The potential benefit of functionally integrated components made of steel and aluminum has sparked global research in methods to weld these two dissimilar staple metals for many years. The ability to leverage steel and aluminum alloys in mixed metallic components could dramatically reduce the weight of automobiles and planes without sacrificing mechanical strength, and offers consumer and medical device [...] Read More
Without the right laser choices and expertise a job shop might set you up to accept limitations you might not have to, take twice as long to process a job, could aid in you failing incoming visual inspections, provide limited bond strength, and ultimately create lower yields and higher costs. “Trying it” on an ill-equipped laser, in other words, is not something you want to endure.
But [...] Read More
Compared to silk screen printing, vibro or dot peening, machine routing, and chemical etching, laser marking is a faster, cleaner, and more versatile etching and marking approach.
When selecting a marking method, manufacturers need to consider the key factors important to them, which are often driven by market forces or the type of application in which they are invested. Durability of [...] Read More
Next year will mark the 50th anniversary of the laser as a manufacturing production tool. Invented in 1960, the laser was introduced to the plant floor just five years later when the first production laser-cutting machine was used to drill holes in diamond dies. But even though lasers have had a long and successful history in manufacturing, people still have a lot of questions about them in that role. [...] Read More
If you are a product manufacturer how do you know which technology is a better way to cut your materials: laser cutting or water jet cutting? (We’ll cover the relative merits of a third technology, die cutting, in our next blog article.) As with most things in life, no one answer fits every situation. The thickness of the material to be cut, your cost and timing requirements, and the desired [...] Read More
From bio implants, to surgical instruments, to lab equipment, and more, a wide range of products in the medical field have very similar requirements when it comes to welding medical devices.
Here’s a question: If you manufacture devices, tools, instruments, or appliances for the medical industry - whether for the surgical suite, hospital lab, medical clinic, dental office, or other [...] Read More
A turnkey provider of laser services gets you to market faster with fewer headaches at potentially lower cost.
To remain competitive and satisfy their customers’ increasingly frequent demands for ever-faster delivery, manufacturing companies face a seemingly impossible contradiction. On the one hand, in order to scale production and exploit best-of-breed competencies they are looking to outsource [...] Read More
Laser Services stocks and delivers a variety of high-performance frozen epoxies from Ablestik™, Emerson & Cuming, and Henkel. The most popular frozen epoxy we work with is Ablestik’s Ablefilm® 5025E – a silver-filled, unsupported epoxy adhesive-film designed to provide very thin, uniformed bond lines. These high-performance epoxies are kept in stock, and laser cut and drilled [...] Read More
When considering laser services like cutting, etching, or welding don’t just buy a part; hire a design partner. You’ll reduce costs, speed up production and get a better product.
There are many questions to consider when assessing what’s the value of a manufactured part or component to your end product, your business and your end user-customer. Questions like: How much will the [...] Read More
When it comes to marking a surface with a pattern such as a barcode, image, or text, product manufacturers can often choose between laser marking and screen printing (also known as silk screening). Both methods have their advantages depending on the application. Screen-printing, for example, allows for virtually any color pattern (as well as multicolored patterns), while laser marked patterns generally [...] Read More
If you don’t use laser cutting as part of your manufacturing, it’s likely the possibility just never occurred to you, perhaps due to one of these five myths we’d now like to correct.
Myth #1: Laser cutting is new
The facts: Laser cutting was first introduced in the 1960s and became widely adopted in the early 1980s. Today laser cutting is a well-established mature technology [...] Read More
The design of your microelectronics circuit is a huge factor in determining whether its ceramic substrate can be laser cut. Here are some factors to consider as you design.
Almost every week it happens — an electronics component manufacturer asks if we can cut the ceramic substrate of a microelectronics circuit they have already designed. Of course we’re always happy to take a look. [...] Read More
Laser welding is cleaner than conventional welding with less contamination risk. It’s also more precise, easier to automate and can weld much thinner metals.
If arc welding is typically part of your product manufacturing process you may wish to consider laser welding instead. Unlike arc welding, which requires a bonding material or filler to join two pieces of metal, laser welding creates [...] Read More
3 Reasons to Consider Laser Cutting Over Die or Water Jet Cutting
You see, the thing about laser cutting is, well, it’s not just one thing – unless we’re referring to the monochromatic, coherent, collimated power surge generated by the light beam itself – but let’s not delve into a physics lesson here. We might find ourselves lost in the land of limits, summations, [...] Read More
If you’re looking to engrave a barcode, serial number, photograph, piece of artwork, a logo, or some decorative lettering onto a curved object, then laser rotary engraving is likely the best option. Mechanical rotary engraving methods such as diamond dragging, stamping or dot peening tend to be slower, require more setup time, and are more limited in the variety of patterns they can engrave. [...] Read More
Contrary to what most may assume about a laser job shop, roughly half of our business is in support of the medical device industry. And that work is very diverse. On the front end, we consult with research universities and corporate labs for materials research. On the back end, we work with design engineers on device design and manufacturability. We are also involved with the production of surgical [...] Read More
To reduce project risk, cost and delays, don’t wait until the last minute to engage your laser services provider.
When it comes to laser services a lot of customers want it done yesterday. That may be because windows of opportunities are closing, or because downstream assemblers are waiting for the part, or because revenue targets are at risk — or maybe because there was not sufficient [...] Read More
When you see BYOB on a party invitation, you know what your host wants you to do. And when you have a BYOD policy at work, you know your boss wants you to bring your own device (smartphone or laptop) to the office. Both BYOB and BYOD are very popular. So what about BYOL? Is buying your own laser a good idea too?
For most manufacturers, probably not, and here’s why:
BYOL Carries Costs and [...] Read More
Some of the key decisions that ensure product success are decisions about how key parts get made. That makes R and D skills a key part of laser manufacturing services.There are some important questions that must first be answered before deciding whether to make and market a product, many of which involve the product’s key components. Those component questions include:
Can they be manufactured [...] Read More
Already widely used in doctors’ offices and hospitals, lasers are rapidly becoming a tool of choice as well in medical device manufacturing for cutting, welding, and marking.
Lasers are hot right now in medical device manufacturing — and we’re not talking about the beam. (The temperature in and around a heated surface is actually one of the many parameters laser operators can tightly [...] Read More