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GD-ISO5660
Gold
ISO 5660 cone calorimeter
Product Introduce
The Cone Calorimeter is an advanced fire testing equipment developed according to the ISO 5660 international standard, which is used to evaluate the combustion characteristics of materials in fire. It simulates different thermal radiation levels (25~75 kW/m²) to accurately measure the heat release rate (HRR), smoke generation rate, mass loss rate and toxic gas emissions (such as CO, CO2) of the material. The test objects include building materials, rail transit interiors, aerospace materials, ship decks, textiles, wires and cables, etc., and are widely used in construction, transportation, furniture and other fields. The instrument is equipped with a cone heater, automatic ignition system, gas analyzer and high-precision weighing sensor to ensure that the test results are accurate and reliable, in line with international standards such as ISO 5660-1:2015, and is an important tool for fire performance research and product certification.
Standard
ISO 5660-1:2015
Title: Reaction-to-fire tests — Heat release, smoke production and mass loss rate — Part 1: Heat release rate (cone calorimeter method) and smoke production rate (dynamic measurement)
Content: This part specifies the test method for measuring the heat release rate, smoke production rate and mass loss rate of materials at a specific thermal radiation level using a cone calorimeter. The test is based on the oxygen consumption principle (about 13.1 MJ/kg energy is released for every kg of oxygen burned).
Update: Compared with the 2002 version, the 2015 version adds smoke measurement (including requirements for CO and CO2 analyzers), methods for handling special specimens (such as materials that are overly curled, molten or less than 6mm thick), and differentiated provisions for instrument calibration.
Test product content
The ISO 5660 cone calorimeter test is applicable to a variety of materials and products. It is mainly used to evaluate their combustion behavior in fire and is widely used in construction, rail transit, aviation, ships, furniture, textiles and other fields. The scope of the tested products includes but is not limited to the following categories:
Building materials
Wood: solid wood, plywood, fiberboard, etc.
Plastics: PVC, polyurethane, polyethylene, etc.
Composites: glass fiber reinforced plastics, sandwich panels, etc.
Coatings and surface treatment materials: fire retardant coatings, decorative coatings.
Insulation materials: foam plastics, mineral wool, glass wool, etc.
Wall panels and floor materials: carpets, floor leather, laminate flooring, etc.
Requirements: The sample surface must be flat, the size is usually 100 mm × 100 mm, and the thickness is less than 50 mm; if the thickness is less than 6 mm, the actual substrate must be attached to achieve a thickness of 6 mm. A complete test requires 12 samples, which are tested at different radiation levels (25, 35, 50, 75 kW/m²), with 3 samples per level.
Rail transit materials
Interior materials: seats, floors, wall panels, ceilings, etc.
Wires and cables: insulation layer, sheath materials.
Application standards: such as EN 45545-2 (EU rail transit fire protection standard), using MARHE value to evaluate fire performance.
Aerospace materials
Aircraft interiors: seat fabrics, partitions, bulkhead materials, etc.
Standards: Meet FAA (Federal Aviation Administration) or AITM (Airbus) requirements, often used in combination with ASTM E1354.
Ship materials
Deck and cabin materials: meet IMO (International Maritime Organization) related standards.
Textiles and furniture
Textiles: curtains, carpets, fabric decorative materials, etc.
Furniture fillings: foam, filling fiber, etc.
Standards: such as GB/T 14645, NFPA 701, etc., tested in combination with ISO 5660.
Wires and cables and electronic products
Insulation materials: polymer materials used for wires and cables.
Standards: such as GB/T 18380, ECE R118 (automotive interior).
Other materials
Packaging materials: cardboard, foam plastics, etc.
Industrial materials: rubber, sealing materials, etc.
Special materials: Materials that are easy to melt, curl or shrink require special treatment (such as using wire mesh or aluminum pallet wrapping paper).
Main parameters:
1. Radiation cone: heating power 5kw, radiation intensity: 100kw/m2, equipped with three thermocouples to measure temperature.
