Method of achieving very high crown-to-camber ratios on magnetic sliders

Assignee

• Hitachi Global Storage Technologies Netherlands B.V. · NL

Inventors

• Jacey Robert Beaucage · San Jose, US
• Paul Arthur Goddu · معلمی نژاد, US
• Jeffrey P. Gunder · Los Altos, US
• Eduardo Padilla · Hayward, US
• Huey-Ming Tzeng · San Jose, US
• Tsai-Wei Wu · San Jose, US

Key dates

Classification

• Technology area (CPC B)Performing Operations; Transporting
• CPC primaryB24B37/042
• WIPO fieldMachine tools
• WIPO sectorMechanical engineering

Abstract

A method of precisely controlling the amount of flatness or curvature in a lapping plate is disclosed. The lapping plate is formed from two layers of metal alloys, such as tin-antimony and steel. A bimetallic effect is exploited to induce a linear expansion in the plate so that the flatness or curvature of the plate is manipulated with thermal cycling. The plate is machined and charged under very specific and tightly controlled temperatures to produce a very robust, flat plate charge. As temperature cycling induces a linear expansion along a single plane across the plate, the resultant flatness change is scalar with temperature, and can be repeated and controlled. When the plate laps magnetic sliders, the plate can be thermally cycled to produce a conical surface and a high crown-to-camber ratio can be achieved.