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Less Is More In New Abrasives Bond

Grinding wheels remove metal 20% faster and last 30% longer.

From: Date: 2013-12-31 03:07:14Views: 470

Grinding wheels remove metal 20% faster and last 30% longer.

Cutting tool and machine tool technologies tend to leapfrog each other, with one gaining a technological lead before the other catches up and moves ahead. In the field of grinding, the consumable has taken precedence with the launch in May 2013 of Saint-Gobain Abrasives' new bond, Norton Vitrium3.

It is incorporated into the company's latest, high performance, vitrified grinding wheels, which are able to exploit the full capabilities of grinding machines on the market, from top-end models to those of lower power and rigidity. The task of the bond matrix is to hold in place the abrasive grains, which can be of various types from the proprietary Norton Quantum ceramic to conventional aluminium oxide.

The last thing one wants in a grinding wheel is the bond material, despite it being essential to the wheel’s stability. The other two constituents – abrasive and pores – are useful for removing metal from a workpiece and allowing coolant through. The bond, however, only gets in the way of a grinding wheel's functionality. The secret is to ensure that what are essentially particles of vitrified clay, or glass, impact the grinding process as little as possible.

While extremely porous, Vitrium3 is the company’s toughest bond to date, adhering strongly to the grains. It allows the grinding wheels to be light and hence used safely at speeds up to 80 m/sec, even though there is only a small amount of bond material retaining the abrasive. Higher feed rates, spindle speeds and infeed may be employed, significantly increasing productivity.

In addition to raising machining efficiency, the strong bond increases the life of Vitrium3 wheels by up to 30 per cent compared with conventional bonds.Despite the low bond-to-abrasive ratio, grain adhesion and holding power are superior to those of any other bond. Wheel form retention and radius accuracy are significantly improved, reducing dressing time and so minimising wear on the diamond dresser and wheel, increasing the service life of both.

The grinding wheel structure increases exposure of the abrasive grains and improves coolant flow. The wheel is therefore able to discharge swarf more efficiently and grind at a higher metal removal rate. Q' is typically 20 per cent higher than when using wheels made with a conventional bond.

Greater exposure of the grain to the component being machined reduces grinding forces by up to 25 per cent. The power drawn from a machine is lowered by typically 15 per cent, saving energy, and workpiece deflection is reduced, leading to better machining accuracy. These characteristics also permit less rigid and lower power grinding machines to deliver better results.

Grinding pressures and energy consumption are further reduced by decreased interaction between the bond and the component, a consequence of thinner bond posts holding the abrasive grains. An additional advantage is that free flow of coolant through the porous matrix results in efficient chip clearance, avoiding wheel loading and clogging. Grinding burn is practically eliminated, and so too are residual stresses and metallurgical change in the surface of the component.

The versatile wheels are ideal for use across a wide range of industries. Applications include cylindrical grinding of automotive crankshafts and camshafts; gear grinding; surface grinding of linear bearings and mould tools; internal grinding of hydraulic components, bearing tracks and gear bores; and centreless grinding of bearing race ODs (outside diameters), bar and tube.

It is worthwhile bearing in mind that the advantages of Vitrium3 hold true irrespective of the grain and wheel type, be it straight, cylindrical, cup or segmented. Each abrasive has distinct hardness, strength, fracture toughness and impact resistance properties, suitable for different applications. In some of Saint-Gobain Abrasives' more highly engineered grinding wheels, two or more grain types are often combined to achieve specific operational characteristics.

Interestingly, even the air in the Vitrium3 bond is highly engineered, benefitting the environment. When manufacturing the open structure, no pore-inducing chemicals are added to achieve the high level of permeability, unlike with other porous vitrified wheel technologies. Moreover, Vitrium3 is manufactured using a low firing temperature, reducing energy consumption and the bond's carbon footprint. The manufacturing method also eliminates costly process revalidation that is necessary when certain chemicals are included in a grinding wheel mix.

http://www.abrasiveshub.com/industry_news/article/1736/less-is-more-in-new-abrasive-bon/

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