Results (CO+P1)
No |
Result
Label |
Result
type |
Year |
1 |
Industrial
plasma spray coating equipment for clutch plates coating. |
Prototype |
2022 |
2 |
Pull-off system for testing the adhesion and cohesion of
plasma spray millimeter-thick coatings. |
Prototype |
2022 |
3 |
Plasma spray HEA/HEAC/C-HEA coating of clutch discs. |
Service |
2022 |
4 |
Synthesis technology of high entropy carbides in powder
form by mechanical alloying of elemental and simple carbide powders. |
Technology |
2022 |
5 |
Synthesis technology of HEA matrix composite alloys in
powder form. |
Technology |
2022 |
6 |
Plasma spray coating technology of clutch discs with
argon and hydrogen mixture plasma. |
Technology |
2022 |
7 |
Functional model of (HEA2Me)Cx
type high entropy carbides in powder form, where Me =Ti,
W. |
Functional model |
2022 |
8 |
Functional model of mm-thick (HEA2Me)Cx
type high entropy coatings, where Me =Ti, W. |
Functional model |
2022 |
9 |
Functional model of (HEA2)/(MeC)x
type high entropy composite material in powder form, where Me =Ti, W. |
Functional model |
2022 |
10 |
Functional model of mm-thick (HEA2)/(MeC)x
type high entropy composite coatings, where Me =Ti,
W. |
Functional model |
2022 |
11 |
Demonstrators of clutch discs coated with mm-thick high
entropy carbide layers. |
Demonstrator |
2022 |
12 |
Demonstrators of clutch discs coated with mm-thick high
entropy composite layers. |
Demonstrator |
2022 |
No |
Result
Label |
Result
type |
Year |
1 |
Multi-component thick
film deposition technology for tribological applications. |
Technology |
2021 |
2 |
Coating technology of
clutch discs with high entropy multicomponent alloy thick layers. |
Technology |
2021 |
3 |
Technology platform
for industrial coating processes with macroscopic-thick multicomponent
coatings. |
Technology |
2021 |
4 |
Synthesis technology
of HEA2 type multicomponent powder. |
Technology |
2021 |
5 |
Experimental models
of HEA2 type high entropy alloy powders. |
Experimental model |
2021 |
6 |
Experimental models
of (HEA1)Cx type high entropy alloy powders. |
Experimental model |
2021 |
7 |
Experimental models
of HEA2 type multicomponent thick coatings deposited in industrial process
plant. |
Experimental model |
2021 |
8 |
Experimental models
of HEA1 type multicomponent thick coatings deposited in industrial process
plant. |
Experimental model |
2021 |
9 |
Experimental models of
(HEA1)Cx type multicomponent thick coatings
deposited in industrial process plant |
Experimental model |
2021 |
10 |
Functional models of
thick multicomponent layers. |
Functional model |
2021 |
11 |
Experimental models
of (TiCrAlNbCu)CxNy high
entropy thin films. |
Experimental model |
2021 |
No |
Result
Label |
Result
type |
Year |
1 |
Synthesis technology
of HEA1 type multicomponent powder. |
Technology |
2020 |
2 |
Experimental model of
HEA1 type high entropy powder. |
Experimental model |
2020 |
3 |
Coating technology of
macroscopic-thick HEA1 type layers. |
Technology |
2020 |
4 |
Experimental model of
macroscopically thick HEA1-type layers obtained from high-entropy powder. |
Experimental model |
2020 |
5 |
Dosing technology of
heavy powders based on gravity dosing from a bunker with mechanical
adjustment of the dosing orifice. |
Technology |
2020 |
6 |
Fine powder dosing
technology based on Venturi effect. |
Technology |
2020 |
No |
Result
Label |
Result
type |
Year |
1 |
Deposition technology
of high entropy alloy thin films based on a hybrid HiPIMS/DCMS/RFMS
technique. |
Technology |
2019 |
2 |
Experimental models
of high entropy alloy thin films obtained by a hybrid HiPIMS/DCMS/RFMS
deposition technique. |
Experimental model |
2019 |