펄스 광섬유 레이저의 가장 유용한 특성 중 하나가 세라믹에서 플라스틱, 금속까지 다양한 유형의 금속을 마킹할 수 있는 기능일 것입니다. 간단한 검은색 마크부터 다양한 컬러 마크까지 SPI 레이저는 전세계 수천 개 산업 제조업체가 선택한 훌륭한 도구입니다.
SPI 레이저 도구는 광범위한 주파수 퍼스 출력을 최대 출력(high peak power)과 결합하여 정교하고 섬세한 레이저 마킹 및 절제 성능을 제공합니다. 이들 장치는 검류계 미러 전송 장치(galvo mirror delivery)를 사용하여 거의 모든 재료를 고속으로 마킹할 수 있습니다. SPI Lasers는 실제 작업에 필요한 성능 수준과 빔 품질과 일치하는 다양한 모델을 보유하고 있습니다.
레이저 마커는 재료 핸들러, X-Y 테이블, 검류계, 회전 축 드라이브, 보울 피더, 컨베이어, 다이얼 테이블 및 기타 산업 제조 장비에 쉽게 통합됩니다. 때때로 레이저 절단, 레이저 용접 및 레이저 드릴링 시스템에도 레이저 마킹이 통합됩니다.
‘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.
Many industries benefit from the use of fiber lasers. One such industry is the jewellery industry. The laser marking process is especially valuable in jewellery manufacture, where even colour marking can be applied to some metals. This is the topic... read more >
Fiber lasers are routinely used to mark a range of materials. Metal is perhaps the most common, other popular materials marked are ceramics, plastics, quartz substances, semi-conductors, etc. Diamonds represents a daunting challenge for marking as... read more >
Fiber lasers are used throughout many industries for the marking of a wide variety of materials. One such application is the addition of surface marks which are still visible after the final product is finished, one such example of this are... read more >
PCB’s (Printed Circuit Boards) are used everywhere in electronic technology. Their convenient size, light weight and good strength properties allow for more compact circuits to be constructed. Moreover, modern multi-layer boards offer the... read more >
In current electronic technology Integrated Circuits (IC) elements are the most important units used to build circuits and systems. Contained in each IC element there is a small semiconductor part which is connected with metal pins. Everything is... read more >
Laser marking is one of many laser processes, and each has been invented, and subsequently widely adopted, with a unique array of benefits. While all processes work similarly, using a laser beam, this laser beam can be manipulated in multiple ways... read more >
The aerospace industry is a global one that has transformed the lives of consumers and businesses around the world. Aircraft have to travel great distances at extremely high altitudes, withstanding all kinds of pressure and stress. To ensure that... read more >
Laser marking, while a self-explanatory process by name, isn’t always as straightforward as one may think. With several types of marking and several types of laser that are able to leave a mark, we often find that many of our customers have... read more >
Laser marking is a popular, efficient and highly safe process that has allowed for a wide range of markings to be created on various materials around the world. This may be for aesthetic reasons, or perhaps to help label products, it has been... read more >
The electronics industry is, and continues to grow as, one of the most valuable and important industries in the world. Technology is evolving at a rapid pace, and this sector is advancing quicker than perhaps any other sector.
With such a... read more >
The medical sector is a crucial industry made up of many moving parts. While it involves the hospitals, walk-in centres and medication that we are more familiar with, behind all of this are manufacturing processes just like in the aerospace or... read more >
Laser marking is a highly versatile and adaptable process, offering numerous advantages to its users, so it’s unsurprising that it is used by so many industries around the world. One such area is the semiconductor industry; you’ll find more... read more >
In many ways, the automotive industry bears many similarities to the aerospace industry. It uses similar materials to create similar, albeit (usually) smaller and slightly different, products and machines.
For this reason, it uses many of the... read more >
Laser marking, in the simplest of terms, is the marking of a material using a laser. While this means that all applications will in some way involve marking, the process can be utilised in different ways in order to produce varied results. For that... read more >
Titanium is used within the aerospace, medical and jewellery industries due to the material being lightweight, strong and highly resistant to corrosion. Colour marking of titanium is most commonly used in jewellery applications, as using a laser... read more >
Anneal marks are created on cast iron by heating the work piece with a laser beam to form an oxide layer at the surface, which creates a colour change to the surface of the work piece. A common use for marking cast iron is to produce QR codes or... read more >
The brick marking application is mainly used in the construction sector for ‘names of contributors’ applications. The mark is achieved by applying heat to the surface of the brick to produce a glassy yet durable finish to the marked characters.... read more >
Anneal marks are created on stainless steel by heating the work piece with a laser beam to form an oxide at the surface, which creates a colour change to the surface of the work piece. Generally, the colour of the mark is black, but other colours... read more >
Copper is a material which is very difficult to mark, but using a multi waveform process can be marked with a selected few colours with very high contrast. Manufacturers are greatly interested in this process, looking for new methods and finishes to... read more >
Raised marking is used across multiple industries such as the automotive sector for applications which require a surface mark to still be visible after the work piece is painted. One of the key uses for a mark which is visible after painting is... read more >
The technique of colour marking has been applied across jewellery, metal work and consumer product sectors. Manufacturers are greatly interested in this process, looking for new methods and finishes to provide product customisation. Brass is one of... read more >
Traceability is a key requirement in the medical sector. Every product should be individually identifiable if recalled.
