Generation and execution of melting paths in additive manufacturing

What is claimed is: 1 . A method for determining a melt strategy for an additive manufacturing system, the method comprising: receiving geometry data corresponding to a surface layer of a powder bed within a build chamber of the additive manufacturing system; populating the geometry data with a plurality of points comprising a plurality of melting points; assigning at least one treatment action to each melting point of the plurality melting points; assigning at least one melt parameter and at least one prerequisite thermal characteristic to each treatment action of each melting point; generating a preliminary processing list comprising each treatment action of each melting point; creating a revised processing order comprising a plurality of sequential unpopulated items, wherein each unpopulated item of the revised processing order is associated with a sequential time value; and populating the revised processing order, the populating comprising: identifying an earliest unpopulated item of the revised processing order, determining if any treatment action of the treatment actions of the preliminary processing list comprises prerequisite thermal characteristics which are satisfied for the sequential time value of the earliest unpopulated item, assigning an assignment to the earliest unpopulated item, wherein the assignment comprises: a wait period, or the treatment action comprising prerequisite thermal characteristics which are satisfied for the sequential time value of the earliest unpopulated item, if the assignment comprises the treatment action comprising prerequisite thermal characteristics which are satisfied for the sequential time value of the earliest unpopulated item, removing the treatment action comprising prerequisite thermal characteristics which are satisfied for the sequential time value of the earliest unpopulated item from the preliminary processing list, classifying the earliest unpopulated item as a populated item, and if the preliminary processing list comprises treatment actions, returning to identifying the earliest unpopulated item, or, if the preliminary processing list does not comprise treatment actions, issuing a command to begin a melt process according to the revised processing order. 2 . The method of claim 1 , wherein the determining if any treatment action of the treatment actions of the preliminary processing list comprises prerequisite thermal characteristics which are satisfied for the sequential time value of the earliest unpopulated item comprises comparing thermal characteristics against the prerequisite thermal characteristics of at least some of the treatment actions of the preliminary processing list. 3 . The method of claim 2 , wherein the thermal characteristics are determined by a thermal model. 4 . The method of claim 1 , wherein the prerequisite thermal characteristics of each treatment action of each melting point comprise at least one of: a melting point temperature range of the melting point; an area temperature range of at least some points within a pre-defined range of the melting point; a time value associated with a predicted temperature or a predicted temperature range of the melting point; a temperature history over a time interval of the melting point; a material state of the melting point; a material phase of the melting point; a time value associated with a predicted temperature of the melting point; a time value associated with a predicted temperature range of the melting point; a time value associated with a predicted material state of the melting point; a time value associated with a predicted material phase of the melting point; or a combination thereof. 5 . The method of claim 1 , wherein the at least one melt parameter of each treatment action comprises at least one of: a beam duration parameter; a beam power parameter; a beam spot diameter parameter; a beam shape parameter; a beam movement parameter; a beam movement speed parameter; or a combination thereof. 6 . The method of claim 1 , wherein each treatment action of each melting point comprises a pre-melting action, a melting action, or a post-melting action. 7 . The method of claim 1 , wherein each treatment action of each melting point comprises a heating action or a cooling action. 8 . The method of claim 1 , the method further comprising executing the melt process according to the revised processing order. 9 . The method of claim 8 , wherein the executing of the melt process solidifies the surface layer. 10 . The method of claim 9 , wherein the executing of the melt process forms at least one of: an alloy; a single crystal alloy; a single crystal superalloy; a nickel-based superalloy; a cobalt-based superalloy; a single crystal refractory alloy; a Mo-based refractory alloy; a W-based refractory alloy; a Ta-based refractory alloy; or a combination thereof. 11 . The method of claim 1 , wherein the points of the plurality of points are adaptively spaced. 12 . The method of claim 11 , wherein the populating the geometry data with the plurality of adaptively spaced points comprises at least one of: adaptively spacing lines in the geometry data; adaptively spacing curves filling out regions of the geometry data; generating fixed patterns with adaptive spacing, wherein the fixed patterns adaptively fill out regions of the geometry data; or a combination thereof. 13 . The method of claim 1 , wherein at least one melting point of the plurality of melting points comprise a plurality of distinct points of the plurality of points. 14 . The method of claim 1 , wherein the assignment comprises the wait period only if no treatment action of the treatment actions of the preliminary processing list comprises prerequisite thermal characteristics which are satisfied for the sequential time value of the earliest unpopulated item. 15 . The method of claim 1 , wherein the generating of a preliminary processing list comprises ordering each treatment action of each melting point according to an ordering strategy. 16 . The method of claim 15 , wherein the ordering strategy comprises a heat spreading strategy, a heat localizing strategy, or a combination thereof. 17 . The method of claim 1 , wherein the additive manufacturing system is an electron beam additive manufacturing system. 18 . An additive manufacturing system comprising: a processor; a memory component that stores logic that, when executed by the processor, causes the system to: receive geometry data corresponding to a surface layer of a powder bed within a build chamber of the additive manufacturing system; populate the geometry data with a plurality of points comprising a plurality of melting points; assign at least one treatment action to each melting point of the plurality melting points; assign at least one melt parameter and at least one prerequisite thermal characteristic to each treatment action of each melting point; generate a preliminary processing list comprising each treatment action of each melting point; create a revised processing order comprising a plurality of sequential unpopulated items, wherein each unpopulated item of the revised processing order is associated with a sequential time value; and populate the revised processing order, the populating comprising: identifying an earliest unpopulated item of the revised processing order, determining if any treatment action of the treatment actions of the preliminary processing list comprises prerequisite thermal ch