레이저 드릴링 공정은 재료의 두께, 구명의 크기, 구멍의 수에 따라 큰 차이가 있습니다.
레이저를 사용하면 아주 작고 눈에 보이지 않으며 형태가 비정상적이고 좁은 구멍까지 가공할 수 있습니다. 레이저는 급경사에서도 구멍을 뚫을 수 있으며 기계 가공이 어려운 재료도 가공할 수 있습니다. 한 번 설정으로 다양한 크기의 구멍 수백 개를 3D 표면에 뚫을 수 있습니다.
‘응용 분야에 대한 이해’ 는 특정 응용 분야에 대한 상세 문서입니다.
‘응용 분야 포스트카드'는 특정 응용 분야에 대한 간단한 이해 자료로 몇 분 안에 쉽게 이해할 수 있도록 작성되었습니다.
Fiber lasers can be used for a range of applications, a particular favourite is drilling. Working with many materials, fiber lasers are especially useful at drilling silicon wafers. These are especially used in printed circuit board and solar cell... read more >
Laser drilling is one of the main applications, which the SPI Lasers range are equipped to deliver. In this latest question and answer, we provide an explanation as to what this application is. Laser drilling is used across many industries and there... read more >
Laser drilling is one of a number of fiber laser applications and is used to create holes of various shapes, sizes and dimensions with the ultimate of precision in what is regarded as a highly efficient and safe process.
But many customers ask... read more >
Laser drilling is a growing application area and fiber lasers are often found to be the laser of choice due to their versatility.
This webinar delivered by Dr Jack Gabzdyl covers the following areas:
• Why use fiber lasers for drilling
•... read more >
Laser drilling is a widely used process across multiple industries including; aerospace, automotive, electronics and medical. Drilling with a Fiber Laser can be used across a wide range of materials including various metals (aluminium, copper,... read more >
Everything that we use, from the shoes we wear to the transport that we take to the house that we live in has gone through some kind of manufacturing process. The manufacturing system is one of the largest on the planet, and it involves all kinds of... read more >
Laser drilling is just one of a number of processes that our Fiber Laser range is designed for. Many of the laser processes bear striking similarities, and it can sometimes be difficult to easily distinguish between them. For example, laser drilling... read more >
Laser drilling is the process whereby thru-holes are created in a material by pulsing a focused laser repeatedly to break it down layer by layer. Each of the laser processes, whether it is laser marking (FAQs), engraving (FAQs), cutting... read more >
The semi-conductor industry involves all of the different companies and processes that are involved in the design, development, manufacture, and sale of semi-conductor products and devices. Semi-conductors themselves are materials which can conduct... read more >
The medical sector, as with many of the other sectors that laser drilling plays a part in such as the automotive or aerospace industries, will affect us at some part of our... read more >
The electronics industry is an industry that we all play a part in every single day, whether this is by being involved in the design, development, manufacturing or marketing process itself, or through the host of electronic items that we... read more >
The aerospace industry bears many similarities to the automotive industry in that it involves a whole host of processes, with design, development, production, manufacture, marketing, sales, and consumer use of the aircrafts being... read more >
The automotive industry, which involves everything from the design, development, production and manufacture of automobiles to the marketing and selling, is a huge industry. It involves many different intricate parts and processes, all of which must... read more >
Laser drilling is a process that is capable of working with multiple materials to produce many different results. One of the materials that it is most commonly worked with are various types of metal, a material that is found in pretty much every... read more >
Laser drilling was not the first kind of laser drilling process that was used and instead found itself come about as more of a development from the laser cutting process. However, this was over half a century ago, and since then laser drilling has... read more >
Laser drilling has become one of the most widely used laser processes in the world, and has found uses in several different industries including the aerospace, automotive, electrical, semi-conductor and medical industries and... read more >
Laser drilling was not one of the first laser processes to be invented, but once its uses were realised, it quickly became an established and effective laser process in its own... read more >
We’ve explored laser drilling with a great deal of content on this website, so we thought it would be good to include some videos of the process in action as well! You can find five great YouTube videos about laser drilling below, with a small... read more >
Laser drilling has become one of the most established and efficient manufacturing processes used today, and we see it appear in a number of different industries, especially in the automotive, aerospace, medical, semi-conductor, and... read more >
With many different types of laser processes available, each with their own set of unique qualities and benefits; it can sometimes be hard distinguishing between the different types and figuring out which one would be most suited to... read more >
Our range of Fiber Lasers drill metals, coated metals, some ceramics and graphite composites. These Lasers create discrete pulses of controllable energy, peak power, and temporal profile (or shape) which are well suited for fiber laser... read more >
Suitable for a wide range of applications
Our redENERGY range of pulsed Lasers can be used for a wide range of precision drilling applications in thin <1mm materials.
High beam quality delivers precision drilling
The high beam quality offered... read more >
Our range of redENERGY Pulsed Lasers can be used to drill 5 holes per second in 0.38mm alumina. The photo above shows the output side that is 75-80 microns in diameter. The input side is less than 100 microns in diameter.
redENERGY Single Mode... read more >