Chatter avoidance method and device

What is claimed is: 1. A method for chatter avoidance, comprising steps of: a) providing a stable operating condition plot with a safe removal depth and a condition of a removal tool; b) performing a first part of a removal operation to partially remove a first layer of a workpiece with a predetermined first removal depth of the first layer according to the safe removal depth of the stable operating condition plot, and performing a sensing operation to sense a chatter caused by the removal operation; c) if no chatter is sensed, completing the removal operation; or if a chatter is sensed, continuing to partially remove the first layer of the workpiece with a second removal depth of the first layer less than the predetermined first removal depth of the first layer and sensing a chatter caused by the removal operation, and if a chatter is sensed again, reducing the second removal depth of the first layer and continuing the removal operation and the sensing operation until the first layer of the workpiece is completely removed; d) determining a minimum removal depth of the first layer according to the removal operation of the first layer in step c); and e) removing a last layer of the workpiece with a last removal depth less than or equal to the minimum removal depth, allowing the workpiece to have a target thickness. 2. The method of claim 1 , after step d), further comprising: b1) performing a second part of the removal operation to partially remove a second layer of the workpiece with a predetermined first removal depth of the second layer, and performing a sensing operation to sense a chatter caused by the removal operation; c1) if no chatter is sensed, completing the removal operation; or if a chatter is sensed, continuing to partially remove the second layer of the workpiece with a second removal depth of the second layer and sensing a chatter caused by the removal operation, and if a chatter is sensed again, reducing the second removal depth of the second layer and continuing the removal operation and the sensing operation until the second layer of the workpiece is completely removed; and d1) determining a minimum removal depth of the second layer according to the removal operation of the second layer in step c1), wherein the minimum removal depth in step e) is the minimum removal depth of the second layer. 3. The method of claim 2 , wherein a difference between the predetermined first removal depth of the first layer and the second removal depth of the first layer is greater than a sum of the predetermined first removal depth of the first layer and the predetermined first removal depth of the second layer multiplied by 0.04. 4. The method of claim 3 , further comprising initiating step c1) to remove the second layer of the workpiece, wherein the predetermined first removal depth of the second layer is less than or equal to the minimum removal depth of the first layer. 5. The method of claim 4 , further comprising re-designing an operating path between the first layer and the last layer before initiating the step c1) to remove the second layer of the workpiece. 6. The method of claim 2 , wherein a difference between the predetermined first removal depth of the first layer and the second removal depth of the first layer is less than or equal to a sum of the predetermined first removal depth of the first layer and the predetermined first removal depth of the second layer multiplied by 0.04. 7. The method of claim 6 , wherein when a chatter is sensed, the step c) further comprises continuously reducing the second removal depth of the first layer, partially removing the workpiece with an Nth removal depth of the first layer corresponding to the minimum removal depth of the first layer, and continuously sensing a chatter caused by the removal operation until the first layer is completely removed. 8. The method of claim 7 , wherein a difference between the predetermined first removal depth of the first layer and the Nth removal depth of the first layer is less than the sum of the predetermined first removal depth of the first layer and the predetermined first removal depth of the second layer multiplied by 0.04, and the step c) further comprises partially removing the first layer of the workpiece with the Nth removal depth of the first layer and sensing a chatter caused by the removal operation; if no chatter is sensed, partially removing the workpiece with the Nth removal depth of the first layer until a next-to-the-last layer of the workpiece is removed. 9. The method of claim 7 , wherein a difference between the predetermined first removal depth of the first layer and the Nth removal depth of the first layer is greater than or equal to the sum of the predetermined first removal depth of the first layer and the predetermined first removal depth of the second layer multiplied by 0.04, and the step c) further comprises defining a difference between the predetermined first removal depth of the first layer and the sum of the predetermined first removal depth of the first layer and the predetermined first removal depth of the second layer multiplied by 0.04 as a temporary removal depth, partially removing the workpiece with the temporary removal depth, and sensing a chatter caused by the removal operation. 10. The method of claim 1 , wherein the condition of the removal tool refers to a rotating speed of a shaft of the removal tool, a feeding speed, a condition of a cutter, or any combination thereof. 11. A device for chatter avoidance, comprising: a removal unit configured to partially remove a workpiece; a sensing element configured to sense a chatter when the workpiece is partially removed; a control unit coupled to the removal unit and the sensing element, and configured to receive a chatter signal from the sensing element and control the removal unit according to the chatter signal, wherein according to a stable operating condition plot with a safe removal depth and a condition of a removal tool, the control unit is further configured to perform steps of: a) subjecting the removal unit to perform a first part of a removal operation to partially remove a first layer of the workpiece with a predetermined first removal depth of the first layer according to the safe removal depth of the stable operating condition plot, and subjecting the sensing element to perform a sensing operation to sense a chatter caused by the removal operation; b) if no chatter is sensed, subjecting the removal unit to complete the removal operation; or if a chatter is sensed by the sensing operation of the sensing element, subjecting the removal unit to continue partially removing the first layer of the workpiece with a second removal depth of the first layer less than the predetermined first removal depth of the first layer and subjecting the sensing element to sense a chatter caused by the removal operation, and if a chatter is sensed again, reducing the second removal depth of the first layer and subjecting the removal unit to continue the removal operation and the sensing operation until the first layer of the workpiece is completely removed; and c) determining a minimum removal depth of the first layer according to the removal operation of the first layer in step b); d) subjecting the removal unit to remove a last layer of the workpiece with a last removal depth less than or equal to the minimum removal depth, allowing the workpiece to have a target thickness. 12. The device of claim 11 , wherein after step c), the control unit is further configured to perform steps of: a1) subjecting the removal unit to perform a second part of the removal operation to partially remove a second layer of the work