Coiled and non-coiled twisted polymer fiber torsional and tensile actuators

What is claimed is: 1. A thermally-powered coiled polymer fiber tensile actuator comprising a twisted, chain-oriented polymer fiber in the shape of a coil, wherein (a) the thermally-powered coiled polymer fiber tensile actuator has a first length at a first temperature at an applied load; (b) the thermally-powered coiled polymer fiber tensile actuator has a second length at a second temperature at the applied load; (c) the first length and the second length are different in length by at least 5%; (d) the thermally-powered coiled polymer fiber tensile actuator is operable to reversibly change back and forth between the first length and the second length by changing temperature between the first temperature and the second temperature at the applied load; and (e) the thermally-powered coiled polymer fiber tensile actuator is a thermally-powered, non-electrochemical coiled polymer fiber tensile actuator. 2. The thermally-powered coiled polymer fiber tensile actuator of claim 1 comprising a first end and a second end, wherein the first end and second end of the thermally-powered coiled polymer fiber tensile actuator are torsionally tethered to prohibit relative rotation between the first end and the second end of the thermally-powered coiled polymer fiber tensile actuator during actuation of the thermally-powered coiled polymer fiber actuator. 3. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , further comprising a medium to decrease the cooling time to reverse actuation, wherein the medium is selected from a group consisting of (i) a helium-containing atmosphere, (ii) a hydrogen-containing atmosphere, (iii) a water bath, and (iv) a flowing fluid. 4. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , in which the twisted polymer fiber comprises a polymer fiber selected from a group consisting of nylon 6, nylon 6,6, polyethylene, polyvinylidene fluoride, and combinations thereof. 5. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , wherein the thermally-powered coiled polymer fiber tensile actuator is a thermally powered multi-ply polymer fiber tensile actuator comprising at least two of the twisted chain-oriented polymer fibers that are plied together, wherein (a) each of the at least two of the twisted, chain-oriented polymer fibers comprises single or multifilament chain-oriented polymer fibers; (b) each of the at least two of the twisted single or multifilament chain-oriented polymer fibers have twist in a first direction; (c) the ply of the at least two twisted single or multifilament chain-oriented polymer fibers is in a second direction; (d) the first direction and the second direction are opposite directions; (e) the thermally-actuating multi-ply polymer fiber tensile actuator is substantially torque balanced; and (f) the thermally-actuating multi-ply polymer fiber tensile actuator is operable to change in length by at least 5% by a change in temperature. 6. A textile or braid comprising more than one thermally-actuating multi-ply polymer fiber tensile actuators of claim 5 , wherein the textile or the braid is operable for thermally actuating in substantial part because of the thermally-actuating multi-ply polymer fiber tensile actuators. 7. The textile or braid of claim 6 , (a) wherein the textile or braid is operable to thermally actuate to accomplish an actuation selected from the group consisting of (1) accomplish mechanical work, (2) generate a force, (3) change textile or braid dimensions, (4) open and close textile or braid porosity, and (5) combinations thereof, in response to temperature changes, and (b) the temperature changes can correspond to ambient temperature changes or temperature changes that result from electrical or photothermal heating. 8. An article comprising a thermally-actuating coiled polymer fiber tensile actuator of claim 1 , wherein the article is selected from a group consisting of (i) a textile or braid, (ii) a mechanical mechanism for opening and closing shutters or blinds to regulate light transmission or air flow, (iii) a mechanical drive for a medical device or toy, (iv) a macro- or micro-sized pump, valve drive, or fluidic mixer, (v) a mechanical relay for opening and closing an electronic circuit or opening and closing a lock, (vi) a torsional drive for a rotating electrode used in highly sensitive electrochemical analyte analysis, (vii) a mechanical drive for an optical device, (viii) a mechanical drive for an optical device that opens and closes an optical shutter, translates or rotates a lens or light diffuser, provides deformation that changes the focal length of a compliant lens, or rotates or translates pixels on a display to provide a changing image on the display, (ix) a mechanical drive that provides tactile information, (x) a mechanical drive that provide tactile information for a haptic device in a surgeons glove or a Braille display, (xi) a mechanical drive system for a smart surface that enables change in surface structure, (xii) a mechanical drive system for an exoskeleton, prosthetic limb, or robot, (xiii) a mechanical drive system for providing realistic facial expressions for humanoid robots, (xiv) smart packaging for temperature sensitive materials that opens and closes vents or changes porosity in response to ambient temperature, (xv) a mechanical system that opens or closes a valve in response to ambient temperature or a temperature resulting from photothermal heating, (xvi) a mechanical drive using photothermal heating or electrical heating that controls the orientation of solar cells with respect to the direction of the sun, (xvii) a micro device that is photo-thermally actuated, (xviii) a thermally or photothermally actuated energy harvester that uses fluctuations in temperature to produce mechanical energy that is harvested as electrical energy, (xix) a close-fitting garment, wherein thermal actuation is used to facilitate entry into the garment, (xx) a device for providing adjustable compliance, wherein the adjustable compliance is provided by electrothermal actuation, and (xxi) a translational or rotational positioner. 9. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , wherein the first length and the second length are different in length by at least 10%. 10. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , wherein difference in temperature between the first temperature and the second temperature is at most 100° C. 11. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , wherein the twisted, chain-oriented polymer fiber has polymer chains on the surface that are preferentially aligned along a direction having an angle of at least 20° relative to the axis of the twisted, chain-oriented polymer fiber. 12. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , wherein (a) the coil has a first chirality, (b) the twisted fiber has a second chirality, and (c) the first chiralities and the second chiralities are the same. 13. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , wherein (a) the coil has a first chirality, (b) the twisted fiber has a second chirality, and (c) the first chiralities and the second chiralities are opposite. 14. The thermally-powered coiled polymer fiber tensile actuator of claim 1 , wherein the thermally-powered coiled polymer fiber actuator has a spring index that is at most 1.7. 15. A process comprising: (a) selecting a high-strength, highly-chain-oriented, precursor polymer fiber, wherein the precursor polymer fiber is single-filament or mu