Additive manufacturing system with tunable material properties

What is claimed is: 1. An additive manufacturing system for printing a 3D object, comprising: a feeder configured to accept and feed an object material through the additive manufacturing system, the object material being a material of the 3D object to be printed; a heater or heaters in communication with the feeder, the heaters being configured to receive the object material from the feeder for controlled heating of the object material as the object material passes through the additive manufacturing system; a nozzle configured to receive the object material from the heaters and through which the object material is extruded for depositing the object material onto a build stage; a shear rate tuning mechanism being configured for controlling a shear rate imposed on the object material in one or more directions as the object material passes through the additive manufacturing system; wherein the shear rate tuning mechanism includes an adjustable channel in communication with the nozzle, the channel defines a gap through which the object material flows, and the control or controls selects the size of the gap in order to tune the shear rate imposed on the object material as it passes through the channel; a temperature control mechanism for tuning the melt temperature and solidification of the object material throughout the additive manufacturing system; and a control or controls for operating the shear rate tuning mechanism and the temperature control mechanism in order to impact the localized evolution and final state of molecular orientation throughout the printed 3D object. 2. The additive manufacturing system according to claim 1 , wherein the control or controls are configured to operate the shear rate tuning mechanism and the temperature control mechanism in order to impact the localized evolution and final state of the crystallinity throughout the printed 3D object. 3. The additive manufacturing system according to claim 1 , wherein the object material includes filler components and the control or controls are configured to operate the shear rate tuning mechanism and the temperature control mechanism in order to impact the localized evolution and final state of filler distribution and alignment throughout the printed 3D object. 4. The additive manufacturing system according to claim 1 , wherein the temperature control mechanism includes a heating or cooling device to control the temperature of either a build surface of the build stage or an ambient environment around the object material. 5. The additive manufacturing system according to claim 1 , wherein the adjustable channel includes movable segments movable by the control or controls to the selected gap size. 6. The additive manufacturing system according to claim 5 , wherein the movable segments are movable laterally toward and away from each other to decrease or increase, respectively, a cross-sectional dimension of the channel. 7. The additive manufacturing system according to claim 5 , wherein the movable segments are movable longitudinally toward and away from the nozzle to increase or decrease, respectively, a cross-sectional dimension of the channel. 8. The additive manufacturing system according to claim 1 , wherein the shear rate tuning mechanism further includes an adjustable rotation device of the feeder, and the control or controls selects a rate of rotation of the adjustable rotation device to increase or decrease the speed of flow of the object material from the feeder and through the additive manufacturing system, thereby tuning the shear rate to which the object material is exposed. 9. The additive manufacturing system according to claim 1 , wherein the build stage is movable and the control or controls are configured to move the build stage in concert with the selected rate of rotation. 10. The additive manufacturing system according to claim 8 , wherein the adjustable rotation device includes a set of rotating rollers between which the object material is fed to the heater or heaters. 11. The additive manufacturing system according to claim 1 , wherein the control or controls adjusts the rate of rotation of the set of rotating rollers to increase or decrease the flow speed of the object material and the shear rate imposed on the object material. 12. The additive manufacturing system according to claim 8 , wherein the adjustable rotation device includes a rotatable screw extruder that feeds the object material to the heater and the nozzle. 13. The additive manufacturing system according to claim 1 , wherein the control or controls adjusts the rate of rotation of the rotatable screw extruder to increase or decrease the flow speed of the object material and the shear rate imposed on the object material. 14. The additive manufacturing system according to claim 1 , wherein the shear rate tuning mechanism includes the nozzle which rotates about a longitudinal axis thereof to impose a controlled amount of shear in a circumferential direction on the object material. 15. The additive manufacturing system according to claim 1 , wherein the control or controls selects a rate of rotation of a rotatable nozzle to tune the shear rate imposed on the object material. 16. The additive manufacturing system according to claim 1 , wherein the object material is a polymer, polymer composite, or a polymer with filler. 17. The additive manufacturing system according to claim 1 , wherein the temperature control mechanism includes a temperature bed associated with the build stage. 18. The additive manufacturing system of claim 17 , wherein the temperature bed includes one or more blowers for heating or cooling the object material extruded from the nozzle on the build stage.