
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3
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Compression knob
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4
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Screw
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5
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Plexiglas door
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6
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Heating plate
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7
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Aluminum plate
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8
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Copper plate
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9
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Water tank
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10
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Connecting cable
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11
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Cooling water inlet
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12
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Cooling water outlet
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3.2 Power box part
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No.
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Name
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1
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Power indicator light
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2
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Heater switch
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3
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Heating indicator light
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4
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Thermostat
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5
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USB port
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6
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Casing
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7
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Heat vent
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8
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Connecting cable
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9
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Main power supply
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4. Experiment list
Experiment 1: Thermal conductivity test of acrylic board
Experiment 2: Thermal conductivity test of cork board
Experiment 3: Thermal conductivity test of particle board
Experiment 4: Thermal conductivity test of plexiglass (PMMA)
Experiment 5: Thermal conductivity test of expanded polystyrene
Experiment 6: Thermal conductivity test of Armaflex
Experiment 7: Thermal conductivity test of granular material frame (granular tray)
Experiment 8: Thermal conductivity test of gypsum board
