Mass-efficient rocking component

What is claimed is: 1. A rocker component comprising: a monolithic body comprising: a first end; an opposing second end; a first lateral wall extending from the first end to the opposing second end, the first lateral wall defining a first aperture and a first mass reducing feature; a second lateral wall extending from the first end to the second end, the second lateral wall defining a second aperture and a second mass reducing feature; a pushrod receiving member bridging the first lateral wall and the second lateral wall at the first end, wherein the pushrod receiving member defines a first surface and a second surface, the pushrod receiving member comprising: an oil receiving aperture extending through the pushrod receiving member from the first surface to the second surface, wherein the first surface defines a contour configured to receive a pushrod and the second surface has a substantially vertical first portion extending upward from the second surface and a second portion extending over the oil receiving aperture, the second portion defining an angle θ with respect to the first portion of greater than 0° to less than or equal to about 90°; and a tongue element bridging the first lateral wall and the second lateral wall at the second end, the tongue element comprising a third surface configured to receive a valve stem, wherein the first aperture and the second aperture are aligned and configured to receive a cylindrical rocker bearing, and wherein the tongue element has a tongue portion with a cross-section geometry of an I-beam, wherein a lower horizontal portion of the I-beam defines a J-channel, and the rocker component is configured such that the oil is introduced upward through the oil receiving aperture, deflected off of the second portion of the second surface of the pushrod receiving member, and directed toward the second end such that the oil flows along the J-channel. 2. The rocker component of claim 1 , wherein the first lateral wall and the second lateral wall are only connected via the pushrod receiving member and the tongue element to define a central void region. 3. The rocker component of claim 1 , wherein the first lateral wall and the second lateral wall are substantially free of any gating structures. 4. The rocker component of claim 1 , wherein the angle θ is greater than or equal to about 20° to less than or equal to about 70°. 5. The rocker component of claim 1 , wherein the angle θ is greater than or equal to about 40° to less than or equal to about 50°. 6. The rocker component of claim 1 , wherein the first surface of the pushrod receiving member having the contour and the third surface of the tongue element comprise a protective coating disposed thereon. 7. The rocker component of claim 6 , wherein the protective coating comprises a material selected from a group consisting of: hydrogenated-diamond like carbon, non-hydrogenated-diamond like carbon, tungsten carbide or other metal carbide, molybdenum disulfide, graphite, polytetrafluoroethylene, a thermosetting polymer, a hardened metal or metal oxide, and combinations thereof. 8. The rocker component of claim 1 , wherein the monolithic body comprises a material selected from a group consisting of steel alloy, stainless steel alloy, titanium alloy, aluminum alloy, chrome-cobalt alloys, iron-aluminum-silicon intermetallics, high entropy alloys, metal-dominant materials, metal matrix composites, composite materials comprising a polymer and a reinforcement material, carbon fiber composites, and combinations thereof. 9. The rocker component of claim 1 , wherein the rocker component defines a pivot axis passing transversely through the first aperture and the second aperture, and a center of mass of the rocker component is less than or equal to about 10 mm from a center of the pivot axis. 10. A rocker component comprising: a monolithic body comprising: a first end; an opposing second end; a first lateral wall extending from the first end to the opposing second end, the first lateral wall defining a first aperture and a first mass reducing feature; a second lateral wall extending from the first end to the second end, the second lateral wall defining a second aperture and a second mass reducing feature; a pushrod receiving member bridging the first lateral wall and the second lateral wall at the first end, wherein the pushrod receiving member defines a first surface and a second surface, the pushrod receiving member comprising: an oil receiving aperture extending through the pushrod receiving member from the first surface to the second surface, wherein the first surface defines a contour configured to receive a pushrod and the second surface has a substantially vertical first portion extending upward from the second surface and a second portion extending over the oil receiving aperture, the second portion defining an angle θ with respect to the first portion of greater than 0° to less than or equal to about 90°; and a tongue element bridging the first lateral wall and the second lateral wall at the second end, the tongue element comprising a third surface configured to receive a valve stem, wherein the first aperture and the second aperture are aligned and configured to receive a cylindrical rocker bearing and the rocker component is configured such that oil is introduced upward through the oil receiving aperture, deflected off of the second portion of the second surface of the pushrod receiving member, and directed toward the second end such that the oil flows along a fluid flow surface of the tongue element, wherein the tongue element has a tongue portion with a cross-section geometry of an I-beam, and wherein the rocker component is made by additive manufacturing and comprises at least one region having a lattice structure. 11. The rocker component of claim 10 , wherein the at least one region corresponds to an interior portion of the tongue element, the inner portion of the tongue element comprising the lattice structure. 12. The rocker component of claim 10 , wherein the rocker component is formed via additive manufacturing and has a mass reduction of greater than or equal to about 10% as compared to a cast rocker component. 13. The rocker component of claim 10 , wherein an interior portion of at least one of the first lateral wall, the second lateral wall, the pushrod receiving member, and the tongue element is hollow. 14. A method of manufacturing a rocker component, the method comprising: additive manufacturing a monolithic body, the monolithic body comprising: a first end; an opposing second end; a first lateral wall extending from the first end to the opposing second end, the first lateral wall defining a first aperture and a first mass reducing feature; a second lateral wall extending from the first end to the second end, the second lateral wall defining a second aperture and a second mass reducing feature; a pushrod receiving member bridging the first lateral wall and the second lateral wall at the first end, wherein the pushrod receiving member defines a first surface and a second surface, the pushrod receiving member comprising: an oil receiving aperture extending through the pushrod receiving member from the first surface to the second surface, wherein the first surface defines a contour configured to receive a pushrod and the second surface has a substantially vertical first portion extending upward from the second surface and a second portion extending over the oil receiving aperture, the second portion defining an angle θ with respect to the first portion of greater than 0° to less than or equal to about 90°; and a tongue element br