Cylinder head of an internal combustion engine

What is claimed is: 1 . An engine component comprising: stratified metal layers forming walls of a cylinder head having internal cavities defining a cooling jacket configured to direct coolant within and through the walls, and a lattice disposed within and spanning between opposing surfaces of the cooling jacket configured to promote heat transfer between the stratified metal layers and coolant. 2 . The engine component of claim 1 wherein the lattice is planar. 3 . The engine component of claim 1 wherein the lattice defines a face having a plurality of apertures. 4 . The engine component of claim 3 wherein the lattice defines a honeycomb structure. 5 . The engine component of claim 3 wherein the face of the lattice faces a flow direction of the coolant. 6 . The engine component of claim 3 wherein the face of the lattice does not face a flow direction of the coolant. 7 . The engine component of claim 1 wherein the stratified metal layers and a block mating surface of the cylinder head are not parallel. 8 . An engine component comprising: a cylinder head including walls of stratified metal layers having internal cavities defining a cooling jacket configured to direct coolant within and through the walls, and including a pillar of stratified metal layers disposed within and spanning between surfaces of the cooling jacket such that a body of the pillar is spaced away from the surfaces to disturb flow of the coolant through the cooling jacket. 9 . The engine of claim 8 wherein the pillar is planar. 10 . The engine of claim 8 wherein the pillar is curved. 11 . The engine of claim 8 wherein the body has a uniform thickness. 12 . The engine of claim 8 wherein the body has a variable thickness. 13 . The engine of claim 8 wherein the stratified metal layers and a block mating surface of the cylinder head are not parallel. 14 . A cylinder head comprising: cylinder head walls formed of stratified metal layers having internal cavities defining a cooling jacket configured to direct coolant within and through the walls; and a cupped partition formed of the stratified metal layers disposed within and spanning between surfaces of the cooling jacket such that a body of the cupped partition is spaced away from the surfaces to redirect flow of the coolant within the cooling jacket. 15 . The cylinder head of claim 14 wherein the stratified metal layers are additive deposits. 16 . The cylinder head of claim 15 wherein the stratified metal layers and a block mating surface of the cylinder head are not parallel. 17 . The cylinder head of claim 14 wherein the cupped partition is a substantially impermeable wall adapted to redirect flow of the coolant within the cooling jacket. 18 . The cylinder head of claim 14 further comprising: a pillar of stratified metal layers disposed within and spanning between surfaces of the cooling jacket such that a body of the pillar is spaced away from the surfaces to disturb flow of the coolant through the cooling jacket, wherein the body is spaced apart from the cupped partition. 19 . The cylinder head of claim 18 wherein the body of the pillar extends parallel to the body of the cupped partition. 20 . The cylinder head of claim 14 further comprising: a lattice disposed within and spanning between opposing surfaces of the cooling jacket configured to promote heat transfer between the stratified metal layers and coolant.