2 Radiation shielding layer: made of non-combustible material, with a total thickness not exceeding 12mm;
3 Radiation control: The radiation control system can be properly adjusted to keep the temperature of the radiation cone thermocouple controlled at ±10℃ of the preset value;
4 Weighing equipment: imported high-precision electronic balance, weighing 500g, resolution 0.01g;
5 Sample mounting frame: made of stainless steel, a square open plate, the upper opening is 106mmx106mm, the depth is 25mm, and the thickness is 2.4mm;
6 Positioning frame: a square box made of 1.9mm thick stainless steel, the inner size of the square box is 111mm, the height is 54mm, and the opening for the test surface is 94mmx94mm
7 Exhaust system: composed of a centrifugal fan, a smoke hood, the air intake and exhaust pipes of the fan, and an orifice flowmeter
8 Gas sampling device: sampling pump, smoke filter, dehumidification cold trap, empty bypass coefficient, moisture filter, CO2 filter.
9 Ignitor: an electric spark igniter is used for external ignition.
10 Ignition timer: Apparent value resolution: 0.1s, Timing error: 1s/1N
11 Gas analyzer and key components are all imported.
12 02 analyzer (C0 is optional, cost is extra)
13 High-precision board, computer and 8.4-inch LCD display with 64, multiple communication interface options such as TCP/IP and RS-232
14 Oxygen measurement: Paramagnetic oxygen measurement
14.1 Measuring range: 0-25%
14.2 Certification: CE certification, EN 50081-1, EN50082-2
14.3 Power supply: 220VAC, 48~63Hz, 37W
14.4 Protection level: IP 20
14.5 Weight: about 13 kg
14.6 Sample gas pressure: using external reference gas, 800 ~ 1200hPa; using internal reference pump, air pressure ± 50hPa
14.7 Sample gas flow: 0.3 ~ 1 liter / minute
14.8 Sample gas temperature: 5 ~ 50 ℃
14.9 Sample gas humidity: <95% relative humidity
14.10 Warm-up time: 2 hours
14.11 Response time: 3.5 seconds
14.12 Decay time: 0 ~ 100 seconds adjustable
14.13 Dead time: about 0.5~2.5 seconds
14.14 Internal signal processing time: <1 second
14.15 Zero drift: <0.5% minimum range/month
14.16 Measurement value drift: <0.5% measurement range/month
14.17 Repeatability error: <1% measurement range/month
14.18 Linearity error: <1% measurement range/month
14.19 Output signal fluctuation: <±0.75% minimum range
14.10 Relay output: 6, 24V AC/DC, 1A, floating, freely selectable
14.21 Analog input: 2, 0/2/4~20mA, corrected for cross-interference
14.22 Binary input: 6, 24V, floating, freely selectable
14.23 Serial communication port: RS 485
14.24 Ambient temperature: operation, 5~45℃; storage and transportation, -30~+70℃
15 Carbon dioxide CO2 analyzer: Continuous measurement using NDIR non-dispersive infrared analyzer. (Optional, extra charge)
15.1 Measuring range: 0~10%;
15.2 Measuring accuracy: ±0.1%;
15.3 Response time: <6.5S;
15.4 Repeatability: <±1%
15.5 Zero drift: ≤2%/week
15.6 Range drift: ≤2%/week
15.7 Linear deviation: <±1%
16 Carbon monoxide CO analyzer: Continuous measurement using a non-dispersive infrared analyzer. (Optional, extra charge)
16.1 Measuring range: 0~5%;
16.2 Response time: <7.0S
16.3 Repeatability: <±1%
16.4 Zero drift: ≤2%/week
16.5 Range drift: ≤2%/week
16.6 Linear deviation: <±1%
17 The data acquisition system can collect and record test data such as oxygen concentration, carbon dioxide concentration, temperature, heat release rate, mass
loss rate, etc., and can be saved;
18 Computer: one.
19 Flue gas treatment system: adopts a powerful exhaust system. The machine is equipped with a powerful exhaust fan. When the test is completed, start the exhaust fan system to discharge the exhaust gas outdoors for purification to meet national emission standards.
