Differential lateral stiffness armrest

What is claimed is: 1. A vehicle armrest assembly, comprising: an armrest defining a mounting recess on an outboard side of the armrest; a spring positioned in the mounting recess; and a mounting pin configured to affix the armrest and spring to a seat back through the mounting recess, wherein the mounting pin has a shaft that passes through an aperture of the spring, and wherein the armrest is adapted to respond to an outboard force by non-destructively moving outward from a standard position and return to the standard position upon removal of the force. 2. The vehicle armrest assembly of claim 1 , wherein the mounting recess is a substantially cylindrically shaped inset that is asymmetrically shallower in the rearward portion and deeper at the forward edge, forming an angled, substantially flat, inner surface, and wherein a bearing end of the spring abuts the inner surface. 3. The vehicle armrest assembly of claim 1 , wherein the mounting pin has a head on an outboard end and a fastening tip on the seat back end, and wherein a bearing end of the spring abuts an underside of the head. 4. The vehicle armrest assembly of claim 1 , wherein the mounting pin has a shaft that passes through a coil of a helical wire spring. 5. The vehicle armrest assembly of claim 1 , wherein a threshold outboard force is needed to move the armrest, and wherein the threshold force is between 200-500 N. 6. The vehicle armrest assembly of claim 1 , wherein the armrest is configured to non-destructively move up to 60 degrees in the outboard direction. 7. The vehicle armrest assembly of claim 1 , wherein the armrest is configured to non-destructively move up to 45 degrees in the outboard direction. 8. The vehicle armrest assembly of claim 1 , wherein the spring is a compression spring. 9. The vehicle armrest assembly of claim 1 , wherein the force required to move the armrest in an outboard direction is less than half the force required to move the armrest in an inboard direction. 10. A method of supporting a pivotable armrest from a seat back in a vehicle, comprising: providing an armrest body with a mounting recess; inserting a spring and mounting pin into the mounting recess; fastening the mounting pin to the seat back, wherein the mounting pin has a head on an outboard end and a fastening tip on the seat back end, and wherein a bearing end of the spring abuts an underside of the head; whereby an outboard force on the armrest body compresses the spring, non-destructively angling the armrest body outward, from a standard position, and returning the armrest to the standard position upon removal of the force. 11. A vehicle armrest assembly, comprising: an armrest defining a mounting recess on an outboard side of the armrest; a spring positioned in the mounting recess; and a mounting pin configured to affix the armrest and spring to a seat back through the mounting recess, wherein the mounting pin has a head on an outboard end and a fastening tip on the seat back end, and wherein a bearing end of the spring abuts an underside of the head, and wherein the armrest is adapted to respond to an outboard force by non-destructively moving outward from a standard position and return to the standard position upon removal of the force. 12. The vehicle armrest assembly of claim 11 , wherein the mounting recess is a substantially cylindrically shaped inset that is asymmetrically shallower in the rearward portion and deeper at the forward edge, forming an angled, substantially flat, inner surface, and wherein a bearing end of the spring abuts the inner surface. 13. The vehicle armrest assembly of claim 11 , wherein the mounting pin has a shaft that passes through a coil of a helical wire spring. 14. The vehicle armrest assembly of claim 11 , wherein the mounting pin has a shaft that passes through an aperture of the spring. 15. The vehicle armrest assembly of claim 11 , wherein a threshold outboard force is needed to move the armrest, and wherein the threshold force is between 200-500 N. 16. The vehicle armrest assembly of claim 11 , wherein the armrest is configured to non-destructively move up to 60 degrees in the outboard direction. 17. The vehicle armrest assembly of claim 11 , wherein the armrest is configured to non-destructively move up to 45 degrees in the outboard direction. 18. The vehicle armrest assembly of claim 11 , wherein the spring is a compression spring. 19. The vehicle armrest assembly of claim 11 , wherein the force required to move the armrest in an outboard direction is less than half the force required to move the armrest in an inboard direction. 20. A method of supporting an armrest from a vehicle seat back, comprising: providing a mounting recess in an armrest; inserting a spring and mounting pin into the mounting recess; fastening the mounting pin through an aperture of the spring to the seat back; whereby an outboard force on the armrest compresses the spring, non-destructively angling the armrest outward, from a standard position, and spring decompression returns the armrest to the standard position upon force removal.