High-Temperature Solutions
Advanced materials combined with Vectoflow’s additive manufacturing approach enable fully application-specific designs – capable of withstanding extreme mechanical and thermal loads up to 1600 °C.
Applications
Our high-temperature solutions are designed for applications where conventional materials reach their limits. Leveraging advanced alloys, ceramics and additive manufacturing, we achieve an exceptional level of design freedom — from customized geometries and material concepts to functionally integrated features such as internal cooling channels. This enables fully application-specific solutions for operation at temperatures of up to 1600 °C.
Typical applications include:
- Turbines
- Jet engines
- Combustion chambers
- Process industry environments (chemical and high-temperature industrial processes)
- Aerospace Systems
High Temperature Materials
316L Stainless Steel
Cost-effective stainless-steel for robust and precise components
- Max. temperature: ~500°C
- Strength: ~600 MPa @ RT
- High corrosion resistance and toughness
- Cost-effective for prototyping and production with high printing resolution
- Ideal for complex geometries and structural components
Ideal for:
Aviation, automotive applications, wind-tunnel components, functional prototypes
Inconel 718
High-strength solution for medium-high temperatures
- Max. temperature: ~700 °C
- Strength: ~1300 MPa @ RT
- Nickel-Chromium alloy
- Excellent balance of strength, fatigue resistance & cost-efficiency
- Superior strength vs. Inconel 625 at medium-high temperatures
Ideal for:
Turbine components, jet engine parts
Inconel 625
- Max. temperature: ~900-1000 °C
- Strength: 900MPa @ RT
- Higher corrosion resistance than In 718
- Available upon request
Ideal for:
Turbine components, jet engine parts
Cobalt-Chromium
- Max. temperature: up to ~1000 °C
- Available upon request
Nickel-Cobalt-Chromium Oxide Dispersion Strengthened (ODS) Alloy
Next-generation material for extreme performance
- Max. temperature: ~1100 °C
- Strength: ~900 MPa @ RT
- Oxide Dispersion Strengthened (ODS) Ni-Co-Cr alloy
- Up to 1000× fatigue life vs. Inconel 718
- Superior oxidation resistance above 1000 °C
- Available upon request
Ideal for:
Advanced turbine blades, combustion chambers, next-gen aerospace systems
Silicon Nitride Ceramic
High-precision ceramic for extreme thermal loads
- Max. temperature: ~1400 °C
- Strength: ~500 MPa
- Excellent thermal shock resistance
- Low oxidation behavior
- Excellent printing resolution
- Enables cooled vane integration
- Available upon request
- Maintains high strength even at temperatures up to 1400 °C
Ideal for:
Advanced turbine vanes, extreme thermal applications, precision ceramic parts
Platinum–Rhodium
Extreme high-temperature durability
- Max. temperature: up to ~1600 °C
- Strength: ~500 MPa @ RT
- Exceptional oxidation & corrosion resistance
- High creep resistance and dimensional stability
- Very long service life
- Available upon request
Ideal for:
Ultra-high-temperature environments and long-life components
Selection of our high-temperature materials. Further material options are available.
CONTACT US
Not sure which material fits your application?
Our experts are happy to advise you and help identify the optimal material for your specific requirements —with no obligation.
Additive Manufacturing at Vectoflow
Additive manufacturing is at the heart of Vectoflow’s probe technology. Using advanced 3D-printing processes, we create lightweight yet extremely robust probes with geometries that conventional manufacturing cannot achieve. Complex internal channels, compact multi-sensor designs, and fully integrated features enable reliable flow measurement even under the most demanding aerodynamic and thermal conditions.
All Under One Roof.
Our in-house facilities in Gilching (Germany) allow us to move seamlessly from concept to finished probe – combining design, production, and calibration under one roof. The result: tailor-made flow measurement solutions that deliver accuracy, durability, and unmatched flexibility for every application.
Fully customizable. Down to the smallest detail.
Materials
- Stainless Steel
- Inconel 718
- Inconel 625
- Polyimides
- Aluminium
Ultra Lightweight Materials
- Titanium
- Scalmalloy® Aluminium
High-Temperature Materials
- GRX-810
- Cobalt-Chromium
- Platinum–Rhodium
- Silicon Nitride Ceramic
Geometry
- Probe geometry (straight, Cobra, L-shaped)
- Head geometry
- Length & diameter
- Mounting features
From miniaturized designs designs to custom rakes and integrated parts.
Functionality
- Embedded sensors & electronics
- Integrated cooling structures (high-temperature applications)
- Custom calibration ranges (AoA & sideslip)
- Combined pressure & temperature measurement
High-Temperature Solutions
Advanced materials combined with Vectoflow’s additive manufacturing approach enable fully application-specific designs – capable of withstanding extreme mechanical and thermal loads up to 1600 °C.
