In today’s world, technology is making more and more tasks much easier. This is particularly true regarding lasers, which are revolutionizing many industries. From medical research to space technology and various types of manufacturing, lasers are making the workplace more efficient in ways never thought possible only a few years ago. As a result, industries the world over now have many more possibilities available to them when manufacturing products. To learn more about how lasers can increase workplace productivity from the smallest machine shop to the largest manufacturing plant, here are some innovations that might surprise you.
To be as efficient as possible, a company needs to make sure it turns out quality products or services the first time. Since time lost equals money lost in the business world, it’s imperative to get the job done right from the beginning. Lasers now make this more possible than ever, since they allow for extremely precise measurements during the design process, often within a millimeter. Used extensively on construction sites as well as in manufacturing environments, lasers allow for precise fittings and measurements, eliminating the need for simply eyeballing and guessing, which can be extremely inefficient.
As laser technology has found its way into more and more work situations, it has allowed many companies to use fewer workers to complete certain tasks. From machine shops to construction sites, companies can now often use only one worker to take measurements, set up machinery, and manufacture products. By doing so, project managers and supervisors can use workers for other tasks, enabling them to increase efficiency and productivity.
Before laser technology was implemented in many industries, it took much longer to complete jobs or manufacture certain products. But as lasers have become part of the workplace, that has changed. For example, construction companies can make measurements much faster, enabling them to have quicker turnaround times for drawings. And along with this, lasers can also greatly reduce weather delays on outside projects, since most are now made to be weatherproof.
Improved Operations and Maintenance
In manufacturing environments, one of the biggest problems involves downtime when equipment breaks down. However, in many of today’s machine shops, lasers are now not only part of most sophisticated machinery, but are also used by maintenance personnel to detect small problems before they become major ones that result in broken equipment. By being able to use lasers, maintenance technicians can examine machinery to determine if parts are becoming worn out, enabling them to repair or replace parts and keep equipment functioning without risk of downtime.
By increasing productivity, lasers are now viewed by most companies as smart investments. While the initial cost of the technology can be thousands or even millions of dollars, the lasers often pay for themselves in the years ahead. Not only do they allow for quicker completion of jobs and the ability to keep equipment running before it unexpectedly breaks down in the middle of production, but lasers also help control payroll costs by needing fewer workers on the job, eliminate cost overruns, and decrease wastage.
A Variety of Materials
As lasers have been used in more manufacturing environments, the technology has been adapted to many different types of materials. As a result, productivity has increased substantially, due to the technology now being able to work with virtually any type of material used in manufacturing. In these situations, ultrashort pulsed lasers are often the technology of choice, since they are used extensively in solar technology as well as the cutting and drilling of micro components used in medical devices, computers, communication devices, and other products.
As this technology continues to grow, there is little doubt it will find its way into more and more aspects of manufacturing and other industries. From helping develop parts for the next innovative space exploration rocket to allowing construction personnel to measure a site much faster than in years past, laser technology is clearly not only an innovative tool to be used now, but also in the months and years ahead.