ISO 5660 cone calorimeter
Product Introduce
The Cone Calorimeter is an advanced fire testing equipment developed according to the ISO 5660 international standard, which is used to evaluate the combustion characteristics of materials in fire. It simulates different thermal radiation levels (25~75 kW/m²) to accurately measure the heat release rate (HRR), smoke generation rate, mass loss rate and toxic gas emissions (such as CO, CO2) of the material. The test objects include building materials, rail transit interiors, aerospace materials, ship decks, textiles, wires and cables, etc., and are widely used in construction, transportation, furniture and other fields. The instrument is equipped with a cone heater, automatic ignition system, gas analyzer and high-precision weighing sensor to ensure that the test results are accurate and reliable, in line with international standards such as ISO 5660-1:2015, and is an important tool for fire performance research and product certification.
Standard
ISO 5660-1:2015
Title: Reaction-to-fire tests — Heat release, smoke production and mass loss rate — Part 1: Heat release rate (cone calorimeter method) and smoke production rate (dynamic measurement)
Content: This part specifies the test method for measuring the heat release rate, smoke production rate and mass loss rate of materials at a specific thermal radiation level using a cone calorimeter. The test is based on the oxygen consumption principle (about 13.1 MJ/kg energy is released for every kg of oxygen burned).
Update: Compared with the 2002 version, the 2015 version adds smoke measurement (including requirements for CO and CO2 analyzers), methods for handling special specimens (such as materials that are overly curled, molten or less than 6mm thick), and differentiated provisions for instrument calibration.
Test product content
The ISO 5660 cone calorimeter test is applicable to a variety of materials and products. It is mainly used to evaluate their combustion behavior in fire and is widely used in construction, rail transit, aviation, ships, furniture, textiles and other fields. The scope of the tested products includes but is not limited to the following categories:
Building materials
Wood: solid wood, plywood, fiberboard, etc.
Plastics: PVC, polyurethane, polyethylene, etc.
Composites: glass fiber reinforced plastics, sandwich panels, etc.
Coatings and surface treatment materials: fire retardant coatings, decorative coatings.
Insulation materials: foam plastics, mineral wool, glass wool, etc.
Wall panels and floor materials: carpets, floor leather, laminate flooring, etc.
Requirements: The sample surface must be flat, the size is usually 100 mm × 100 mm, and the thickness is less than 50 mm; if the thickness is less than 6 mm, the actual substrate must be attached to achieve a thickness of 6 mm. A complete test requires 12 samples, which are tested at different radiation levels (25, 35, 50, 75 kW/m²), with 3 samples per level.
Rail transit materials
Interior materials: seats, floors, wall panels, ceilings, etc.
Wires and cables: insulation layer, sheath materials.
Application standards: such as EN 45545-2 (EU rail transit fire protection standard), using MARHE value to evaluate fire performance.
Aerospace materials
Aircraft interiors: seat fabrics, partitions, bulkhead materials, etc.
Standards: Meet FAA (Federal Aviation Administration) or AITM (Airbus) requirements, often used in combination with ASTM E1354.
Ship materials
Deck and cabin materials: meet IMO (International Maritime Organization) related standards.
Textiles and furniture
Textiles: curtains, carpets, fabric decorative materials, etc.
Furniture fillings: foam, filling fiber, etc.
Standards: such as GB/T 14645, NFPA 701, etc., tested in combination with ISO 5660.
Wires and cables and electronic products
Insulation materials: polymer materials used for wires and cables.
Standards: such as GB/T 18380, ECE R118 (automotive interior).
Other materials
Packaging materials: cardboard, foam plastics, etc.
Industrial materials: rubber, sealing materials, etc.
Special materials: Materials that are easy to melt, curl or shrink require special treatment (such as using wire mesh or aluminum pallet wrapping paper).
Main parameters:
1. Radiation cone: heating power 5kw, radiation intensity: 100kw/m2, equipped with three thermocouples to measure temperature.
