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Comparison of Measurements and Simulations for Machining of Aluminum

Components Of The High Speed Machining Center

The Composite Fabrication & Joining segment features the use of cutting, machining and drilling to fabricate composite parts, as well as, adhesive bonding and mechanical fastening methods for joining composite components.

The Composite Manufacturing Processes segment highlights the numerous methods of producing composite parts, including: manual lay-up, automated lay-up using tape laying machines and fiber placement machines, vacuum bag molding, spray-up, filament winding, pultrusion, and resin transfer molding. The various ways in which composite parts are cured is also presented.

This program explains the basics of composite materials and manufacturing by featuring segments on: composite matrix and reinforcement materials, composite manufacturing processes, and composite fabrication and joining methods. The first segment features the primary types of matrix and reinforcement materials, as well as the various forms in which they are available.

Quality tooling is a fundamental requirement for the manufacture of composite parts. This is due to the fact that every step in the composite part manufacturing process must be tightly controlled to ensure superior material properties and predictable performance in the final product. This Composite Tooling Design program explores the composite materials used for tooling, and tooling design.

The use of compression molding in high volume, high quality composite parts production is featured prominently in this Compression Molding program. The various sheet, thick and bulk molding compounds are detailed as well as mold types used.

Compression Molding of Structural Composites

Computer Aided Manufacturing & Rapid Prototyping Techniques...

This program explains the basics of Computer Numerical Control, or CNC, by featuring segments on: Computer Numerical Control Principles and Computer Numerical Control Programming. The CNC Principles segment highlights the rectangular coordinate system and its use in generating precision tool paths. Integral elements of the rectangular coordinate system are presented, including: program zero, coordinate points, coordinate polarity, the absolute mode, the incremental mode, quadrants, and the various axes of motion. The CNC Programming segment features the step-by-step examination of CNC part program commands and their various letter addresses and numeric values. Also presented are discussions of point-to-point positioning, contouring, interpolation, compensations, special programming features, manual programming, computer-aided part design, or CAD, and computer-aided manufacturing, or CAM.