3D Printing’s ‘Tipping Point’ May 11, 2016 Additive manufacturing needs to improve its quality and consistency as it assumes a bigger role in manufacturing, advocates of the technology say.
Grinding Gamma Titanium Aluminide August 13, 2015 Titanium aluminides possess many characteristics that make them highly attractive for high-temperature structural applications in automotive and aerospace industries. Their high specific strength, high-temperature stability and oxidation resistance relative to conventional titanium and nickel alloys make them beneficial for use in low-pressure turbine blades for aerospace engines, as well as turbochargers and exhaust values in automotive engines.
3D Printing Orthotic and Prosthetic Devices August 7, 2015 3D printing has become the medium of the new technological revolution as its applications diversify from printing food to weapons, from clothing to industrial products. It is also finding more uses in the medical space, including Orthotics and Prosthetics (O&P).
Shop-Floor Intelligence at Your Fingertips September 1, 2013 Getting fast, accurate data delivered to the palm of your hand is helping drive demand for enterprise resource planning (ERP) software. With the popularity of smartphones and tablets, manufacturers are capitalizing on the ability to get critical factory operational data from ERP, manufacturing execution systems (MES) and enterprise manufacturing intelligence (EMI) applications into the hands of the right decision-makers in a timely manner.
Buckypaper: Whatever Happened to the Aerospace Material of Tomorrow? March 1, 2013 The carbon nanotube sheet shows tantalizing properties for the aerospace industry. Research at HTMI aims to hold it to its promise
Materials for Medical Manufacturing May 1, 2011 Specialized metal alloys, ceramics, thermoplastics and other newer materials continue to aid aging populations
Masters of Manufacturing: M. Eugene Merchant July 1, 2004 M. Eugene Merchant began his career in 1936 at the Cincinnati Milling Machine Co. (later Cincinnati Milacron), where he went to work analyzing the nature of friction between the cutting tool and the chip. The young engineer eventually developed a mathematical model of the metalcutting process that is still taught and used today.