Printec USA today announced membrane switch technology for human machine interface,HMI, which can be demonstrated with a unique demo keypad to display many possible applications for embedded infrared and capacitive sensors. The demo keypad is the first tool of its
SOR Inc. now offers pressure and level switches that are SIL (Safety Integrity Level) Certified per IEC 61508. Contact your local SOR® Representative for more details or download the SOR Safety Integrity Level Quick Guide for more information.
We measure the significance of moments in history based on their placement relative to technological advancements. In other words, moments in history draw their significance from their proximity to other significant events and advancements. Our method of periodizing ancient history, for example, confines entire epochs based on the development and use of technologies. Some of the most important examples are these: Copper Age, Bronze Age, Iron Age. The Iron Age was so named for several reasons. First, and perhaps most importantly, historians needed a name for the time that came after what they call the Bronze Age. The fact that civilizations began developing methods of mining, refining and alloying iron around this time is, by itself, not a meaningful development. But its implications for agriculture, warfare and other activities of society were sweeping, so the name has stuck. What will they call our time 3000 years from now? The powder metal parts age?
In 1999, the United States International Trade Commission undertook an investigation into whether or not extruded rubber thread (ERT) imports from Indonesia were causing material injury to an American industry. The Department of Commerce had determined that the threads were being sold in the U.S. at “less than fair value,” which, the committee determined, made it too difficult for American manufacturers of the same products to compete. The Commission decided that Indonesia was indeed “dumping” its extruded rubber thread on the American market. In response, the ITC instructed the DOC to instruct the Customs Service to impose duties on extruded rubber thread imported from Indonesia, effectively raising the price of the product for American buyers and making American-made products less unattractive in the process.
Most of my encounters with quick release couplings involve pressure washers. When I was in high school, I worked at my uncle’s used car dealership between school years one summer. My responsibilities there included removing stickers from other cars, jumping dead batteries, filling flat tires and a myriad of other mundane activities. But my favorite task was washing the cars. Where I live, in the summer time, it gets very hot and very humid. Also, remember that a car windshield is like a magnifying glass for the sun. After a few hours of cleaning coffee stains from the upholstery of cars that have been baking on blacktop all day, the pressure washer starts to look pretty friendly.
A company that designs and manufactures an abundance of standard leak detection instruments and custom leak and assembly verification test systems is a company that likes a challenge. Cincinnati Test Systems (CTS) thrives on the tough product test applications ranging from a variety of industries including: medical, transportation, energy, military, commercial and other consumer markets. Staffed with a team of experienced and knowledgeable employees on every level of operation, CTS is able to provide customers with a professional and friendly sales force, innovative and knowledgeable engineers, and expert application and service support.
Rubber is by no means a new substance, dating back to 1500 B.C., although it is one that has evolved significantly in the last 140 years. This evolution has come from chemical alterations being applied to natural rubber in its molten state, creating specialized versions known as synthetic rubbers. How rubber is formed and manufactured is a parallel evolution, as more efficient and detail oriented techniques, such as rubber molding, are now equally as popular as the rubber extrusion techniques that have been around longer. Technological advancements are changing the face of our world in wonderful ways, including the natural progression occurring with materials such as synthetic rubber and the processes that turn it into useful products, such as rubber molding. However, this evolution does not mean that the older die casting methods and the original substances like natural rubber are forgotten. In this case progression does not wipe out the competition; it only dominates it.
It’s a consequence of the fact that I’ve never participated in a trade or craft that I see the words “tube bending machine” and feel a bit nonplussed. Tube bending machine? Why not just make the tubes bent instead of making them straight and then bending them? I realize that this is the kind of question that someone who has never taken a shop class would ask (shop wasn’t even offered at my high school, as far as I know). Maybe there are machines that exist that can produce bent tubes right from the start. But the fact that there are so many different kinds of tube forming machines on the market, added to the fact that the market for these machines seems quite large, indicates to me that tube fabrication and formation is a counter-intuitively complicated process.
