Strainers

What is claimed is: 1. A strainer, comprising: a strainer housing with a flow channel, wherein the flow channel extends between a channel inlet and a channel outlet; and a strainer body, including: a tip portion; a base portion opposite the tip portion; and a midsection connecting the base portion to the tip portion, wherein the strainer body has a conical or bullet-like shape defining a straining axis extending between the channel inlet and the channel outlet, the strainer body including a plurality of interfused layers extending laterally from the straining axis and defining a plurality of flow passages through the strainer body to impound particulate entrained in fluid traversing the strainer body through the plurality of flow passages; wherein the strainer body is sealably seated within the flow channel such that fluid traversing flow channel flows through the flow passages of the strainer body; and wherein at least two of the interfused layers forming the strainer body extend laterally from the strainer axis and form a portion of the strainer housing, a first of the layers defining an axially inner surface of the strainer body and an outer surface of the strainer housing. 2. The strainer body as recited in claim 1 , wherein at least one of the base portion and the midsection of the strainer body define an overhang angle that is greater than about 45-degrees. 3. The strainer body as recited in claim 1 , wherein the interfused layers are angled at about a 90-degree angle relative to the straining axis. 4. The strainer body as recited in claim 1 , wherein at least one of the flow passages defines a non-circular flow area. 5. The strainer body as recited in claim 1 , wherein at least one of the flow passages defines a flow area with a polygonal shape. 6. The strainer body as recited in claim 1 , wherein at least one of the flow passages defines a flow area with an elliptical shape. 7. The strainer body as recited in claim 6 , wherein a major of axis of the elliptically shaped flow area extends in the direction of the straining axis. 8. The strainer body as recited in claim 1 , wherein at least one of the plurality of flow passages defines a flow area that tapers along an axis of the flow passage. 9. A The strainer body as recited in claim 1 , wherein at least one of the plurality of flow passages is bounded by a planar sidewall defined within a wall of the strainer body. 10. The strainer as recited in claim 1 , wherein a tip of the strainer faces a channel inlet of the flow channel. 11. The strainer as recited in claim 1 , wherein a tip of the strainer faces a channel outlet of the flow channel. 12. A fuel injector for a gas turbine engine, comprising: a nozzle body with a fuel circuit; a support with a fuel conduit with the fuel circuit of the nozzle body; and a strainer body as recited in claim 1 , wherein the plurality of the flow passages of the strainer body are in fluid communication with fuel circuit of the nozzle body through the fuel conduit of the support. 13. A strainer, comprising: a strainer housing with a flow channel, wherein the flow channel extends between a channel inlet and a channel outlet; and first and second strainer bodies, each strainer body including: a tip portion; a base portion opposite the tip portion; and a midsection connecting the base portion to the tip portion, wherein the strainer body has a conical or bullet-like shape defining a straining axis extending between the channel inlet and the channel outlet, the strainer body including a plurality of interfused layers extending laterally from the straining axis and defining a plurality of flow passages through the strainer body to impound particulate entrained in fluid traversing the strainer body through the plurality of flow passages; wherein the second strainer body is axially stacked with the first strainer body along the straining axis of the first strainer body, the straining axis extending between the channel inlet and the channel outlet, wherein a tip of the first strainer body faces the channel inlet of the flow channel, wherein a tip of the second strainer body is disposed within an interior of the first strainer body, wherein each of the flow passages of the first strainer body has a flow area that is greater than each flow area of the flow passage of the second strainer body, wherein the plurality of interfused layers of the first strainer body and the second strainer body extend into the strainer housing and sealably fix the strainer bodies within the flow channel; and wherein at least two of the interfused layers forming the first strainer body extend laterally from the strainer axis and form a portion of the housing, a first of the layers defining an axially inner surface of the first strainer body and an outer surface of the strainer housing.