IEC 60695-11-4 Figure A.1 Brass Burner designed to produce a 50 W pre-mixed methane test flame – KingPo
IEC 60695-11-4 50W Test Flame Burner featuring precision brass construction for standardized flame generation – KingPo
Burner Flame Test Equipment IEC 60695-11-4 Figure A.1 Calibration Certificate Burner IEC 60695
IEC 60695-11-4 Figure A.1 Burner method A General assembly
IEC 60695-11-4 Figure A.1 50W Test Flame Burner
IEC 60695-11-4 Figure A.1 Brass Burner designed to produce a 50 W pre-mixed methane test flame – KingPo
IEC 60695-11-4 50W Test Flame Burner featuring precision brass construction for standardized flame generation – KingPo
Burner Flame Test Equipment IEC 60695-11-4 Figure A.1 Calibration Certificate Burner IEC 60695
IEC 60695-11-4 Figure A.1 Burner method A General assembly
IEC 60695-11-4 Figure A.1 50W Test Flame Burner

IEC 60695-11-4 50W Test Flame Burner

The IEC 60695-11-4 50W Test Flame Burner is a precision brass burner designed to generate a standardized 50 W pre-mixed methane test flame. It is used for fire hazard testing of electrotechnical materials and components, with copper block calibration support for flame heat output verification.

  • Standards Support: Designed to support IEC 60695-11-4 Figure A.1 50 W test flame requirements
  • Burner Type: Brass Bunsen burner for pre-mixed methane flame
  • Burner Diameter: Φ9.5 mm ± 0.3 mm
  • Flame Type: 50 W nominal pre-mixed methane test flame
  • Flame Height: Approx. 20 mm, subject to calibration and test setup
  • Test Angles: 0°, 20°, 45° adjustable positioning
  • Calibration Support: Copper block method for heat output verification
  • Gas Control: Gas flow and pressure adjustment for stable flame generation
  • Material: Brass construction for durability and thermal stability
  • MOQ: 1 set
  • Delivery Time: 15 working days
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Burner Flame Test Equipment IEC 60695-11-4 Figure A.1 Description

Burner Flame Test Equipment IEC 60695-11-4 Figure A.1 for 50W Flame Fire Hazard Testing

The IEC 60695-11-4 50W Test Flame Burner is a key component used to produce a standardized 50 W pre-mixed methane test flame as specified in IEC 60695-11-4 Figure A.1. It is commonly used in fire hazard testing setups for evaluating the flammability performance of solid insulating materials and electrotechnical products.

The burner is manufactured from brass with a precise inner diameter of Φ9.5 mm ± 0.3 mm. It supports flame height adjustment and can be used with copper block calibration to verify flame heat output. This burner is suitable for various horizontal and vertical flame test configurations that require a controlled 50 W test flame.

Technical Parameters

Parameter Specification Remark or Notes
Applicable Standard IEC 60695-11-4 Figure A.1 50 W test flame apparatus
Product Type 50 W test flame burner Burner component / flame generation apparatus
Burner Material Brass Durable and thermally stable construction
Burner Diameter Φ9.5 mm ± 0.3 mm According to burner specification
Flame Type Pre-mixed methane flame 50 W nominal test flame
Flame Height Approx. 20 mm Subject to adjustment and verification
Test Angles 0°, 20°, 45° Adjustable flame application positions
Calibration Method Copper block with thermocouple For flame heat output verification
Gas Control Gas flow and pressure adjustment For stable flame output
Application Fire hazard testing of electrotechnical materials and components Used with applicable IEC 60695 test setups

  • IEC 60695-11-4 Figure A.1 50W Test Flame Burner

      IEC 60695-11-4 Figure A.1 50W Test Flame Burner

Professional Construction & Technical Precision

This 50W Test Flame Burner is precision-machined from brass to ensure consistent flame characteristics. The burner features an inner diameter of Φ9.5 mm ± 0.3 mm and is designed to produce a stable pre-mixed methane flame when used with appropriate gas flow control.

The burner supports adjustable positioning at 0°, 20°, and 45°, allowing flexible use in different test setups. It is compatible with copper block calibration methods to verify flame heat output under the specified calibration procedure.

Testing Principle

The burner generates a standardized 50 W pre-mixed methane test flame as defined in IEC 60695-11-4 Figure A.1. When connected to a suitable gas supply and ignition system, the burner produces a controlled flame that can be applied to test specimens in horizontal or vertical orientations.

Flame heat output can be verified using the copper block calibration method, where the temperature rise of a standardized copper block is measured to verify the flame heat output under the specified calibration procedure.

