The Matrix or Bond

To be able to hold the diamond grit in place is the fundamental factor that contributes to the performance of the diamond blade. The bond is a result of creating a strong holding matrix designed with a varying degree of hardness and abrasion resistance. Various metals with different hardness and characteristics are used, such as, Copper, Cobalt, Aluminium, Tungsten, Iron, Manganese, bronze and many other rare earth metals. Varying micron sizes and grades of these rare earth metals in a powder form are bonded together with the diamond to form the segment, depending on the application, (this is called Powder Technology).

The varying strength of the bond depends upon the chosen application, holds each diamond in place within the diamond cutting segment, and this provides the cutting or grinding section of the product. As the cutting commences, calculated erosion of the bond takes place exposing the diamond. This is critical to the overall performance of the cutting or grinding action.

As the bond wears in a controlled manner, the support for each diamond crystal is removed and the worn or blunt diamond breaks out, which in turn exposes a new diamond crystal to continue the cutting action. This should happen in conjunction with the original diamond becoming blunt. This wear characteristic of the bond should determine the speed of cut and product life. The abrasive nature of the product being cut determines the hardness of the bond. For instance a product intended to cut hard engineering brick will have more bronze in the bond, since the application is not abrasive and the bond will need to be soft enough to wear and expose the diamonds.

On the other hand a segment cutting asphalt would have more Tungsten within its bond because it will have to withstand premature wear rates attributable to the abrasive nature of the aggregates and petrological substances within the asphalt. If a blade is used on the wrong application, either the product will wear too quickly or "glaze over" which means there is no diamond exposure, so the product will not cut. (In general terms, hard but less abrasive aggregates and sand require softer bonds. Softer but more abrasive aggregates and sand require harder bonds). See Fault diagnosis for a diagram on "Blade not cutting".