Influence of High-Speed ECAP on the Structure and Properties of Copper and Copper Alloy of Cu-Cr System
p.344
p.344
Manufacture of Molding Tooling Based on TEIS-53 Heat-Resistant Resin
p.351
p.351
Simulation of a Diamond Grain Interaction with Ceramics Using the Smoothed Particle Galerkin Method
p.357
p.357
Implementation of a Fatigue Fracture Approach to Grinding Wheel Wear Using Numerical Simulation
p.363
p.363
Creation of Grooving and Parting Tools with Cooling Channels Manufactured Using Additive Technologies
p.369
p.369
Additive Technology for Forming Channels with Galvanic-Mechanical Coatings
p.375
p.375
Research on the Mandrel Wear of a Screw Rolling Piercing Mill by the Finite Element Method
p.381
p.381
Influence of Friction Stir Welding Modes of Copper and Aluminum Alloys
p.388
p.388
Influence of the Duration of Current Pulses on the Roughness in the Combined Processing of Corrosion Steel 12H18N10T
p.397
p.397
Creation of Grooving and Parting Tools with Cooling Channels Manufactured Using Additive Technologies
Abstract:
In this paper, we propose designs of grooving and cutting cutters that have internal channels for supplying coolant under high pressure. Due to the fact that drilling of narrow channels in the cutter body is very problematic, the front part of the cutter, which holds the cutting interchangeable carbide plate, is manufactured by an additive method. The back of the cutter (holder) can be manufactured using traditional methods. The design assumes the use of conventional cutting interchangeable carbide plates (ICP), offered by many manufacturers.
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Info:
Periodical:
Key Engineering Materials (Volume 910)
Pages:
369-374
Citation:
Online since:
February 2022
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