Cermet, method for producing cermet, and cutting tool

The invention claimed is: 1. A cermet comprising: hard phase particles containing Ti; and a binding phase containing at least one of Ni and Co, wherein 70% or more of the hard phase particles have a cored structure containing a core and a peripheral portion around the core, the core is composed mainly of at least one of Ti carbide, Ti nitride, and Ti carbonitride, the peripheral portion is composed mainly of a Ti composite compound containing Ti and at least one selected from W, Mo, Ta, Nb, and Cr, the core has an average particle size α, the 70% or more of the hard phase particles have an average particle size β, and α and β satisfy 1.1≦β/α≦1.7, and the hard phase particles in the cermet have an average particle size of 1.0 μm or less. 2. The cermet according to claim 1 , wherein the cermet has a Ti content in the range of 50% to 70% by mass, a W, Mo, Ta, Nb, and Cr content in the range of 15% to 30% by mass, and a Co and Ni content in the range of 15% to 20% by mass. 3. A cutting tool, comprising the cermet according to claim 1 as a substrate. 4. The cutting tool according to claim 3 , wherein at least part of a surface of the substrate is covered with a hard film. 5. The cermet according to claim 1 , wherein the cermet has a thermal conductivity of 20 W/m·K or more. 6. A method for producing cermet, comprising: a preparing step of preparing a first hard phase raw powder containing at least one of Ti carbide, Ti nitride, and Ti carbonitride, a second hard phase raw powder containing at least one selected from W, Mo, Ta, Nb, and Cr, and a binding phase raw powder containing at least one of Co and Ni, a mixing step of mixing the first hard phase raw powder, the second hard phase raw powder, and the binding phase raw powder in an attritor, a shaping step of shaping mixed raw materials prepared in the mixing step, and a sintering step of sintering a shaped body produced in the shaping step, wherein in the mixing step the attritor has a peripheral speed of 100 to 400 m/min, and the mixing time ranges from 0.1 to 5 hours.