Rechargeable battery and manufacturing method thereof

What is claimed is: 1. A rechargeable battery comprising: a case; an electrode assembly in the case; and a terminal electrically connected to the electrode assembly and passing through the case, wherein the electrode assembly comprises an electrode plate comprising a current collector plate, a coating portion having an electrically active material coated on the current collector plate, a non-coating portion formed at an edge of the current collector plate and not coated with the electrically active material, a cutting portion inwardly formed from the non-coating portion, and a curved portion formed along the cutting portion in a thickness direction of the non-coating portion. 2. The rechargeable battery of claim 1 , wherein the curved portion has a circular or oval section perpendicular to a lengthwise direction of the cutting portion. 3. The rechargeable battery of claim 1 , wherein each of the cutting portion and the curved portion is bent at least one time. 4. The rechargeable battery of claim 1 , wherein each of the cutting portion and the curved portion is “u” shaped. 5. The rechargeable battery of claim 1 , wherein the cutting portion comprises a plurality of cutting portions spaced apart from each other, and a tab outwardly extends from the non-coating portion between a pair of spaced-apart cutting portions among the plurality of cutting portions and is electrically connected to the terminal. 6. The rechargeable battery of claim 5 , wherein the curved portion is at opposite ends of the tab. 7. The rechargeable battery of claim 1 , wherein a thickness of the curved portion is 1 to 4 times greater than a thickness of the current collector plate. 8. A rechargeable battery comprising: a case; an electrode assembly in the case; and a terminal electrically connected to the electrode assembly and passing through the case, wherein the electrode assembly comprises: an electrode plate comprising a current collector plate, a coating portion having an electrically active material coated on the current collector plate, a non-coating portion formed at an edge of the current collector plate and not coated with the electrically active material, a cutting portion inwardly formed from the non-coating portion, and a curved portion formed along the cutting portion in a thickness direction of the non-coating portion, and wherein the curved portion is covered by a ceramic layer. 9. A manufacturing method of a rechargeable battery, the manufacturing method comprising: preparing an electrode plate including a current collector plate, a coating portion formed by coating an electrically active material on the current collector plate, and a non-coating portion formed at an edge of the current collector plate and not coated with the electrically active material; and forming a cutting portion by irradiating continuous wave laser beams into the non-coating portion to form a curved portion along the cutting portion in a thickness direction of the non-coating portion. 10. The manufacturing method of claim 9 , wherein when the current collector plate is made of aluminum or an aluminum alloy, the continuous wave laser beams have energy ranging from 19 cal/s to 119 cal/s and a moving speed ranging from 100 mm/s to 5000 mm/s. 11. The manufacturing method of claim 9 , wherein when the current collector plate is made of copper or a copper alloy, the continuous wave laser beams have energy ranging from 47 cal/s to 143 cal/s and a moving speed ranging from 100 mm/s to 9000 mm/s.