Transfer ring turnbuckle

What is claimed is: 1. A projectile comprising: a fore portion having a threaded portion of a first handedness; an aft portion having a threaded portion of a second handedness; and a threaded module positioned between and connecting the fore portion and the aft portion, said threaded module further comprising a cylinder further comprising a first threaded portion of a first handedness for mating with the fore portion of the projectile and a second threaded portion of a second handedness for mating with the aft portion of the projectile, said first threaded portion and second threaded portion diametrically opposed from each other at opposing ends of the cylinder and one or more radial slots positioned between the first threaded portion and the second threaded portion, a torque ring coaxial with and partially surrounding the cylinder with a top surface of the torque ring in contact with a bottom surface of the fore portion and a bottom surface of the torque ring in contact with a top surface of the aft portion, said torque ring further comprising one or more holes, said one or more holes each corresponding to the one or more radial slots of the cylinder, and one or more torque pins sized and dimensioned to be inserted through the one or more holes and radial slots. 2. The projectile of claim 1 wherein outer mold line formed between the torque ring and the fore portion and the aft portion is uniform in profile. 3. The projectile of claim 1 wherein the radial slots of the cylinder are centered between the first threaded portion and the second threaded portion. 4. The projectile of claim 3 wherein the radial slots allow for torque pins to translate along the principal axis of cylinder during assembly of the projectile. 5. The projectile of claim 1 wherein the fore portion and the aft portion further comprise a lip protruding from an interior circumferential surface and wherein the torque ring further comprises a first cutout and a second cutout which correspond to the lips of the fore section and aft section. 6. The projectile of claim 1 wherein the torque ring further comprises a groove defined by inner circumferential surface of the torque ring for supporting one or more friction reducing elements during assembly. 7. The projectile of claim 6 wherein the friction reducing elements are ball bearings. 8. The projectile of claim 7 wherein the ball bearings contact a deformable material which maintains form until a predetermined stress is reached during assembly, thereby forming a defined relationship between applied torque and material deformation. 9. The projectile of claim 1 further comprising a friction weld between the fore portion and the torque ring and between the aft portion and the torque ring. 10. A method for assembling a projectile comprising the steps of: providing a fore portion having a threaded portion of a first handedness, an aft portion having a threaded portion of a second handedness, a cylinder further comprising a first threaded portion of a first handedness and a second threaded portion of a second handedness, said first threaded portion and second threaded portion diametrically opposed from each other at opposing ends of the cylinder and one or more radial slots positioned between the first threaded portion and the second threaded portion, a torque ring further comprising one or more holes; positioning a torque ring around a center portion of a cylinder such that the one or more holes defined by the torque ring are aligned with the one or more radial slots defined by the cylinder; inserting a torque pin through each of the aligned pairs of holes and radial slots; simultaneously engaging the first threaded portion of with the fore portion of the projectile and the second threaded portion with the aft portion of the projectile; rotating the cylinder and torque ring thereby drawing the fore portion and the aft portion together without rotating the fore portion and the aft portion; and bottoming out the fore portion and the aft portion on the torque ring. 11. The method of claim 10 further comprising the step of creating a friction weld between the torque ring and the fore portion and the torque ring and the aft portion. 12. The method of claim 10 wherein the step of rotating the cylinder and torque ring is performed with a spanner. 13. The method of claim 10 wherein the torque ring further comprises a groove defined by inner circumferential surface of the torque ring for supporting one or more ball bearings contact a deformable material and the step of which rotating the cylinder and torque ring further comprises the step of rotating the cylinder and torque ring until a predetermined stress is reached thereby deforming the material in contact.