Medical devices, implants and tools cannot use ink or dye marks as there is potential for contamination and allergic reactions.... read more >
Many consumer electronic goods are manufactured from white plastic, and some have a clear hard coating applied. Achieving a smooth mark on this type of plastic can be difficult to achieve with a standard ns pulsed Laser, since it is easy to melt the... read more >
To commemorate our participation in the 2013 Munich Laser World of Photonics we produced a special pewter ‘tankard’ pendent.
Pewter is a malleable metal alloy primarily made of tin with low levels of alloying elements. It has a very low... read more >
Selective paint removal applications, also known as night and day marking, are very demanding applications found in various industries such as in the design of a car’s interior. Night and Day marking allows the user to see the graphic both in day... read more >
Lasers are ideally suited to metal marking because they can be easily automated, are non-contact, and utilise no consumables, making them more environmentally friendly than ink-based marking.
Lasers can be used for a diverse range of metal... read more >
Our redENERGY G4 Pulsed Fiber Lasers are ideal for marking applications. Marks made by Pulsed Lasers are clear, indelible and reliable, and the range of materials that Lasers can mark is almost endless.
This application insight gives an overview... read more >
Our range of redENERGY Pulsed Fiber Lasers can be used to mark a variety of plastics including the PTFE used for Cow Ear (animal) Tags. This identification must resist the harsh farm yard environment and be easily scanned under less than optimum... read more >
Our range of redENERGY Pulsed Fiber Lasers can be used to burn through thick painted coatings and expose and deep etch the metal below.
Here a Vehicle Identification Number (VIN) was first burned through the paint and then engraved deeply into... read more >
The pulse control offered by our range of redENERGY G4 Pulsed Fiber Lasers can be used to create a sub surface black mark on clear anodised aluminium.
Many parts are increasingly supplied with a simple clear anodised layer and this can pose a... read more >
The use of anodised material is widely used across many industries, as the colours offered by the anodising process are almost unlimited. The coloured anodised layer is only a few microns on the surface of the aluminium substrate.
Using our... read more >
Lasers are widely used to mark a diverse range of plastic materials but results can be highly dependent on the type of plastic. ABS is a commonly used material in automotive and engineering applications.
The ability to produce high quality marks... read more >
The use of Laser marking of PCB boards is a growing application. Traditionally basic alpha numeric information has been used but there is a move to bar codes and ID matrix marks to provide more data.
A high contrast white mark can be made using... read more >
Our range of redENERGY Pulsed Fiber Laser can be used to lightly mark the black electronic grade epoxy used on a variety of components.
The material is widely known to burn and bubble under most Laser marking applications. However, our... read more >
Anodised aluminium represents a major application space for Fiber Laser marking. The various commercially available anodised finishes mean that there are a range of different mark effects that can be achieved. Conventional marking relies on an... read more >
The Laser is especially useful in marking delicate items or hollowware which would be damaged or distorted by the punching process. These marks can either be produced in 2D generating simple patterns while with 3D marking engraved marks can be made... read more >
The use of Lasers for colour marking is not a particularly new technique as it has been recognised for over 10 years. This technique was originally identified as a viable process for use on craft metalwork and jewellery. However, the process has had... read more >
Laser marking is fundamentally different from ink printing, the traditional method of marking on plastics. Direct ink printing puts an image on the surface of the plastic which can be removed by abrasion or solvents, but Laser marking can provide an... read more >
Natural anodised aluminium components can be dark marked using waveform 1 from a standard 20W redENERGY RM-Z Laser, however the dark mark is not usually smooth. If a smooth finish is sought, then by using a shorter pulse, our extended performance... read more >
ABS is widely used for consumer goods as it possesses high impact and mechanical strength, which allows products manufactured in ABS to be long-lasting and durable. Control panels, smoke alarms and extractor fans are a few examples of where ABS is... read more >
Chrome electroplated plastic is used in many industries including automotive and domestic markets. Radiator valves and lamp units for vehicles are examples of products which use electroplated plastic.
The advantages of using this material is its... read more >
Our range of redENERGY Pulsed Fiber Lasers are incredibly versatile due to their ability to automatically adjust the pulse energy and pulse shape using the many PulseTune Wave Forms. These 0.4mm thick brass strips were cut, scored, etched, and... read more >
A Quick Response Code (QR code) is a type of matrix barcode, first designed for the automotive industry in Japan. The QR code system was initially invented to track vehicles during manufacture. Today, QR codes are used in a much broader context for... read more >