Resistance spot welding method and method for manufacturing resistance spot welded joint

The invention claimed is: 1. A resistance spot welding method of squeezing, by a pair of electrodes, a sheet combination in which a thin sheet is overlapped on at least one face of two or more overlapping thick sheets, and passing a current while applying an electrode force to join the sheet combination, the resistance spot welding method comprising: performing test welding; and performing actual welding after the test welding, wherein in each of the test welding and the actual welding, a current pattern is divided into two or more steps including a first current passage step and a second current passage step subsequent to the first current passage step, in the test welding, an amount of time variation of an instantaneous amount of heat generated per unit volume as a time variation curve and a cumulative amount of heat generated per unit volume are stored for each of the current passage steps, both the amount of time variation and the cumulative amount of heat being calculated from an electrical property between the electrodes when forming an appropriate nugget by passing a current by constant current control, and in the actual welding, a current that causes no expulsion is selected to perform welding by constant current control in the first current passage step, and, from the subsequent second current passage step onward, the stored time variation curve is used as a target and, when a time variation of the instantaneous amount of heat generated of the actual welding differs from the stored time variation curve in any current passage step by a difference, adaptive control welding is performed to control a current passage amount in order to compensate for the difference within a remaining welding time in the current passage step so that a cumulative amount of heat generated in the current passage step of the actual welding matches the stored cumulative amount of heat generated in the current passage step of the test welding. 2. The resistance spot welding method according to claim 1 , wherein 0.6Is≤I1≤0.95Is, where I1 is the current in the first current passage step, and Is is a minimum current having a possibility of causing expulsion in absence of disturbances in the first current passage step. 3. The resistance spot welding method according to claim 1 , wherein in the actual welding, an electrode force pattern is divided into two or more steps including a first electrode force application step and a second electrode force application step subsequent to the first electrode force application step, and at least for the first electrode force application step and the second electrode force application step, F 1 <F 2, where F1 is an electrode force in the first electrode force application step, and F2 is an electrode force in the second electrode force application step. 4. The resistance spot welding method according to claim 1 , wherein at least for the first current passage step and the second current passage step in the test welding, I 1′> I 2′, where I1′ is a current in the first current passage step, and I2′ is a current in the second current passage step. 5. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 1 . 6. The resistance spot welding method according to claim 2 , wherein in the actual welding, an electrode force pattern is divided into two or more steps including a first electrode force application step and a second electrode force application step subsequent to the first electrode force application step, and at least for the first electrode force application step and the second electrode force application step, F 1 <F 2, where F1 is an electrode force in the first electrode force application step, and F2 is an electrode force in the second electrode force application step. 7. The resistance spot welding method according to claim 2 , wherein at least for the first current passage step and the second current passage step in the test welding, I 1′> I 2′, where I1′ is a current in the first current passage step, and I2′ is a current in the second current passage step. 8. The resistance spot welding method according to claim 3 , wherein at least for the first current passage step and the second current passage step in the test welding, I 1′> I 2′, where I1′ is a current in the first current passage step, and I2′ is a current in the second current passage step. 9. The resistance spot welding method according to claim 6 , wherein at least for the first current passage step and the second current passage step in the test welding, I 1′> I 2′, where I1′ is a current in the first current passage step, and I2′ is a current in the second current passage step. 10. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 2 . 11. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 3 . 12. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 4 . 13. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 6 . 14. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 7 . 15. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 8 . 16. A method for manufacturing a resistance spot welded joint by the resistance spot welding method according to claim 9 .