Materials are important in every industry. But, they're critical to aerospace manufacturers. If companies select the wrong material for a particular application, it can have catastrophic consequences.
The 1920s was a golden age for the automobile in America. Millions of people jumped behind the wheel for the first time and transformed mobility, not to mention just about every facet of life. History may repeat itself during the 2020s. But, this time around, cars will be driving themselves.
Optical fiber is the backbone of today's digital economy. Global financial transactions, high-speed Internet access, online shopping, video gaming and other things that most people take for granted are possible because of thin strands of glass that transmit massive amounts of data every second.
Bearing manufacturers face a plethora of challenges every day, regardless of where they are located and the industries they serve. One such company is Philadelphia-based Kingsbury Inc., which has been around for 108 years, and is recognized as a technological leader in the development of all types of bearings for rotating machinery.
Industry 4.0 and the digital manufacturing revolution are all about collecting - and, more importantly, acting on - data gathered from the assembly process in real time.
In its latest report, BCC Research projects the global drug delivery market to grow to nearly $227.3 billion by 2020, with a compound annual growth rate of 4.9 percent. This is great news for the French company Nemera, which designs and manufactures world-class drug delivery devices for the pharmaceutical industry.
Science writer John Wilford once observed that his articles had to focus on one of these story lines to earn their way into print: "big bang, big bucks, big screwup, or big comeback - and with the Hubble Space Telescope you've got them all." He was right. Since launching into orbit almost 30 years ago, Hubble has gone from the humiliation of "techno turkey" to high-risk recovery to recognition as one of history's most prolific scientific explorers.
Selecting the automated dispensing technology that is the best fit for a specific application is not a decision to be made lightly. This is understandable in light of the many technologies that are available, including the progressive cavity pump, auger valve, time-pressure valve and pneumatic jet valve.
There are many ways to crimp or flare a lip on a cylindrical part. For example, it can be done with a press or an orbital forming machine. However, the problem with those processes, particularly the former, is that they require a good deal of force.