2 Radiation shielding layer: made of non-combustible material, with a total thickness not exceeding 12mm;
3 Radiation control: The radiation control system can be properly adjusted to keep the temperature of the radiation cone thermocouple controlled at ±10℃ of the preset value;
4 Weighing equipment: imported high-precision electronic balance, weighing 500g, resolution 0.01g;
5 Sample mounting frame: made of stainless steel, a square open plate, the upper opening is 106mmx106mm, the depth is 25mm, and the thickness is 2.4mm;
6 Positioning frame: a square box made of 1.9mm thick stainless steel, the inner size of the square box is 111mm, the height is 54mm, and the opening for the test surface is 94mmx94mm
7 Exhaust system: composed of a centrifugal fan, a smoke hood, the air intake and exhaust pipes of the fan, and an orifice flowmeter
8 Gas sampling device: sampling pump, smoke filter, dehumidification cold trap, empty bypass coefficient, moisture filter, CO2 filter.
9 Ignitor: an electric spark igniter is used for external ignition.
10 Ignition timer: Apparent value resolution: 0.1s, Timing error: 1s/1N
11 Gas analyzer and key components are all imported.
12 02 analyzer (C0 is optional, cost is extra)
13 High-precision board, computer and 8.4-inch LCD display with 64, multiple communication interface options such as TCP/IP and RS-232
14 Oxygen measurement: Paramagnetic oxygen measurement
14.1 Measuring range: 0-25%
14.2 Certification: CE certification, EN 50081-1, EN50082-2
14.3 Power supply: 220VAC, 48~63Hz, 37W
14.4 Protection level: IP 20
14.5 Weight: about 13 kg
14.6 Sample gas pressure: using external reference gas, 800 ~ 1200hPa; using internal reference pump, air pressure ± 50hPa
14.7 Sample gas flow: 0.3 ~ 1 liter / minute
14.8 Sample gas temperature: 5 ~ 50 ℃
14.9 Sample gas humidity: <95% relative humidity
14.10 Warm-up time: 2 hours
14.11 Response time: 3.5 seconds
14.12 Decay time: 0 ~ 100 seconds adjustable
14.13 Dead time: about 0.5~2.5 seconds
14.14 Internal signal processing time: <1 second
14.15 Zero drift: <0.5% minimum range/month
14.16 Measurement value drift: <0.5% measurement range/month
14.17 Repeatability error: <1% measurement range/month
14.18 Linearity error: <1% measurement range/month
14.19 Output signal fluctuation: <±0.75% minimum range
14.10 Relay output: 6, 24V AC/DC, 1A, floating, freely selectable
14.21 Analog input: 2, 0/2/4~20mA, corrected for cross-interference
14.22 Binary input: 6, 24V, floating, freely selectable
14.23 Serial communication port: RS 485
14.24 Ambient temperature: operation, 5~45℃; storage and transportation, -30~+70℃
15 Carbon dioxide CO2 analyzer: Continuous measurement using NDIR non-dispersive infrared analyzer. (Optional, extra charge)
15.1 Measuring range: 0~10%;
15.2 Measuring accuracy: ±0.1%;
15.3 Response time: <6.5S;
15.4 Repeatability: <±1%
15.5 Zero drift: ≤2%/week
15.6 Range drift: ≤2%/week
15.7 Linear deviation: <±1%
16 Carbon monoxide CO analyzer: Continuous measurement using a non-dispersive infrared analyzer. (Optional, extra charge)
16.1 Measuring range: 0~5%;
16.2 Response time: <7.0S
16.3 Repeatability: <±1%
16.4 Zero drift: ≤2%/week
16.5 Range drift: ≤2%/week
16.6 Linear deviation: <±1%
17 The data acquisition system can collect and record test data such as oxygen concentration, carbon dioxide concentration, temperature, heat release rate, mass
loss rate, etc., and can be saved;
18 Computer: one.
19 Flue gas treatment system: adopts a powerful exhaust system. The machine is equipped with a powerful exhaust fan. When the test is completed, start the exhaust fan system to discharge the exhaust gas outdoors for purification to meet national emission standards.
