A method for treating metal parts is provided that includes positioning a metal part within a reactor chamber, and positioning a boron containing solid form having a porosity of at least 10% by volume in the reactor chamber adjacent to the metal part. A halide containing gas may be introduced to the
A method for treating metal parts is provided that includes positioning a metal part within a reactor chamber, and positioning a boron containing solid form having a porosity of at least 10% by volume in the reactor chamber adjacent to the metal part. A halide containing gas may be introduced to the reactor chamber that the boron containing solid form is present in. The at least one halide containing gas and the boron containing form react to provide a gas that borides the metal part.
대표청구항▼
1. A boriding treatment apparatus comprising: a reactor chamber comprising a boron containing heating element, wherein the boron containing heating element is a component of an assembly for housing a metal work piece for treatment by the boriding treatment apparatus, the boron containing heating ele
1. A boriding treatment apparatus comprising: a reactor chamber comprising a boron containing heating element, wherein the boron containing heating element is a component of an assembly for housing a metal work piece for treatment by the boriding treatment apparatus, the boron containing heating element being a solid form having a porosity, wherein the boron containing heating element converts electricity into heat by joule heating; andat least one treatment gas producing chamber in communication with the reactor chamber with a passageway for transporting a reaction gas produced within the at least one treatment gas producing chamber through the boron containing heating element, wherein the reaction gas and the boron containing heating element react to provide a boronizing gas that borides the metal work piece being housed by the assembly. 2. The boriding treatment apparatus of claim 1, wherein the at least one treatment gas producing chamber that is in communication with the reactor chamber is through at least one valve assembly. 3. The boriding treatment apparatus of claim 2, wherein the at least one treatment gas producing chamber includes multiple treatment gas producing chambers, wherein communication to the reactor chamber for each of the multiple treatment gas producing chambers is through a manifold. 4. The boriding treatment apparatus of claim 3, wherein a gas line extends from the manifold to the boron containing heating element. 5. The boriding treatment apparatus of claim 1, wherein the assembly includes a body portion for housing the metal work piece, and the boron containing heating element provides the sidewall elements of the assembly that are adjacent to the body portion, wherein the boron containing heating element includes a treatment region that is positioned adjacent to a portion of the metal work piece being treated by the boriding treatment apparatus. 6. The boriding treatment apparatus of claim 5, wherein the boron containing heating element does not directly contact the metal work piece. 7. The boriding treatment apparatus of claim 6, wherein the body portion of the assembly is comprised of graphite, or silicon carbide. 8. The boriding treatment apparatus of claim 6, wherein the body portion for housing the metal work piece separates at least the treatment region of the boron containing heating element from the metal work piece by a gap that ranges from 100 microns to 20 mm. 9. The boriding treatment apparatus of claim 6, wherein the body portion for housing the metal work piece separates at least the treatment region of the boron containing heating element from the metal work piece by a gap that ranges from 1000 microns to 1 mm. 10. The boriding treatment apparatus of claim 9, wherein the assembly further comprises a cap portion that encloses the metal work piece in the cavity of the body portion and between the sidewall elements of the assembly that are provided by the boron containing heating element. 11. The boriding treatment apparatus of claim 9, wherein the profile of the cavity is substantially equal to a knife profile used in pulp manufacture. 12. The boriding treatment apparatus of claim 5, wherein the body portion of the assembly comprises a cavity present therein having a profile that matches a profile of the metal work piece being housed within the assembly. 13. The boriding treatment apparatus of claim 5, wherein the treatment region is a notch in the boron containing heating element having a geometry that mirrors a geometry of a tip portion of a knife that provides the metal work piece, wherein the tip portion of the knife extends into the notch when the knife is being housed by the body portion of the assembly. 14. The boriding treatment apparatus of claim 1, wherein the boron containing heating element is comprised of boron carbide having a composition of BnC, wherein “n” ranges from 4 to 10. 15. The boriding treatment apparatus of claim 1, wherein the boron containing heating element has a boron concentration ranging from 75 wt. % to 95 wt. %. 16. The boriding treatment apparatus of claim 1, wherein the boron containing heating element has a composition that includes a combined boron and carbon (B+C) content ranging from 93 wt. % to 99 wt. %, a boron oxide (B2O3) content of 1.0 wt. % or less, an iron (Fe) content of less than 0.5 wt. % and a silicon (Si) content of less than 0.5 wt. %. 17. The boriding treatment apparatus of claim 1, wherein the porosity is equal to 10% or greater of the boron containing solid form by volume. 18. The boriding treatment apparatus of claim 1, wherein the porosity of the boron containing solid form ranges from 20% to 80% by volume. 19. The boriding treatment apparatus of claim 1 further comprising another heating element in additional to the boron containing heating element for heating the reactor chamber, wherein said another heating element is selected from the group consisting of a convection heater, a heat lamp, a conductive heater, a microwave heater, a resistive heater, an inductive heater, an RF heater, a chemical reaction heater (CRH) and a combination thereof.
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