A division of the globally reaching ITT Corporation, KALIBURN Inc. provides industrial control and automation solutions to the motion and flow control market sector. Comprised of complementary product lines BURNY® and KALIBURN®, KALIBURN Inc. has more than 50 years of experience in the field of precision CNC machining, plasma shape cutting and motion control with products such as servo motors, linear actuators, motion controllers and load cells. Originally founded in 1958 as Cleveland Machine Controls Inc., the company acquired the BURNY® metal cutting brand and continued to grow in the metal cutting industry until being purchased by ITT in 2007. KALIBURN®, founded in 1985, was purchased by ITT in 2008. Today, the cohesive group continues to push the boundaries of shape cutting technology by providing its customers with exceptional cut quality and precise motion control.
Quail Electronics, Inc. is a world leader in the power cord industry for a reason. In fact, more then one reason has kept Quail at the top of the domestic and international power cord market. First and foremost is their foundation of knowledge and expertise in the industry. Quail Electronics has been manufacturing and supplying power cords for over 25 years. Providing the best in product quality, service, price and delivery ensures that those purchasing power cords from Quail get exactly what they desire. Whether by phone or by way of their easy-to-navigate and informative website, the team at Quail is devoted to assist every customer with excellence.
During my first year of college, I traveled with a small group of students on a month-long trip to New England to tour the cradle of American literature – Concord, Cambridge, Plymouth and Amherst, among many other places. One of our last stops was in Salem, where we visited the house of seven gables mentioned in Hawthorne’s The House of Seven Gables. After counting the gables and trying not to bang my head on the low ceilings, I dollied over to a nearby wharf where a three-masted East Indiaman merchant ship, Friendship, was moored. I spent about an hour on the wharf, and I recall a few of my thoughts from my time there. First, it is too cold to be outside on a wharf in Salem in January. Second, while it may be true that the best ships are friendships, Friendship seems like an ironic name for a boat from Salem, Massachusetts, home of the Salem witchcraft trials. And third, I found myself wondering how anyone could ever make sense of the absurd complex of ropes that suspended and supported all of the various wooden things poking out from the hull.
If you’re looking for evidence of the creative ability of humans, look no further than screw machine products. I’ll admit that humans’ ability to produce machined fasteners in large quantities probably doesn’t impress most people. But think about the entire timeline of the development of the technology of craftsmanship. The scientific consensus as it pertains to human beings’ achievement of behavioral modernity suggests that as a species, we’ve exhibited reasonable evidence of behavioral modernity for several tens of thousands of years. Even if you don’t subscribe to theories that place the age of our species somewhere around the 150,000 year mark, even a few thousand years ago the scope of our technology was still by and large limited to rubbing sticks together.
As a fully integrated innovator, designer and manufacturer of rare earth magnets, Electron Energy Corporation specializes in both simple and complex magnet assemblies. Our founder, Marlin S. Walmer, saw the potential in utilizing magnets in high power industries and began EEC in 1970. Because of his innovation and dedication, researchers and engineers from around the world gathered at EEC headquarters to develop break-through magnet materials and new applications for them. This progressive attitude towards the magnet and magnet assembly industry has continued to thrive at Electron Energy.
Roll forming is an industrial process that can seem a little cartoony. If you were to look at a long roll forming production line, what you’d see before you might seem like an overly-elaborate, Wiley Coyote sort of contraption. Since I learned what roll forming is, I’ve found myself thinking about it now and then and wondering if there isn’t a better way to accomplish what happens during the roll forming process. That’s not to say that I don’t think it’s amazing and fascinating to learn about. I think it’s probably the most logical, intuitive response to the challenge of forming long metal channels into usable products. But maybe it’s the seeming complicatedness of it that gives me pause.
