Lattice transitioning structures in additively manufactured products

We claim: 1. An additively manufactured lattice structure, comprising: (a) a first three-dimensional lattice comprising a repeating interconnected array of a first lattice unit cell; (b) a second three-dimensional lattice comprising a repeating interconnected array of a second lattice unit cell, wherein said second lattice unit cell is different from said first lattice unit cell; (c) a first transition segment interconnecting said first three-dimensional lattice and said second three-dimensional lattice; said first transition segment comprising: (i) a first three-dimensional transitional lattice comprising a repeating array of said first lattice unit cell; and (ii) interleaved with and interconnected to said first three-dimensional transitional lattice, a second three-dimensional transitional lattice comprising a repeating array of said second lattice unit cell, wherein: said first transition segment has a first portion connected to said first three-dimensional lattice and a second portion connected to said second three-dimensional lattice; said first lattice unit cells of said first three-dimensional transitional lattice progressively contract in size from said first portion to said second portion; and said second lattice unit cells of said second three-dimensional transitional lattice progressively expand in size from said first portion to said second portion. 2. The lattice structure of claim 1 , further comprising: (d) a third three-dimensional lattice comprising of a repeating interconnected array of a third lattice unit cell, wherein said third lattice unit cell is different from said second, and optionally said first, lattice unit cell; and (e) a second transition segment interconnecting said second three-dimensional lattice and said third three-dimensional lattice; said second transition segment comprising: (iii) a third three-dimensional transitional lattice comprising a repeating array of said second lattice unit cell; and (iv) interleaved with and interconnected to said third three-dimensional transitional lattice, a fourth three-dimensional transitional lattice comprising a repeating array of said third lattice unit cell. 3. The lattice structure of claim 2 , wherein: said second transition segment has a third portion connected to said second three-dimensional lattice and a fourth portion connected to said third three-dimensional lattice when present; said second lattice unit cells of said third three-dimensional transitional lattice progressively contract in size from said third portion to said fourth portion; and said third lattice unit cells of said fourth three-dimensional transitional lattice progressively expand in size from said first portion to said second portion. 4. The lattice structure of claim 1 produced by a process of additive manufacturing (e.g., selective laser sintering (SLS), fused deposition modeling (FDM), stereolithography (SLA), three-dimensional printing (3DP), or multijet modeling (MJM). 5. The lattice structure of claim 1 , wherein said first three-dimensional lattice and second three-dimensional lattice are formed from the same material. 6. The lattice structure of claim 1 , wherein said lattice structure is rigid, flexible, or elastic. 7. The lattice structure of claim 1 , wherein said first and second lattice unit cell arrays are independently selected tetrahedral mesh or hexahedral mesh lattices. 8. A brace, arm, link, shock absorber, cushion, or pad comprised of a lattice structure of claim 1 . 9. A wearable protective device comprising a brace, arm, link, shock absorber, cushion, or pad of claim 8 . 10. A bed or seat comprising a brace, arm, link, shock absorber, cushion, or pad of claim 8 . 11. An automotive or aerospace panel, bumper, or component comprising a brace, arm, link, shock absorber, cushion, or pad of claim 8 . 12. A method of making an object of claim 1 , comprising: (a) providing a digital model of said object; and then (b) producing said object from said digital model by an additive manufacturing process. 13. A method for generating a lattice structure, comprising: generating a first three-dimensional lattice comprising a first repeating interconnected array of a first lattice unit cell; generating a second three-dimensional lattice comprising a first repeating interconnected array of a second lattice unit cell, wherein the second lattice unit cell is different from the first lattice unit cell; and generating a transition segment interconnecting the first three-dimensional lattice and the second three-dimensional lattice, wherein the transition segment comprises a first three-dimensional transitional lattice comprising a second repeating array of the first lattice unit cell, and, interleaved with and interconnected to the first three-dimensional transitional lattice, a second three-dimensional transitional lattice comprising a second repeating array of the second lattice unit cell, wherein: the transition segment has a first portion connected to the first three-dimensional lattice and a second portion connected to the second three-dimensional lattice; the first lattice unit cells of the first three-dimensional transitional lattice progressively contract in size from the first portion to the second portion; and the second lattice unit cells of the second three-dimensional transitional lattice progressively expand in size from the first portion to the second portion. 14. The method of claim 13 , wherein generating the transition segment interconnecting the first three-dimensional lattice and the second three-dimensional lattice comprises placing ones of the second repeating array of the second lattice unit cell adjacent a vertex and/or edge of ones of the second repeating array of the first lattice unit cell. 15. The method of any claim 13 , wherein the transition segment further comprises a third three-dimensional transitional lattice comprising a repeating array of a third lattice unit cell, different from the first lattice unit cell and the second lattice unit cell. 16. A computer program product comprising: a tangible non-transitory computer readable storage medium comprising computer readable program code embodied in the computer readable storage medium that when executed by at least one processor causes the at least one processor to perform operations comprising: generating a first three-dimensional lattice comprising a first repeating interconnected array of a first lattice unit cell; generating a second three-dimensional lattice comprising a first repeating interconnected array of a second lattice unit cell, wherein the second lattice unit cell is different from the first lattice unit cell; and generating a transition segment interconnecting the first three-dimensional lattice and the second three-dimensional lattice, wherein the transition segment comprises a first three-dimensional transitional lattice comprising a second repeating array of the first lattice unit cell, and, interleaved with and interconnected to the first three-dimensional transitional lattice, a second three-dimensional transitional lattice comprising a second repeating array of the second lattice unit cell, wherein: the transition segment has a first portion connected to the first three-dimensional lattice and a second portion connected to the second three-dimensional lattice; the first lattice unit cells of the first three-dimensional transitional lattice progressively contract in size from the first portion to the second portion; and the second lattice unit cells of the second three-dimensional transitional lattice pro