Secondly, there is one kind of LED soft filament, which is similar to the structure of the above-mentioned LED hard filament and is employed a flexible printed circuit substrate (hereinafter referred to FPC) instead of the glass substrate to enable the LED filament having a certain degree of bending. However, by utilizing the LED soft filament made of the FPC, the FPC has a thermal expansion coefficient different from that of the silicon gel coated covering the LED soft filament, and the long-term use causes the displacement or even degumming of the LED chips. Moreover, the FPC may not beneficial to flexible adjustment of the process conditions and the like. Besides, during bending the LED soft filament it has a challenge in the stability of the metal wire bonded between LED chips. When the arrangement of the LED chips in the LED soft filament is dense, if the adjacent LED chips are connected by means of metal wire bonding, it is easy to cause the stress to be concentrated on a specific part of the LED soft filament when the LED soft filament is bent, thereby the metal wire bonding between the LED chips are damaged and even broken.
In addition, the LED filament is generally disposed inside the LED light bulb, and in order to present the aesthetic appearance and also to make the illumination of the LED filament more uniform and widespread, the LED filament is bent to exhibit a plurality of curves. Since the LED chips are arranged in the LED filaments, and the LED chips are relatively hard objects, it is difficult for the LED filaments to be bent into a desired shape. Moreover, the LED filament is also prone to cracks due to stress concentration during bending.