Method of constructing a metal mold

What is claimed is: 1. A part formed by additive manufacturing, the part comprising: a plurality of layers including a first layer and a second layer, the first layer and the second layer being stacked along a stacking direction, wherein the first layer is adjacent to the second layer; a work surface including a face configured to define a size and shape of an object to be formed with the work surface, the work surface being formed on an upper surface of the first layer and on an upper surface of the second layer, wherein the work surface is continuous along the upper surface of the first layer and the upper surface of the second layer; a first through-hole formed in the first layer; a second through-hole formed in the second layer, the second through-hole being at least partially aligned with and in fluid communication with the first through-hole to form a continuous channel when the part is in an assembled configuration; and a wall extending from the first through-hole to the work surface, wherein the first through-hole and the second through-hole together form a portion of the continuous channel, the continuous channel being a fluid channel configured to circulate a coolant. 2. The part of claim 1 , further including: a third through-hole formed in the first layer; and a fourth through-hole formed in the second layer, the third through-hole being at least partially aligned with the fourth through-hole. 3. The part of claim 1 , further including: a third through-hole formed in the first layer; and a fourth through-hole formed in the second layer, the third through-hole being at least partially aligned with the fourth through-hole, wherein the first through-hole and the second through-hole each have a first shape and the third through-hole and the fourth through-hole each have a second shape that is different than the first shape. 4. The part of claim 1 , further including: a third through-hole formed in the first layer; a fourth through-hole formed in the second layer, the third through-hole being at least partially aligned with the fourth through-hole; and an opening in the work surface, the opening being connected to the third through-hole and the fourth through-hole. 5. The part of claim 1 , further including: a third through-hole formed in the first layer; a fourth through-hole formed in the second layer, the third through-hole being at least partially aligned with the fourth through-hole; and an opening in the work surface, the opening being connected to the third through-hole and the fourth through-hole, wherein the opening is formed in a shape of a slot having a length that is larger than a width of the slot. 6. The part of claim 1 , wherein the first through-hole and the second through-hole form a horizontally-extending portion of the continuous channel, the continuous channel having a downward-facing opening. 7. The part of claim 1 , wherein the first through-hole and the second through-hole form a horizontally-extending portion of the continuous channel, the continuous channel having a downward-facing opening, and wherein the continuous channel is a first coolant channel and the part includes a second coolant channel, the second coolant channel extending through the first layer and through the second layer. 8. The part of claim 1 , wherein the part is a mold, the mold including a support structure. 9. The part of claim 1 , wherein the part is a mold, the mold including a support structure, and wherein the support structure is hollow and includes an internal support. 10. The part of claim 1 , further including: a third layer, the third layer comprising: an upper side; a lower side; a front side; a rear side; a portion of a mold face formed on the upper side; a portion of the first continuous channel extending through the front side and through the rear side; and a wall formed of metal material extending from the first coolant channel to the mold face. 11. The part of claim 1 , further including: a third layer, the third layer comprising: an upper side; a lower side; a front side; a rear side; a portion of a mold face formed on the upper side; a portion of the first continuous channel extending through the front side and through the rear side; a wall formed of metal material extending from the first coolant channel to the mold face; and a portion of a second continuous channel extending through the front side and through the rear side of the third layer. 12. The part of claim 1 , further including: a third layer, the third layer comprising: an upper side; a lower side; a front side; a rear side; a portion of a mold face formed on the upper side; a portion of the first continuous channel extending through the front side and through the rear side; a wall formed of metal material extending from the first coolant channel to the mold face; and a portion of a vacuum chamber extending through the front side and through the rear side of the third layer. 13. The part of claim 1 , further including: a third layer, the third layer comprising: an upper side; a lower side; a front side; a rear side; a portion of a mold face formed on the upper side; a portion of the first continuous channel extending through the front side and through the rear side; a wall formed of metal material extending from the first coolant channel to the mold face; a portion of a vacuum chamber extending through the front side and through the rear side of the third layer; and a recess formed by material removed from the front side or the rear side of the third layer, the recess extending from the mold face to the vacuum chamber. 14. The part of claim 1 , further including: a third layer, the third layer comprising: an upper side; a lower side; a front side; a rear side; a portion of a mold face formed on the upper side; a portion of the first continuous channel extending through the front side and through the rear side; and a wall formed of metal material extending from the first coolant channel to the mold face, wherein the mold face extends from the front side to the rear side of the third layer. 15. A part for forming a molded part, the part comprising: a plurality of layers, including a first layer and a second layer, the first layer and the second layer being stacked along a stacking direction, wherein the first layer is adjacent to the second layer; a mold face configured to define a shape of an object to be formed, the mold face formed on an upper surface of the first layer and an upper surface of the second layer, wherein the mold face is continuous along the upper surface of the first layer and the upper surface of the second layer; a first channel formed in the first layer; a second channel formed in the second layer, the second channel at least partially aligned with the first channel, the first and second channels together forming a coolant channel; a wall extending from the first channel to the mold face; and a vacuum slot formed between the first layer and the second layer, the vacuum slot extending from the mold face to a vacuum chamber, the vacuum chamber formed in the layers and connected to a vacuum source. 16. The part of claim 15 , wherein the coolant channel extends in a horizontal direction relative to the stacking direction and includes at least one downward-facing opening formed in the first layer, the opening providing access to the coolant channel for circulation of coolant. 17. The part of claim 15 , wherein the coolant channel extends in a horizontal direc