A method of additive manufacturing is provided. The method includes depositing a layer of base material from which an additively manufactured part is produced. The method also includes depositing a slurry onto the layer of base material, where the slurry includes a solvent, particles of a structural material, and a reinforcing agent.

A method of additive manufacturing is provided. The method includes depositing a layer of base material from which an additively manufactured part is produced. The method also includes depositing a slurry onto the layer of base material, where the slurry includes a solvent, particles of a structural material, and a reinforcing agent.

Aspects of the disclosure generally relate to a graphene doped aluminum composite, as well as a method of forming such a composite. Devices for heat dissipation can include such a graphene doped aluminum composite, where the composite can be formed in a process that includes crystallizing aluminum around substantially uniformly dispersed graphene.

Aspects of the disclosure generally relate to a graphene doped aluminum composite, as well as a method of forming such a composite. Devices for heat dissipation can include such a graphene doped aluminum composite, where the composite can be formed in a process that includes crystallizing aluminum around substantially uniformly dispersed graphene.

A composite magnetic material includes a soft magnetic phase including a magnetic material containing a ferromagnetic material including Fe or Co as a main component and a plurality of hard magnetic particles present and dispersed in a form of islands in the soft magnetic phase. The hard magnetic particles have an average particle size of 2 nm or more and include a magnetic material containing a ferrimagnetic material or an antiferromagnetic material as a main component while they are present with an average inter-particle distance of 100 nm or less in the soft magnetic phase. The composite magnetic material has excellent magnetic properties and can be made into a lightweight magnet to be used e.g. in a motor of an aircraft.

A composite magnetic material includes a soft magnetic phase including a magnetic material containing a ferromagnetic material including Fe or Co as a main component and a plurality of hard magnetic particles present and dispersed in a form of islands in the soft magnetic phase. The hard magnetic particles have an average particle size of 2 nm or more and include a magnetic material containing a ferrimagnetic material or an antiferromagnetic material as a main component while they are present with an average inter-particle distance of 100 nm or less in the soft magnetic phase. The composite magnetic material has excellent magnetic properties and can be made into a lightweight magnet to be used e.g. in a motor of an aircraft.

A printable lithium composition is provided. The printable lithium composition includes lithium metal powder; a polymer binder, wherein the polymer binder is compatible with the lithium powder; and a rheology modifier, wherein the rheology modifier is compatible with the lithium powder and the polymer binder. The printable lithium composition may further include a solvent compatible with the lithium powder and with the polymer binder.

A method of manufacturing a gas sensor for detecting xylene is provided. A method of manufacturing a gas sensor includes reacting a mixed material including a first material containing a cobalt (Co) element and a second material containing a chromium (Cr) element to form a CoCr.sub.2O.sub.4 hollow structure having a hollow shape.

A method of additive manufacturing is provided. The method includes depositing a layer of base material from which an additively manufactured part is produced. The method also includes depositing a slurry onto the layer of base material, where the slurry includes a solvent, particles of a structural material, and a reinforcing agent.

A method of additive manufacturing is provided. The method includes depositing a layer of base material from which an additively manufactured part is produced. The method also includes depositing a slurry onto the layer of base material, where the slurry includes a solvent, particles of a structural material, and a reinforcing agent.