Manufacturing Restructures for Composite Aircraft, (SME Aerospace and Defense 2006, Mark Logan, Cincinnati Technologies). A revolution in aircraft manufacturing, 25 years in the making, is reaching critical mass.
Machining Capacity, Expertise Must Grow, (SME Aerospace and Defense 2006, Dan Cooper, Cincinnati Technologies). Titanium brings tremendous properties to aircraft design and manufacturing - light weight, great stiffness, strength, heat and fatigue-resistance.
A/B Rotary Head Turns Heads, (Modern Machine Shop, March 2004)
What sets Cincinnati's HyperMach machine apart is its A/B rotary head module. Driven by twin ballscrews, the head is compact and exceptionally stiff for accurate, high-speed machining.
New Rules, New Game, (Manufacturing Engineering, March 2004; Jim Watkins, MAG Cincinnati)
Success in the changing aerospace industry will require a look at first principles, and an understanding of the impact of new materials on traditional production methods.
Advanced Technology Tape Laying for Affordable Manufacturing of Large Composite Structures, (Michael N. Grimshaw, MAG Cincinnati; Carroll G. Grant, MAG Cincinnati; Jose Manuel Luna Diaz, CASA)
Fiber Placement - A Unique Process Combining Filament Winding and Tape Laying, (Don O. Evans, MAG Cincinnati)
Tape Laying - A Mature Process for Both Commercial and Military Aircraft Applications, (Michael N. Grimshaw, Cincinnati Lamb)
Cutting Dynamics of High Speed Machining, (Dr. Sinan Badrawy, MAG Cincinnati)
Machine Tool Structural Modeling and Simulation, (Robert E. Schorry, MAG Cincinnati)
Compensation for Thermal Effects, (Satish Shivaswamy, MAG Cincinnati)
