Chapter 7, Metal theory – Smithy Midas 1220 LTD User Manual

Chapter 7

Metal Theory

Tool sharpness

Instead of being the all-important factor in determining tool performance, keenness of

the cutting edge is just one of many factors. On rough or heavy cuts, it is far less

important than strength, because a false cutting edge or crust usually builds up on the

tool edge, and though the edge dulls, its angle often increases the cutting tool's

efficiency by increasing its wedging action. Cutter shape is usually more important than

edges, which generally are rough-ground and usually must be honed for fine finishing

cuts or work in soft, ductile materials like brass or aluminum.

Lack of clearance, which lets a tool drag on the work below the cutting edge, is a brake

on the lathe, greatly reducing pressure on the cutting point and interfering with tool

performance more than edge dullness. At the same time, excessive clearance weakens a

tool because of insufficient support to the cutting edge. Such an edge will break off if you

use the tool on hard materials.

Clearance requirements change with almost every operation, but there are certain

standards for all aspects of the cutting tool. You must not only provide clearance from the

cutting edge; there must also be end and side clearance. To help the chip pass with

minimum resistance across the top of the tool, it should often have top rake as well. You

determine the shapes and rakes to which you'll grind your tools by the tool holder you

use. TheCB-1220 XL LTD have a four-sided turret toolpost that accommodates four

high-speed-steel (HSS), carbide-tipped, or indexable carbide turning tools.

Heat

The energy expended at the lathe's cutting point converts largely into heat, and because

the energy expended is great, the heat is intense. Before today's HSS, carbide, and

ceramic tools, this heat created a serious machining problem. Machining could be done

only under a steady flow of coolant, which kept the tool from heating to its annealing

point, softening, and breaking down.

With HSS, you can usually cut dry unless a small lathe is running at extremely high speeds

on continuous, heavy-duty production work. HSS tools are self-hardening even when red

hot. They do not dissipate the heat, however, or in any way prevent the workpiece from

heating up. Because steel expands when heated, it is a good idea, especially when

working on long shafts, to check the tightness of the lathe centers frequently and make

sure workpiece expansion does not cause centers to bind.

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