Spring assembly with adhered end caps, damper having spring assemblies with adhered end caps, and method of fabricating a spring assembly with adhered end caps

The invention claimed is: 1. A coil spring assembly, comprising: a coil spring including: a first longitudinal end; and, a second longitudinal end; a first end cap fixedly connected to the first longitudinal end with a first adhesive; and a second end cap fixedly connected to the second longitudinal end with a second adhesive, wherein: the first longitudinal end includes a first planar surface; the first end cap includes a second planar surface fixed to the first planar surface with the first adhesive; the second longitudinal end includes a first planar surface; and, the second end cap includes a second planar surface fixed to the first planar surface of the second longitudinal end with the second adhesive. 2. The coil spring assembly of claim 1 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; and, a radially inner surface facing the helical axis; and, no portion of the first end cap is: in contact with the radially inner surface; and, fixedly connected to the radially inner surface; or, no portion of the second end cap is: in contact with the radially inner surface; and, fixedly connected to the radially inner surface. 3. The coil spring assembly of claim 1 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; and; a radially inner surface facing the helical axis; and, no portion of the first end cap is in contact with the radially inner surface; or, no portion of the second end cap is in contact with the radially inner surface. 4. The coil spring assembly of claim 1 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; a plurality of coil turns; and, a respective space between every pair of coil turns, included in the plurality of coil turns, adjacent to each other in a direction along the helical axis; every coil turn of the coil spring is included in a respective pair of coil turns; and, one of the first end cap or the second end cap is displaceable, with respect to the other of the first end cap or the second end cap, along the helical axis to: increase every respective space; or, decrease every respective space. 5. The coil spring assembly of claim 1 , wherein: the coil spring includes a helical axis between the first longitudinal end and the second longitudinal end; the first longitudinal end includes a first planar surface fixed to the first end cap with the first adhesive; the second longitudinal end includes a second planar surface fixed to the second end cap with the second adhesive; and, no portion of the first end cap extends past the first planar surface along the helical axis and toward the second longitudinal end; or, no portion of the second end cap extends past the second planar surface along the helical axis and toward the first longitudinal end. 6. The coil spring of claim 1 , wherein: the coil spring includes a helical axis between the first longitudinal end and the second longitudinal end; and no line, orthogonal to the helical axis, intersects: the coil spring and the first end cap; or, the coil spring and the second end cap. 7. The coil spring assembly of claim 1 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; and, a radially inner surface facing the helical axis; and, the first end cap includes at least one protrusion in contact with the radially inner surface and centering the first end cap with respect to the radially inner surface; or, the second end cap includes at least one protrusion in contact with the radially inner surface and centering the second end cap with respect to the radially inner surface. 8. The coil spring assembly of claim 7 , wherein: the first end cap includes the at least one protrusion and the at least one protrusion is not fixedly connected to the radially inner surface; or, the second end cap includes the at least one protrusion and the at least one protrusion is not fixedly connected to the radially inner surface. 9. The coil spring assembly of claim 1 , wherein: the coil spring is an arc coil spring; or, the coil spring is a straight coil spring. 10. A vibration damper, comprising: an input arranged to receive torque; an output arranged to transmit the torque; and, a plurality of coil spring assemblies arranged to transmit the torque from the input to the output, each coil spring assembly including: a coil spring including: a first longitudinal end; a second longitudinal end; a first end cap fixedly connected to the first longitudinal end with a first adhesive; and, a second end cap fixedly connected to the second longitudinal end with a second adhesive. 11. The vibration damper of claim 10 , wherein: the vibration damper is disposed in a torque converter; the torque converter includes: a cover arranged to receive the torque; an impeller non-rotatably connected to the cover; and, a turbine in fluid communication with the impeller. 12. The vibration damper of claim 10 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; and a radially inner surface facing the helical axis; no portion of the first end cap is in contact with the radially inner surface; or, no portion of the second end cap is in contact with the radially inner surface. 13. The vibration damper of claim 10 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; and a radially inner surface facing the helical axis; and, no portion of the first end cap is: in contact with the radially inner surface; and, fixedly connected to the radially inner surface; or, no portion of the second end cap is: in contact with the radially inner surface; and, fixedly connected to the radially inner surface. 14. The vibration damper of claim 10 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; and a radially inner surface facing the helical axis; and, the first end cap includes at least one protrusion in contact with the radially inner surface and centering the first end cap with respect to the radially inner surface; or, the second end cap includes at least one protrusion in contact with the radially inner surface and centering the second end cap with respect to the radially inner surface. 15. The vibration damper of claim 10 , wherein: the coil spring includes: a helical axis between the first longitudinal end and the second longitudinal end; a plurality of coil turns; and, a respective space between every pair of coil turns, included in the plurality of coil turns, adjacent to each other in a direction along the helical axis; every coil turn of the coil spring is included in a respective pair of coil turns; and, one of the first end cap or the second end cap is displaceable, with respect to the other of the first end cap or the second end cap, along the helical axis to: increase every respective space; or, decrease every respective space. 16. A method of fabricating a coil spring assembly, comprising: fixedly connecting, with a first adhesive, a first end cap to a first longitudinal end of a coil spring; and, fixedly connecting, with a second adhesive, a second end cap to a second longitudinal end of the coil spring, wherein: fixedly connecting,