A gas turbine is a type of rotary combustion engine with continuous flow, generating the
driving power required for generators, compressors, or pumps.
Gas turbines are also used in aircraft jet engines to produce thrust, while their primary
industrial applications include power generation and the transmission of oil and gas in the
oil, gas, and petrochemical industries.

The main components of a gas turbine include:

  • Combustion chamber
  • Axial compressor
  • Axial compressor turbine
  • Power turbine

This company manufactures gas turbine components such as combustion chambers,blades and guide vanes, bearings, honeycomb seals, and consumable parts.

Combustion Chamber:

  • Used in: SIEMENS SGT-600 Gas Turbine
  • Turbine Power: 25 MW
  • Type: Annular
  • Material: Hastelloy X, Inconel, 253 MA
  • Production Methods: GTAW, Seam Welding, Vacuum Brazing
  • Coating: MCrAIY, TВС
  • Test: Air Flow & Calibration

Turbine Nozzel Guide Vane:

  • Used in: SIEMENS SGT-600 Gas Turbine
  • Material: Inconel
  • Production Methods: Investment Casting,
  • Machining, Heat Treating, Casting
  • Coating: Over Aluminized, MCrAIY
  • Test: Air Flow, RT, FPI

Combustion Chamber (Liner):

  • Used in: ZORYA DU-80 Gas
  • Turbine Turbine Power: 26 MW
  • Type: Can Annular
  • Material: Nimonic, Haynes
  • Production Methods: Spot Welding, GTAW, Investment Casting
  • Coating: EVK
  • Test: Air Flow & Calibratio

Turbine Vane 1:

  • Used in: Zorya DU80
  • Material: CM104
  • Coating: MCrAly, TВС
  • Coating methods: HVOF
  • Test: Same as Blade 1

Turbine Vane 2:

  • Used in:: Zorya DU80
  • Material: CM104
  • Coating: Aluminizing
  • Coating methods: Pack Cementation
  • Test: Same as Blade 1

Turbine Blade 1:

  •  Used in: Zorya DU80
  • Material: CM88Y
  • Coating: MCrAly, TBС
  • Coating methods: APS, HVOF
  • Test: Creep, FPI, RT, Teusile Test, High Temp

Teusile Microstructure(Grain size, prosity)
Hardness, Spertrometric, ICP

Turbine Blade 2:

  • Used in: Zorya DU80
  • Material: CM88Y
  • Coating: Aluminizing
  • Coating Methods: Pack Cementation
  • Test: Same as Blade 1

Turbine Blade:

  • Used in: SIEMENS SGT-600 Gas Turbine
  • Material: Inconel
  • Production Methods: Investment Casting, Machining, Heat Treating, Coating
  • Coating: Over Alminized, MCrAIY
  • Test: Air Flow, RT, FPI

Axial Compressor Blade:

  • Used in: Axial Compressor SIEMENS SGT-600
    Gas Turbine
  • Material: Titanium Alloy, Stainless Steel
  • Production Methods: Forging, Machining,
    Coating
  • Coating: Anti-Corrosion Surface Coating

Axial Compressor Vane:

  • Used in: Axial Compressor SIEMENS SGT600
    Gas Turbine
  • Material: Stainless Steel
  • Production Methods: Forging, Machining, Vacuum Brazing, Coating
  • Coating: CERAL

Segment Honeycomb:

  • Used in: SIEMENS SGT-600 Gas Turbine
  • Material: Hastelloy X
  • Production Methods: Investment Casting,
    Machining, Vacuum Brazing
  • Axial Compressor Vane:
  • Used in: Axial Compressor SIEMENS SGT-600
    Gas Turbine
  • Material: Stainless Steel
  • Production Methods: Forging, Machining,
    Vacuum Brazing, Coating
  • Coating: CERAL

Stator Ring:

  • Used in: SIEMENS SGT-600 Gas Turbine
  • Material: In 3501
  • Production Methods: Casting, Machining,
    Heat Treatment, Coating
  • Coating: Metco 307Ns, Veralit
  • Test: PT, FPI, RT, UT