  • IEC 60695-11-4 Figure A.1 Burner method A General assembly
      IEC 60695-11-4 Figure A.1 Burner method A General assembly

Applications & Key Advantages

This burner is used in laboratory flame test setups requiring a standardized 50 W pre-mixed methane flame. It is suitable for fire hazard testing of electrotechnical materials, plastic components, insulating materials, and related IEC 60695 test configurations.

  • Precision brass construction with Φ9.5 mm ± 0.3 mm burner diameter
  • Supports copper block calibration for flame heat output verification
  • Adjustable positioning for 0°, 20°, and 45° flame application
  • Suitable for IEC 60695-11-4 Figure A.1 50 W test flame setups

Quality & Compliance Support

KingPo operates under ISO 9001, ISO 14001, and ISO 45001 certified management systems. Product-related CE, RoHS, PSE, SGS documentation, and test reports can be provided according to the applicable equipment configuration and customer requirements.

Compliance & Regulatory Assurance

This burner is designed to support the generation of a standardized 50 W pre-mixed methane test flame as specified in IEC 60695-11-4 Figure A.1. It helps laboratories and manufacturers establish consistent flame conditions for fire hazard testing of electrotechnical materials and components.

Calibration & Verification Support

  • Factory verification of burner dimensions and basic assembly condition is provided.
  • Regular inspection of the burner orifice and gas control components is recommended.
  • Third-party calibration support for associated copper block and temperature measurement systems can be discussed upon request.

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Technical Inquiry & Expert Support

KingPo offers IEC 60695-11-4 50W Test Flame Burners for standardized flame generation. Our engineering team can provide guidance on burner setup, gas control, and calibration procedures. For technical specifications or quotations, please contact us.

The Core Value We Deliver

  • Precision brass burner manufactured to IEC 60695-11-4 Figure A.1 specifications
  • Designed to generate a standardized 50 W pre-mixed methane test flame
  • Supports copper block calibration for flame heat output verification
  • Reliable and durable construction for laboratory use
  • Professional technical support for flame test applications
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IEC 60695-11-4 50W Test Flame Burner Detail Display

IEC 60695-11-4 50W Test Flame Burner FAQs

What is the IEC 60695-11-4 50W Test Flame Burner used for?
This burner is designed to generate a standardized 50 W pre-mixed methane test flame as specified in IEC 60695-11-4 Figure A.1. It is primarily used in fire hazard testing of solid insulating materials and electrotechnical components.
Why is the burner diameter specified as Φ9.5 mm ± 0.3 mm?
The inner diameter of the burner directly affects flame shape, stability, and heat output. The tight tolerance of ± 0.3 mm ensures consistent flame characteristics, which is critical for repeatable test results across different laboratories.
What is the difference between the 50W Test Flame Burner and the 1kW Test Flame Burner?
The 50W Test Flame Burner produces a smaller, lower-energy flame used mainly for material classification tests (such as UL 94 and IEC 60695-11-10). The 1kW Test Flame Burner generates a significantly larger and more intense flame, typically used for cable and larger component testing under IEC 60695-11-2.
Why is brass commonly used as the burner material?
Brass offers good thermal conductivity, corrosion resistance, and dimensional stability at high temperatures. These properties help maintain consistent flame performance over repeated use and reduce the risk of deformation.
How important is copper block calibration for this burner?
Copper block calibration is used to verify that the flame delivers the required heat output. Even with a correctly manufactured burner, variations in gas flow, pressure, or ambient conditions can affect flame performance. Regular calibration helps ensure test accuracy and reproducibility.
What gas is typically used with the 50W Test Flame Burner?
Methane is the standard gas specified in IEC 60695-11-4 for producing the 50 W pre-mixed test flame. Some laboratories may also use propane under controlled conditions, but methane is preferred for consistency with the standard.
What are common causes of unstable flame when using this burner?
Common issues include incorrect gas-air mixture ratio, blocked burner orifice, unstable gas pressure, improper burner positioning, and worn or damaged burner components. Regular maintenance and proper gas regulation help maintain flame stability.
How often should the burner be inspected or replaced?
The burner should be visually inspected before each test series. If the orifice shows signs of blockage, deformation, or inconsistent flame shape, it should be cleaned or replaced. Many laboratories replace the burner after a set number of tests or when calibration results become inconsistent.
Can this burner be used for both horizontal and vertical flame testing?
Yes. The burner supports adjustable positioning, typically at 0°, 20°, and 45°, making it suitable for both horizontal burning tests (such as UL 94 HB) and vertical burning tests (such as UL 94 V-0/V-1/V-2), depending on the test setup and fixtures used.
What should be considered when setting up this burner for testing?
Key considerations include correct gas type and pressure, proper flame height adjustment, accurate burner positioning, stable ambient conditions, and verification of flame heat output through copper block calibration before formal testing begins.

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