Ion-exchange processing produce a compressive stress profile in glass surface and this kind of glass is called chemically strengthened glass or ion-exchanged glass. Residual compressive stress increase the glass strength, crack and scratch resistance, but also cause chemically strengthened glass is more difficult to scribe, especially the glass with depth of layer more than 23 μm. In this study, scribing three different kinds of chemically strengthened glass (depth of layer 10 μm, 23 μm, 40 μm) are discussed. For chemically strengthened glass with depth of layer 10 μm, glass can be successfully separated with standard scribing wheel and still maintain good surface and cross-section condition after scribing. On scribing depth of layer 23 μm glass, traditional scribing is unable to effectively separate the glass. By adding vibration assisted, glass can be successfully separated and with good surface and cross-section condition in the case of square wave form, low frequency and low amplitude. Scribing chemically strengthened glass with depth of layer 40 μm, lateral crack will generate very easily, causing seriously chipping. Scribing with wheel angle 115˚ and high loading can successfully induce the glass separated because heavily chipping cause compressive layer in the glass surface dropping off. Vibration assisted scribing can successfully improve surface chipping on the condition of square wave form, low amplitude, and frequency of 400 Hz.