Applications
Our high-temperature solutions are designed for applications where conventional materials reach their limits. Leveraging advanced alloys, ceramics and additive manufacturing, we achieve an exceptional level of design freedom — from customized geometries and material concepts to functionally integrated features such as internal cooling channels. This enables fully application-specific solutions for operation at temperatures of up to 1600 °C.
Typical applications include:
- Turbines
- Jet engines
- Combustion chambers
- Process industry environments (chemical and high-temperature industrial processes)
- Aerospace Systems
High Temperature Materials
316L Stainless Steel
Cost-effective stainless-steel for robust and precise components
- Max. temperature: ~500°C
- Strength: ~600 MPa @ RT
- High corrosion resistance and toughness
- Cost-effective for prototyping and production with high printing resolution
- Ideal for complex geometries and structural components
Ideal for:
Aviation, automotive applications, wind-tunnel components, functional prototypes
Inconel 718
High-strength solution for medium-high temperatures
- Max. temperature: ~700 °C
- Strength: ~1300 MPa @ RT
- Nickel-Chromium alloy
- Excellent balance of strength, fatigue resistance & cost-efficiency
- Superior strength vs. Inconel 625 at medium-high temperatures
Ideal for:
Turbine components, jet engine parts
Inconel 625
- Max. temperature: ~900-1000 °C
- Strength: 900MPa @ RT
- Higher corrosion resistance than In 718
- Available upon request
Ideal for:
Turbine components, jet engine parts
Cobalt-Chromium
- Max. temperature: up to ~1000 °C
- Available upon request
Nickel-Cobalt-Chromium Oxide Dispersion Strengthened (ODS) Alloy
Next-generation material for extreme performance
- Max. temperature: ~1100 °C
- Strength: ~900 MPa @ RT
- Oxide Dispersion Strengthened (ODS) Ni-Co-Cr alloy
- Up to 1000× fatigue life vs. Inconel 718
- Superior oxidation resistance above 1000 °C
- Available upon request
Ideal for:
Advanced turbine blades, combustion chambers, next-gen aerospace systems
Silicon Nitride Ceramic
High-precision ceramic for extreme thermal loads
- Max. temperature: ~1400 °C
- Strength: ~500 MPa
- Excellent thermal shock resistance
- Low oxidation behavior
- Excellent printing resolution
- Enables cooled vane integration
- Available upon request
- Maintains high strength even at temperatures up to 1400 °C
Ideal for:
Advanced turbine vanes, extreme thermal applications, precision ceramic parts
Extreme high-temperature durability
- Max. temperature: up to ~1600 °C
- Strength: ~500 MPa @ RT
- Exceptional oxidation & corrosion resistance
- High creep resistance and dimensional stability
- Very long service life
- Available upon request
Ideal for:
Ultra-high-temperature environments and long-life components
Selection of our high-temperature materials. Further material options are available.
CONTACT US
Not sure which material fits your application?
Our experts are happy to advise you and help identify the optimal material for your specific requirements —with no obligation.
Additive Manufacturing at Vectoflow
Additive manufacturing is at the heart of Vectoflow’s probe technology. Using advanced 3D-printing processes, we create lightweight yet extremely robust probes with geometries that conventional manufacturing cannot achieve. Complex internal channels, compact multi-sensor designs, and fully integrated features enable reliable flow measurement even under the most demanding aerodynamic and thermal conditions.
Our in-house facilities in Gilching (Germany) allow us to move seamlessly from concept to finished probe – combining design, production, and calibration under one roof. The result: tailor-made flow measurement solutions that deliver accuracy, durability, and unmatched flexibility for every application.
Fully customizable. Down to the smallest detail.
Materials
- Stainless Steel
- Inconel 718
- Inconel 625
- Polyimides
- Aluminium
Ultra Lightweight Materials
- Titanium
- Scalmalloy® Aluminium
High-Temperature Materials
- GRX-810
- Cobalt-Chromium
- Platinum–Rhodium
- Silicon Nitride Ceramic
Geometry
- Probe geometry (straight, Cobra, L-shaped)
- Head geometry
- Length & diameter
- Mounting features
From miniaturized designs designs to custom rakes and integrated parts.
Functionality
- Embedded sensors & electronics
- Integrated cooling structures (high-temperature applications)
- Custom calibration ranges (AoA & sideslip)
- Combined pressure & temperature measurement
TRUSTED BY INNOVATORS WORLDWIDE
A selection of satisfied customers
