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Imaging the Distribution of Reservoir Properties with Time
Not Available The proposed solution to ultra-fast concrete and steel cutting is to simultaneously increase hardness and toughness of a cutting tool. Novel cellular cermet cutting tool inserts offer an order of magnitude increase in cutting rates compared to traditional carbide or ceramic cutting tool inserts. The actual form of a cellular insert will be in form of a coating (between 0.5mm and 1mm thick) on a cutting face of a solid carbide insert. The cellular coating provides the fracture toughness, abrasion resistance, and resistance to chipping, while the solid carbide body underneath provides high flexural and compressive strength. This approach has already been demonstrated in ACR's work on oil well drill inserts with Smith International of Houston, TX, a leading manufacturer of oil exploration equipment. This collaboration has led to the development of drill inserts that allow well drilling in rock formations that were previously considered to be impossible to drill, such as granite. Both laboratory and field testing of novel cellular cermet drill bit inserts have demonstrated that a new paradigm in abrasive cutting is achievable through careful engineering of the microstructure of a cutting tool. More importantly, novel cellular cutting inserts can be effectively and inexpensively integrated into traditional portable devices, such as circular or chain saws.
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