I don’t know if you’ve heard, but we are killing the earth, one non-recyclable item at a time. Fixing the damage that has been done to our planet since the dawn of the industrial age is no simple task, nor is preventing further destruction when we continue to create products that will sit in landfills for centuries instead of decomposing back into the natural cycle of life. However, in recent years society has caught on to the environmentally friendly attitude that is turning non-recyclable items into recyclable ones, and manufacturers of a variety of products are following suit. One such example is plastic bags, products that are abundant in our shopping nation. The retail industry utilizes plastic bags in every type of store, including grocery, hardware, home furnishing, clothing and toys, to name a few. Versions of these bags are also used in the medical and shipping industry, and they are also used for storage and movement of parts within manufacturing companies of all sorts. With so many uses, most of which require more then one bag at a time, it is no surprise that the creation and utilization of recyclable plastic bags should be a priority.
In an industry where perfection in protection is vital, Compac Development Corporation has built a business that does just that. Since 1976, Compac has been developing EMI/RFI shielded enclosures that fit the needs of each customer like a glove. Because EMI shielding and RFI shielding protect sensitive electronic devices from the damaging interference of other electronic devices, they must be built to the specific dimensions of the object they are protecting. If such dimensions can not be found among the five hundred or so standard sizes provided by Compac, such as the spacious enclosures of their Blank Series, then modifications may be made.
I once worked in an apparel wholesaler’s warehouse for a summer job. During my short tenure there, I had a variety of responsibilities, all of which related to pulling orders from storage shelves and transporting them to the warehouse shipping area. Never having worked in that kind of environment before, a lot of what went on in the warehouse struck me as quite novel. The biggest novelty was my responsibilities, which involved riding an industrial-sized tricycle, complete with oversized storage basket, up and down the rows and aisles of the warehouse. I would stop to pull a certain number of T-shirts or sweatshirts or shorts from a box based on whichever order I was assigned, making sure to ring my bell every time I approached an aisle break in order to avoid collision with a forklift or another tricycle. Later I moved up the ranks to order checker, and eventually I was allowed to pull and check my own orders. Throughout my time in that warehouse, I was struck by the number of things that have to go right in the warehouse in order for customers to get exactly what they asked for.
The belts, conveyor materials, parts and pulleys manufactured by Dura-Belt, Inc. are used in applications worldwide and inevitably affect our day-to-day lives in one way or another. Consumer product conveyors, vibratory feeders, packaging equipment, printing machines and power transmissions are just a few of the important areas in which the company’s products are employed. To supply innovative, high quality belting products has always been and still remains the mission of this reputable company, and today, it is no surprise that Dura-Belt, Inc. is an industry leader. Selling millions of conveyor belts and belt components each year and having the capacity to produce up to 60,000 belts daily, the market influence of the company stretches around the globe. Jim Hammond, known as the “Belt Doctor”, purchased the business in 1991 and proceeded to rename it Dura-Belt, giving it a new lease on life. Hammond brought with him the skill and knowledge of a trained physicist with the personal goal of combining technology and belting to achieve a better quality product. The results speak for themselves.
For people who haven’t thought hard about it, plastic extrusion might not seem like anything special. In fact, it’s likely that few people outside of industry have a firm grasp of the concept of extrusion. In the interest of enriching general public understanding of industry, please consider the following.
What’s the outlook for Georgia manufacturing? There’s good news and bad news. Let’s start with the bad news: October was not a good month for Georgia manufacturing. The Purchasing Managers Index, a monthly survey of manufacturing activity released by Markit Group and the Institute for Supply Management, indicated an index value drop of more than five points in Georgia for the month of October. This drop brought Georgia’s overall PMI to just above 43. Based on the PMI scoring system, any figure below 50 indicates contraction, and any figure above 50 indicates growth. This month’s loss is a continuation of a trend that began two months ago. “It’s not clear why Georgia manufacturing is operating substantially below the level of the national PMI,” noted Don Sabbarese of Kennesaw State University in an interview with the Atlanta Journal-Constitution. Mr. Sabbarese speculated that the causes for Georgia’s poor performance may be related to the weakness of the state’s economic recovery.