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DZDR-P Flat Plate Thermal Conductivity Tester

Product ID:WLrd004

Price: Please inquire PDF Format
Supply Ability:50SETS/MON
Port:SHENZHEN
  • Product Introduction
  • Other information
  • Model NumberDZDR -P
    Brand NameNJDAZHAN
    Payment TermsTT,PAYPAL,Alibaba.com Pay
    DZDR-P Flat Plate Thermal Conductivity Tester
    Product Overview
    The DZDR-P Flat Plate Thermal Conductivity Tester is a high-precision instrument designed for measuring the thermal conductivity of insulation materials, construction materials, and composite structures. It is based on the guarded hot plate method, widely recognized as a standard technique for thermal resistance and heat transfer evaluation.
    The system uses a large-area solid copper heating plate to ensure highly uniform surface temperature distribution, improving measurement accuracy and repeatability. It features advanced temperature control, intelligent data processing, and automatic report generation, making it ideal for laboratory research, quality inspection, and industrial material testing.

     
    Key Features
        • Large-area copper plate ensures uniform surface temperature
        • High-precision temperature control system with fast stabilization
        • Dual hot and cold plate temperature control
        • LCD display for real-time temperature and heat flow visualization
        • Electric clamping system with adjustable pressure display
        • Automatic insulation door closure after sample positioning
        • Fully automated data acquisition and processing system
        • Real-time temperature curve display via computer interface
        • Built-in test report generation and printing system
        • High automation for efficient laboratory workflow
        • Stable and accurate measurement performance

     
    Working Principle
    The DZDR-P operates based on the steady-state flat plate heat conduction principle. A sample is placed between a heated plate and a cooled plate, creating a controlled temperature gradient.
    Heat flows through the sample from the hot plate to the cold plate. By measuring the steady-state temperature difference, heat flux, and sample geometry, the system calculates the thermal conductivity of the material.
    The use of a large-area copper heating plate ensures uniform temperature distribution, reducing edge effects and improving measurement accuracy. The system automatically collects data, processes results, and generates thermal conductivity reports.

     
    Technical Specifications
    Parameter Specification
    Model DZDR-P
    Test Method Flat Plate / Guarded Hot Plate Method
    Maximum Sample Size 300 × 300 × 50 mm
    Temperature Control Accuracy 0.05°C
    Temperature Resolution 0.01°C
    Hot Plate Maximum Temperature 80°C
    Cold Plate Minimum Temperature Room Temperature
    Thermal Conductivity Range 0.010 – 5.000 W/(m·K)
    Measurement Accuracy ±3%
    Power Supply AC 220V
     
    Typical Applications
    Building Materials Industry
        • Thermal insulation material testing
        • Wall and roofing material evaluation
        • Energy-efficient construction materials
    Polymer & Foam Materials
        • Foam insulation performance testing
        • Plastic thermal conductivity analysis
        • Composite material heat transfer studies
    Industrial R&D
        • New material thermal property development
        • Heat transfer optimization studies
        • Material performance comparison
    Energy Efficiency Testing
        • Thermal barrier material evaluation
        • HVAC insulation performance testing
        • Energy-saving product certification
    Academic Research
        • Heat transfer mechanism studies
        • Material thermophysical property research
        • Engineering material analysis

     
    DZDR-P vs Traditional Thermal Conductivity Methods
    Feature DZDR-P Flat Plate Tester Traditional Methods
    Measurement Method Guarded Hot Plate Less controlled methods
    Temperature Uniformity High (Copper plate design) Lower
    Temperature Accuracy 0.05°C Lower precision
    Automation Level Fully automatic Manual operation
    Data Processing Real-time + automatic report Manual calculation
    Sample Size Capacity 300 × 300 × 50 mm Limited
    Stability High Moderate
    Repeatability Excellent Variable
     
    FAQ
    1. What is the DZDR-P used for?
    It is used to measure the thermal conductivity of insulation, construction, polymer, and composite materials.
    2. What is the measurement range?
    The thermal conductivity range is 0.010 to 5.000 W/(m·K).
    3. What materials can be tested?
    It can test foam, plastics, building materials, composites, and other thermal insulation materials.
    4. How accurate is the system?
    The measurement accuracy is approximately ±3%, with temperature control accuracy of 0.05°C.
    5. Does it support automatic data processing?
    Yes. The system automatically collects data, processes results, and generates test reports.
    6. What is the maximum sample size?
    The maximum sample size is 300 × 300 × 50 mm.
    7. Is it suitable for laboratory use?
    Yes. It is widely used in laboratories, research institutes, and industrial quality control environments.

     
    Why Choose DZDR-P?
    The DZDR-P Flat Plate Thermal Conductivity Tester provides highly accurate, stable, and automated thermal conductivity measurements for a wide range of insulation and construction materials. With advanced temperature control, uniform copper plate heating, and intelligent data processing, it is an ideal solution for research, quality inspection, and energy efficiency evaluation applications.

     
     
     
     
  • FAQ
    1. What is the DZDR-P used for?
    It is used to measure the thermal conductivity of insulation, construction, polymer, and composite materials.
    2. What is the measurement range?
    The thermal conductivity range is 0.010 to 5.000 W/(m·K).
    3. What materials can be tested?
    It can test foam, plastics, building materials, composites, and other thermal insulation materials.
    4. How accurate is the system?
    The measurement accuracy is approximately ±3%, with temperature control accuracy of 0.05°C.
    5. Does it support automatic data processing?
    Yes. The system automatically collects data, processes results, and generates test reports.
    6. What is the maximum sample size?
    The maximum sample size is 300 × 300 × 50 mm.
    7. Is it suitable for laboratory use?
    Yes. It is widely used in laboratories, research institutes, and industrial quality control environments.
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