Described herein, are methods for providing a protective coating to a storage container for storing nuclear material, the method comprising depositing nickel particles on at least one surface of the substrate to produce the protective coating, wherein the nickel particles are deposited by cold spraying a composition comprising nickel particles and a carrier gas comprising nitrogen. In one aspect, the carrier gas consists essentially or consists only of nitrogen. The methods do not require pretreatment or modification of the nickel particles prior to cold spraying, which makes the methods described herein economically practical. The coatings produced by the methods described herein possess several advantageous properties including, but not limited to, high adhesion strength to the storage system and low porosity. The coatings produced by the methods described herein are effective against chemical attack such as, for example, CISCC.

The invention relates to a device for moving a cushioning means towards a transport container, comprising a cushioning means dispensing device for the cushioning means and a transport container supply device for supplying the transport container. According to the invention, the cushioning means dispensing device has an ejection device which ejects the cushioning means out of the cushioning means dispensing device such that the cushioning means moves towards the supplied transport container along a ballistic trajectory which has a horizontal component at least temporarily.

A process for coating a carrier material with an active material for production of an electrode foil of a battery cell with a Laval nozzle, wherein the Laval nozzle has at least one converging first portion, one second portion having a smallest flow cross section, and one diverging third portion arranged one after the other along a flow direction.

A process for producing a titanium load-bearing structure, which comprises cold-gas dynamic spraying of titanium particles on to a suitably shaped support member, and a titanium load bearing structure so-produced.

An internal pipe powder coating system includes a nozzle having an attachment device to removably attach to a chamber; the nozzle having holes extending through a thickness of the body; a powder coating machine engaged with the chamber to deliver powder coating to the nozzle; the nozzle sprays the powder coating to an inside of a pipe.

The invention relates to a wall-flow filter, to a method for the production and the use of the filter for reducing harmful exhaust gases of an internal combustion engine. The wall-flow filter was produced by exposing the filter at least twice successively to a powder-gas aerosol.

A method of 3D printing an item, wherein a spray material comprising a powder entrained in an oxygen comprising carrier gas is emitted from a spray nozzle 8. The nozzle 8 comprises a constricted throat 11 that has a thermal conductivity of at least 10 W/mk and a hardness of at least 10 Rockwell C (HRC). The temperature of the throat does not exceed 250° C., and preferably does not exceed 200° C.

A method of printing a three dimensional article (201) can include forming a bottom layer of the three dimensional article (201) by spraying a dry build material powder (210) onto a build platform (230) while heating the dry build material powder (210). The dry build material powder (210) can include metal or ceramic particles mixed with a polymeric binder having a softening point temperature. The dry build material powder (210) can be heated to a temperature above the softening point temperature such that the dry build material powder (210) adheres to the build platform (230). Subsequent layers can be formed by spraying dry build material powder (210) onto a lower layer while heating the dry build material powder (210) such that the dry build material powder (210) adheres to the lower layer.

A cooling system for a cold spray nozzle or a thermal spray barrel and a fabrication method thereof are provided. The cooling system includes a sleeve with cooling fins that encapsulate a spray nozzle or barrel to enable heat transfer from the nozzle or barrel to the fins and then to the external ambient environment. The sleeve may optionally include one or more channels with cooling tubes to enable enhanced cooling with a cooling medium flowing through the tubes and across the fins.

The invention relates to a device for generating a CO.sub.2 snow jet, comprising an expansion channel (6) which extends in a flow direction (14) for generating a CO.sub.2 gas/CO.sub.2 snow mixture based on liquid CO.sub.2, said expansion channel having an inlet opening (18) for supplying liquid CO.sub.2 and an outlet opening (22) for discharging the CO.sub.2 gas/CO.sub.2 snow mixture. The device also comprises a nozzle for generating an outer jet which surrounds and accelerates the CO.sub.2 gas/CO.sub.2 snow mixture discharged from the outlet opening of the expansion channel. The expansion channel has multiple channel sections (36a, 36b, 36c, 36d, 36e) arranged one behind the other in the flow direction, wherein the expansion channel cross section (40) that lies on a plane orthogonal to the flow direction changes locally in a particular transition or transition region (38a, 38b, 38c, 38d, 38e, 38f) between the channel sections, and the expansion channel (6) cross section (46d) at the upstream end (48d) of a particular channel section (36d) is larger than the expansion channel (6) cross section (46c) at the upstream end (48c) of the channel section (36c) arranged upstream of said channel section (36d) in the flow direction (14).