Thermal Protective Performance Tester (TPP)

About Thermal Protective Performance Tester (TPP)

The Thermal Protective Performance Tester (TPP) is designed to evaluate the thermal insulation and burn-injury protection capability of flame-retardant fabrics used in firefighter suits, protective gloves, workwear, and industrial safety clothing. By exposing specimens to controlled radiant and/or convective heat, the instrument measures the heat energy transferred through the fabric and determines the time to second-degree burn based on the Stoll curve. This provides a highly accurate and scientific assessment of thermal protection performance for PPE material development, certification, and quality control.

Application:

The thermal protection performance (TPP) tester is mainly used to test the thermal insulation properties of horizontally placed flame retardant protective clothing fabrics exposed to radiant and convective heat sources.measuring the resulting damage to human skin.

Standards

(1) BS EN ISO 6942 Protective clothing Protection against heat and flame Method of test for the determination of heat transfer on exposure to a heat source

(2) EN 366 Protective clothing against heat and flame Resistance of materials to contact heat

(3) EN 407 Protective gloves against thermal risks (heat and/or fire)

(4) ISO 11612 Protective clothing Clothing to protect against heat and flame

(5) ASTM F1939 Standard Test Method for Evaluation of Thermal Protective Performance of Materials for Clothing

(6) ASTM F2702 Standard Test Method for Heat Transfer and Thermal Protective Performance of Flame Resistant Clothing Materials Using a Thermal Protective Performance Tester

(7) NFPA 1971 Standard on Protective Ensembles for Structural Fire Fighting and Proximity Fire Fighting

(8) NFPA 2112 Standard on Flame-Resistant Garments for Protection of Industrial Personnel Against Flash Fire

(9) GB 38543 Technical Specification for Fire Protection of Workwear for Industrial Personnel

(10) GB/T 38306 Test Method for Thermal Protective Performance of Flame Retardant Protective Clothing

Principle

Under exposure to a specified heat flux, the time to second-degree burns is derived from the intersection point of the response curve (temperature rise curve of the calorimetric sensor) and the human tissue tolerance curve (Stoll curve). The higher the product of the heat flux level and the time to second-degree burns, the stronger the thermal protective performance of the fabric.

Feature

Standard calorimeter mounting block.

PLC control system provides stable and fast testing performance.

Analysis software with user friendly interface is easy to use and installed Stoll curve model internally.

Compact structure design reduces the requirements of fume hood.

Evaluates the potential for skin burns associated with a fabrics ability to block convective and

radiant heat penetration

Automatic test operation provides repeatable and precise results

Independently controlled radiant heat source and convective heat source

Supports up to three copper disk calorimeter sensor assemblies

Integrated air-cooled sensor stand quickly prepares calorimeter sensor for next test

Water-cooled shutter is pneumatically actuated for precise exposure control

Automatically predicts time to second degree burn, with results shown as a real-time numerical and graphical display of sample performance compared to the Empirical Performance Curve

Small and portable, the TPP test device fits in most standard fume hood

Technical Parameters

Accessories:

1.Standard accessories

1pcASTM F2703 Dedicated Copper Calorimeter (for testing)

1pcASTM F2703 Dedicated Copper Calorimeter (for calibration)

1pcPower Line

2.Optional accessories:

OptionalSchmidt-Boelter 100 kW/m Standard Heat Flux Meter Calibration Kit (Meter + External Display)

OptionalChiller Unit

Test Procedures

Sample Conditioning: Cut specimens according to standard requirements and pre-treat them under specified conditions (e.g., drying at 105C).

Specimen Mounting: Secure the specimen in a 45-degree fixture, ensuring the surface is flat and wrinkle-free.

Thread Ignition Cord: Install marked cotton cord at the designated position on the specimen and attach the timing weight or sensor.

Flame Adjustment: Ignite the butane gas and precisely adjust the flame height to 16mm using the scale.

Ignition Initiation: Press the start button; the ignition burner automatically moves toward the specimen and ignites it (typically retracting after 1 second).

Data Reading: When the sample burns to the marked line and melts the cotton thread, the timer automatically stops. Record the displayed spread time.

Maintenance Information

Timely Carbon Removal: After each test, promptly clean carbon deposits and combustion residues from the burner and sample holder to prevent gas line blockage.

Gas Line Sealing: Periodically inspect gas source connection hoses with soapy water to ensure no gas leaks.

Sensor Cleaning: Maintain cleanliness of the flame-detection device to prevent ash ingress causing timing failure.

Environmental Ventilation: Conduct tests within a fume hood. Activate exhaust systems post-test to remove hazardous fumes.