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A mesofluidic powered robotic and/or prosthetic finger joint includes a first finger section having at least one mesofluidic actuator in fluid communication with a first actuator, a second mesofluidic actuator in fluid communication with a second actuator and a second prosthetic finger section pivot

A mesofluidic powered robotic and/or prosthetic finger joint includes a first finger section having at least one mesofluidic actuator in fluid communication with a first actuator, a second mesofluidic actuator in fluid communication with a second actuator and a second prosthetic finger section pivotally connected to the first finger section by a joint pivot, wherein the first actuator pivotally cooperates with the second finger to provide a first mechanical advantage relative to the joint point and wherein the second actuator pivotally cooperates with the second finger section to provide a second mechanical advantage relative to the joint point.

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1. A mesofluidic powered finger joint comprising: a first finger section comprising: a first actuator; anda mesofluidic valve in fluid communication with the first actuator, the mesofluidic valve comprising: an inlet port comprising an orifice;an outlet port;a substantially hollow valve body definin

1. A mesofluidic powered finger joint comprising: a first finger section comprising: a first actuator; anda mesofluidic valve in fluid communication with the first actuator, the mesofluidic valve comprising: an inlet port comprising an orifice;an outlet port;a substantially hollow valve body defining a fluid flow path within the valve between the inlet port and the outlet port for fluid to flow from the inlet port to the outlet port;a poppet configured to be engaged or disengaged with the orifice, the fluid being blocked from passing through the orifice when the poppet is engaged with the orifice, and the fluid being permitted to pass through the orifice when the poppet is disengaged with the orifice; anda smart memory alloy wire extending within the valve body along the fluid flow path and operatively coupled to the poppet, the smart memory alloy wire configured to contract in receipt of electrical current to move the poppet from being engaged to disengaged with the orifice for the fluid to flow into the substantially hollow valve body along the fluid flow path; anda second actuator;a second finger section pivotally connected to the first finger section by a joint pivot,wherein the first actuator pivotally cooperates with the second finger section to provide a first mechanical advantage relative to a pivot point of the joint pivot,wherein the second actuator pivotally cooperates with the second finger section to provide a second mechanical advantage relative to the pivot point. 2. The mesofluidic powered finger joint of claim 1, wherein the mesofluidic valve comprises a high pressure, low flow valve. 3. The mesofluidic powered finger joint of claim 2, wherein the high pressure includes pressure greater than a 1000 psi (pounds per square inch), and wherein low flow includes fluid flows of 100 mL/s (milli-Liters per second). 4. The mesofluidic powered finger joint of claim 1, wherein the first actuator and the second actuator comprise pistons that perform a cam action to move the first finger section relative to the second finger section. 5. A mesofluidic powered finger comprising: a first finger section comprising: a first actuator;a first mesofluidic valve in fluid communication with the first actuator, the first mesofluidic valve comprising: an inlet port comprising an orifice;an outlet port;a substantially hollow valve body defining a fluid flow path within the valve between the inlet port and the outlet port for fluid to flow from the inlet port to the outlet port;a poppet configured to be engaged or disengaged with the orifice, the fluid being blocked from passing through the orifice when the poppet is engaged with the orifice, and the fluid being permitted to pass through the orifice when the poppet is disengaged with the orifice; anda smart memory alloy wire extending within the valve body along the fluid flow path and operatively coupled to the poppet, the smart memory alloy wire configured to contract in receipt of electrical current to move the poppet from being engaged to disengaged with the orifice for fluid to flow into the substantially hollow valve body along the fluid flow path; anda second actuator;a second finger section pivotally connected to the first finger section by a first joint pivot,wherein the first actuator pivotally cooperates with the second finger section to provide a first mechanical advantage relative to a joint point of the joint pivot,wherein the second actuator pivotally cooperates with the second finger section to provide a second mechanical advantage relative to the joint point,wherein the second finger section comprises: a third actuator; anda second mesofluidic valve in fluid communication with the third actuator; anda fourth actuator; wherein the mesofluidic powered finger further comprises:a third finger section pivotally connected to the second finger section by a second joint pivot,wherein the third actuator pivotally cooperates with the third finger section to provide a third mechanical advantage relative to the second joint point, andwherein the fourth actuator pivotally cooperates with the third finger section to provide a fourth mechanical advantage relative to the second joint point. 6. The mesofluidic powered finger of claim 5, wherein the first mesofluidic valve and the second mesofluidic valve comprise high pressure, low flow valves. 7. The mesofluidic powered finger of claim 6, wherein the high pressure includes pressure greater than a 1000 psi (pounds per square inch), and wherein low flow includes fluid flows of 100 ml/s (milli-liters per second). 8. The mesofluidic powered finger of claim 5, wherein the third finger section comprises: a fifth actuator;at least one third mesofluidic valve in fluid communication with the fifth actuator; anda sixth actuator. 9. The mesofluidic powered finger of claim 8 further comprising: a finger tip pivotally connected to the third finger section by a third joint pivot, wherein the fifth actuator pivotally cooperates with the finger tip to provide a fifth mechanical advantage relative to the third joint point and wherein the sixth actuator pivotally cooperates with the finger tip to provide a sixth mechanical advantage relative to the third joint point. 10. The mesofluidic powered finger of claim 5, wherein the first actuator, the second actuator, the third actuator, and the fourth actuator comprise pistons and piston bores that are integral parts of the first and second finger sections. 11. The mesofluidic powered finger of claim 1, wherein the first actuator and the second actuator are integral parts of the first finger section. 12. The mesofluidic powered finger of claim 5, wherein the first actuator and the second actuator are integral parts of the first finger section.