Three-dimensional printing of three-dimensional objects

What is claimed is: 1. A three-dimensional object, comprising: a plurality of layers of hardened material, wherein a single layer of the plurality of layers of hardened material includes ( 1 ) a core portion, ( 2 ) a skin portion, and ( 3 ) a plurality of melt pools; wherein the core portion is characterized as having a first microstructure; and wherein an exterior surface of the skin portion (i) corresponds to at least a fraction of an exterior surface of the three-dimensional object, and (ii) is characterized as having a second microstructure that is different than the first microstructure, and (a) wherein the three-dimensional object comprises at most about 15% porosity and/or (b) wherein the exterior surface of the skin portion is a bottom skin portion of a structure that extends from the core portion of the three-dimensional object, wherein the structure is such that a vector (I) is normal to the exterior surface at a point on the exterior surface, (II) is directed into the structure, and (III) forms an angle by intersecting with (A) a layering plane of the plurality of layers of hardened material and/or (B) a plane parallel to the layering plane, and wherein the angle has a value of at least sixty degrees and at most ninety degrees. 2. The three-dimensional object of claim 1 , wherein the first microstructure is formed at a first solidification rate, wherein the second microstructure is formed at a second solidification rate, and wherein the first solidification rate is greater than the second solidification rate. 3. The three-dimensional object of claim 1 , wherein the first microstructure comprises a first melt pool and/or a first grain, and wherein the second microstructure comprise a second melt pool and/or a second grain, and wherein the first grain comprises a first constituent and wherein the second grain comprises a second constituent, wherein the first constituent differs from the second constituent in at least one member selected from the group consisting of fundamental length scale, chemical makeup, crystal structure, and metallurgical microstructure. 4. The three-dimensional object of claim 3 , wherein the first constituent comprises a first crystal structure or a first metallurgical microstructure, and wherein the second constituent comprises a second crystal structure or a second metallurgical microstructure. 5. The three-dimensional object of claim 1 , wherein the skin portion has a thickness ranging from about 20 micrometers to about 1000 micrometers. 6. The three-dimensional object of claim 1 , wherein the first microstructure comprises a first melt pool and/or a first grain, and wherein the second microstructure comprise a second melt pool and/or a second grain, and wherein grains of the second microstructure of the skin portion are more ordered as compared to grains of the first microstructure of the core portion. 7. The three-dimensional object of claim 1 , wherein the first microstructure comprises a first melt pool and/or a first grain, and wherein the second microstructure comprise a second melt pool and/or a second grain, and wherein grains of the second microstructure of the skin portion are aligned with respect to (i) the exterior surface of the skin portion and/or (ii) an interior of a melt pool. 8. The three-dimensional object of claim 1 , wherein the skin portion comprises (i) a melt pool that defines an alignment line that runs parallel to a surface of the skin portion and/or through a central portion of the melt pool, and (ii) a plurality of grain structures that are directed to the alignment line. 9. The three-dimensional object of claim 8 , wherein grain structures of the second microstructure are aligned at an angle with respect to the alignment line. 10. The three-dimensional object of claim 1 , wherein the core portion comprises a first set of grains, wherein the skin portion comprises a second set of grains, wherein grains of the second set of grains have on average a fundamental length scale that is larger than a corresponding fundamental length scale of grains of the first set of grains. 11. The three-dimensional object of claim 10 , wherein the fundamental length scale comprises a width or a length. 12. The three-dimensional object of claim 1 , wherein the skin portion is directly attached to the core portion. 13. The three-dimensional object of claim 1 , wherein the skin portion is characterized by a plurality of tiles, wherein centers of adjacent tiles of the plurality of tiles are substantially uniformly spaced apart from one another. 14. The three-dimensional object of claim 13 , wherein at least two adjacent tiles of the plurality of tiles overlap with one another. 15. The three-dimensional object of claim 1 , wherein the exterior surface has a surface roughness (Sa) of at most about 20 micrometers as measured by a surface profilometer. 16. The three-dimensional object of claim 2 , wherein the first solidification rate and the second solidification rate are associated with a cooling rate during generation of the three-dimensional object. 17. The three-dimensional object of claim 1 , wherein the three-dimensional object comprises a portion in which the core portion contacts the skin portion. 18. The three-dimensional object of claim 1 , further comprising one or more intermediate portions between the core portion and the skin portion. 19. The three-dimensional object of claim 1 , wherein the plurality of layers of hardened material comprises at least one layer that does not include a core portion and a skin portion having different microstructures. 20. The three-dimensional object of claim 1 , wherein the three-dimensional object comprises at most about 15% porosity. 21. The three-dimensional object of claim 1 , wherein the vector is a first vector, and wherein the first vector has a component in a direction of a stacking vector of the plurality of layers of hardened material. 22. The three-dimensional object of claim 1 , wherein the exterior surface of the skin portion is a bottom skin portion of a structure that extends from the core portion of the three-dimensional object, wherein the structure is such that a vector (I) is normal to the exterior surface at a point on the exterior surface, (II) is directed into the structure, and (III) forms an angle by intersecting with (A) a layering plane of the plurality of layers of hardened material and/or (B) a plane parallel to the layering plane, and wherein the angle has a value of at least sixty degrees and at most ninety degrees. 23. The three-dimensional object of claim 22 , wherein the vector is a first vector, and wherein the first vector has a component in a direction of a stacking vector of the plurality of layers of hardened material.