Resistance spot welding method and weld member production method

The invention claimed is: 1. A resistance spot welding method for joining parts to be welded, the parts to be welded comprising a plurality of overlapping metal sheets, the method comprising: squeezing the parts to be welded by a pair of electrodes; passing a welding current through the parts to be welded while applying an electrode force thereto, wherein said passing the welding current comprises a main current passage, the main current passage including a first electrode force application step and a second electrode force application step following the first electrode force application step, wherein an electrode force F 1 applied during the first electrode force application step and an electrode force F 2 applied during the second electrode force application step satisfy a relationship F 1 <F 2 ; and dynamically determining and setting an electrode force switching point T f for transitioning from the first electrode force application step to the second electrode force application step during the main current passage, said step of dynamically determining and setting T f comprising: (i) obtaining a reference electrode force switching point T 0 , a total welding time T m for the main current passage, a first time integration value R A representing a time integration of a resistance between the electrodes from a start of the main current passage up to the reference electrode force switching point T 0 for a current weld, and a second time integration value R 0 representing a time integration of a resistance between the electrodes from the start of the main current passage up to the reference electrode force switching point T 0 when current passage is performed under a same welding condition as the main current passage for the current weld but when the parts to be welded are substantially free of disturbance; (ii) determining a time T A at which a time integration value of the resistance between the electrodes in the main current passage for the current weld reaches the second time integration value R 0 ; and (iii) setting the electrode force switching point T f based upon comparing T A to T 0 or R A to R 0 as follows: (1) if T A ≤0.8×T 0 , then setting T f such that T A ≤T f <T 0 ; (2) if 0.8×T 0 <T A ≤T 0 or 0.9×R 0 ≤R A ≤R 0 , then setting T f such that 0.9×T 0 <T f <1.1×T 0 ; or (3) if R A <0.9×R 0 , then setting T f such that T 0 <T f ≤T 0 +2×(R 0 −R A )/R 0 ×T m . 2. The resistance spot welding method according to claim 1 , wherein the reference electrode force switching point T 0 satisfies the following formula: 0.1× T m ≤T 0 ≤0.8× T m . 3. The resistance spot welding method according to claim 1 , comprising: performing test welding; and performing actual welding including the main current passage, after the test welding, wherein in main current passage in the test welding, a time variation curve of an instantaneous amount of heat generated per unit volume and a cumulative amount of heat generated per unit volume that are calculated from an electrical property between the electrodes in forming an appropriate nugget by performing current passage by constant current control are stored, and in the main current passage in the actual welding, the time variation curve of the instantaneous amount of heat generated per unit volume and the cumulative amount of heat generated per unit volume that are stored in the main current passage in the test welding are set as a target, and a current passage amount is controlled according to the target. 4. A method of producing a weld member, comprising providing a plurality of overlapping metal sheets, and joining the plurality of overlapping metal sheets by performing the resistance spot welding method according to claim 1 to produce the weld member. 5. The resistance spot welding method according to claim 2 , comprising: performing test welding; and performing actual welding including the main current passage, after the test welding, wherein in main current passage in the test welding, a time variation curve of an instantaneous amount of heat generated per unit volume and a cumulative amount of heat generated per unit volume that are calculated from an electrical property between the electrodes in forming an appropriate nugget by performing current passage by constant current control are stored, and in the main current passage in the actual welding, the time variation curve of the instantaneous amount of heat generated per unit volume and the cumulative amount of heat generated per unit volume that are stored in the main current passage in the test welding are set as a target, and a current passage amount is controlled according to the target. 6. A method of producing a weld member, comprising providing a plurality of overlapping metal sheets, and joining the plurality of overlapping metal sheets by performing the resistance spot welding method according to claim 2 to produce the weld member. 7. A method of producing a weld member, comprising providing a plurality of overlapping metal sheets, and joining the plurality of overlapping metal sheets by performing the resistance spot welding method according to claim 3 to produce the weld member. 8. A method of producing a weld member, comprising providing a plurality of overlapping metal sheets, and joining the plurality of overlapping metal sheets by performing the resistance spot welding method according to claim 5 to produce the weld member.