Density phase separation device

The invention claimed is: 1. A separation assembly for enabling separation of a fluid sample into first and second phases, comprising: a collection container having an open end, a closed end, and a sidewall extending therebetween defining an interior, the collection container further defining a longitudinal axis between the open end and the closed end; a closure adapted for sealing engagement with the open end of the collection container; a post engaged with the closure and adapted for positioning within the interior of the collection container, the post having a post through-hole aligned along the longitudinal axis of the collection container; and a mechanical separator releasably engaged with the post, the mechanical separator comprising a separator body having a through-hole defined therein along a through-axis, the through-hole adapted for allowing fluid to pass therethrough, the separator body comprising: a float, having a first density; a ballast, having a second density different than the first density, wherein a portion of the float is connected to a portion of the ballast; and a sealing perimeter that engages a portion of the collection container to provide a barrier between the first and second phases, wherein, the separator body is adapted to transition from a first initial position in which the sealing perimeter is oriented in a first direction with respect to the longitudinal axis of the collection container and a portion of the post is received within the through-hole of the separator forming a fluid path through the post and the mechanical separator to a second sealing position in which the separator body is disengaged from the post and the sealing perimeter is oriented in a second direction with respect to the longitudinal axis of the collection container and engages the portion of the collection container to provide the barrier between the first and second phases. 2. The separation assembly of claim 1 , wherein the separator body further comprises an initial engagement band circumferentially disposed about a portion of the separator body. 3. The separation assembly of claim 2 , wherein the initial engagement band and the float are formed of the same material and the initial engagement band bisects at least a portion of the ballast. 4. The separation assembly of claim 1 , wherein the separator body is adapted to transition from the first initial position to the second sealing position upon applied rotational force. 5. The separation assembly of claim 4 , wherein the transition of the separator body from the first initial position to the second sealing position includes an axial movement of the separator body to disengage from the post, and a rotational movement of the separator body from the first initial position to the second sealing position. 6. The separation assembly of claim 1 , wherein the sealing perimeter engages a first portion of the collection container when the separator body is in the second sealing position and the separator body further comprises a second sealing perimeter that engages a second portion of the collection container when the separator is in the first initial position. 7. The separation assembly of claim 6 , wherein the sealing perimeter and the second sealing perimeter are at different angles with respect to the through-axis. 8. The separation assembly of claim 1 , wherein the float is connected to the ballast at an interface and an outer surface of the float at the interface is offset from an outer surface of the ballast at the interface. 9. The separation assembly of claim 1 , wherein a first diameter taken along a first side of the through-hole which is different than a second diameter taken about a second opposite side of the through-hole, and wherein the first and second diameters are parallel with the through-axis. 10. The separation assembly of claim 1 , wherein an outermost perimeter of the body, as viewed from above in a direction extending from the top surface of the body to the bottom surface of the body, is asymmetric about a diameter of the outermost perimeter of the body extending through a center of the outermost perimeter. 11. The separation assembly of claim 1 , wherein, in the first initial position, at least a portion of the through-hole is oriented along the longitudinal axis of the collection container and, in the second sealing position, at least a portion of the through-hole is oriented perpendicular to the longitudinal axis of the collection container. 12. A separation assembly for enabling separation of a fluid sample into first and second phases, comprising: a collection container having an open end, a closed end, and a sidewall extending therebetween defining an interior, the collection container further defining a longitudinal axis between the open end and the closed end; a closure adapted for sealing engagement with the open end of the collection container, the closure having a receiving end for positioning within the open end of the collection container, the receiving end defining an interior cavity and comprising an undercut protrusion extending into the interior cavity; and a mechanical separator releasably engaged with the closure, the mechanical separator comprising a separator body having a through-hole defined therein along a through-axis, the through-hole adapted for allowing fluid to pass therethrough, the separator body comprising: a float, having a first density; a ballast, having a second density different than the first density, wherein a portion of the float is connected to a portion of the ballast; and a sealing perimeter that engages a portion of the collection container to provide a barrier between the first and second phases, wherein, the separator body is adapted to transition from a first initial position in which the undercut protrusion of the closure is disposed within the through-hole of the separator, at least a portion of the separator body is disposed within the interior cavity of the closure, and the sealing perimeter is oriented in a first direction with respect to the longitudinal axis of the collection container to a second sealing position in which the separator is disengaged from the closure and the sealing perimeter is oriented in a second direction with respect to the longitudinal axis of the collection container and engages the portion of the collection container to provide the barrier between the first and second phases. 13. The separation assembly of claim 12 , wherein the separator body further comprises an initial engagement band circumferentially disposed about a portion of the separator body. 14. The separation assembly of claim 13 , wherein the initial engagement band and the float are formed of the same material and the initial engagement band bisects at least a portion of the ballast. 15. The separation assembly of claim 12 , wherein the separator body is adapted to transition from the first initial position to the second sealing position upon applied rotational force. 16. The separation assembly of claim 12 , wherein the transition of the separator body from the first initial position to the second sealing position includes an axial movement of the separator body to disengage from the closure, and a rotational movement of the separator body from the first initial position to the second sealing position. 17. The separation assembly of claim 12 , wherein, in the first initial position, at least a portion of the through-hole is oriented along the longitudinal axis of the collection container and, in the second sealing position, at least a portion of the thro