Projects
RADIATIVE, THERMAL AND OPTICAL PROPERTIES OF REAL BODY AT HIGH TEMPERATURES:Radiative, thermal and optical properties of real body at high temperatures A new non-contact method for the determination of the radiative, thermal and optical properties of real systems at high temperature is developed by ONCFEC, Inc. Our unique developed software allows us to offer the following service.
- By obtaining the customer data of the normal spectral emissivity of investigated materials, the customer will receive the following information about the radiative and thermal properties of their investigated materials:
- Normal total emissivity
- Total radiation power emitted per unit area
- Total radiation power emitted from the area A
- Total number of photons
- True temperature
- Thermodynamics of thermal radiation: Helmholtz free energy; Entropy; Enthalpy; Heat capacity; Internal energy; Pressure
- RGB images
- Luminous Flames: acetone, amyl acetate, coal-gas/air, benzene/air, nitrocellulose, benzene/NO, acetylene/air etc
- Metals: molybdenum, tantalum, tungsten etc.
- Ultra-High Temperature Ceramics: ZrB2-SiC based ultra-high temperature ceramics, hafnium carbide (HfC), titanium carbide (TiC), zirconium carbide (ZrC), silicon carbide (SiC), uranium (UC) and plutonium (PuC) carbides etc.
- Semiconductors: Microstructured silicon coated with Au film.
- Aerospace and Defense
- Nuclear
- Automotive
- Green Energy (solar, etc.)
- Metallurgy
- Furnaces
- Semiconductors
- Petro-Chemical
- Environmental
- Proposed software has been already applied for the following materials:
- Applications: