Abstract: A method of forming a protective coating on an interconnect for an electrochemical device stack includes providing a powder on the interconnect and laser sintering the powder.

Abstract: A method for optimizing a rotation angle of an outlet of an atomizing nozzle is provided. The atomizing nozzle includes a nozzle core and a nozzle body. The method includes the following steps: measuring an outlet flow rate Q0 of the atomizing nozzle under a rated working pressure when an outlet clearance between the nozzle core and the nozzle body is ?=0; setting the outlet clearance between the nozzle core and the nozzle body by changing a phase angle between the nozzle core and the nozzle body, and measuring an outlet flow rate Q1 of the atomizing nozzle in a stable working state under the rated working pressure; calculating a flow coefficient of the atomizing nozzle; calculating the outlet clearance of the atomizing nozzle according to an expected outlet flow rate Q2 of the atomizing nozzle and the flow coefficient of the atomizing nozzle.

Abstract: The present invention provides a method for optimizing a rotation angle of an outlet of an atomizing nozzle, the atomizing nozzle including a nozzle core and a nozzle body, wherein the method includes the following steps: measuring an outlet flow rate Q0 of the atomizing nozzle under a rated working pressure when an outlet clearance between the nozzle core and the nozzle body is ?=0; setting the outlet clearance between the nozzle core and the nozzle body by changing a phase angle between the nozzle core and the nozzle body, and measuring an outlet flow rate Q1 of the atomizing nozzle in a stable working state under the rated working pressure; calculating a flow coefficient of the atomizing nozzle; calculating the outlet clearance of the atomizing nozzle according to an expected outlet flow rate Q2 of the atomizing nozzle and the flow coefficient of the atomizing nozzle; and according to the assembly relationship between the nozzle core and the nozzle body, changing the phase angle between the nozzle core and