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특수 기계(일반적으로 프린터)와 컴퓨터 소프트웨어의 조합을 사용하여 복잡한 형상을 만들 수 있습니다. 레이저가 카트리지에 들어 있는 재료를 가열하면 아주 얇은 레이어가 교차 지점에 배치됩니다. 이 교차 지점이 아래부터 위까지 점차적으로 상승하면서 소프트웨어가 재료를 배치할 위치와 시점을 프린터에 지시합니다.
많은 고속 제조 공정에서 산업용 레이저를 에너지원으로 사용합니다. SPI Lasers의 광섬유 레이저는 많은 금속 분말 공정의 필수 요소입니다.
‘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.
A recent article in the online veterinary blog summed up developments in 3D printing for vets quite nicely, with the article entitled “3d printing is changing surgery”. Of course, this is true, we now discuss advances in this technology in our... read more >
When we think of how lasers play a role in the jewellery industry, we typically think of them being used to clean the jewellery or to engrave and mark it. However, another process which is gaining in popularity in this sector is additive... read more >
Laser metal deposition (LMD) is an additive production process that uses a laser beam to form a pool of melted metal (a melt pool) on the surface of a metallic substrate into which metal powder is injected using a gas stream. The absorbed metal... read more >
Laser metal fusion, also known as selective laser melting or powder bed fusion, is an additive manufacturing process. It is effectively a 3D printing technology that builds components from a powder bed by selectively melting the powder and fusing... read more >
Additive manufacturing, which is the process by which a material is added layer by layer to produce a 3D part or component, has been dubbed the next ‘industrial revolution’ in the manufacturing industry. Here we examine why there is the need for... read more >
The very latest technologies are bringing massive cost and lead time benefits to prototyping. In fact very few technologies have offered as much as rapid prototyping technology (RPT) has in the last 5... read more >
3D printing, Rapid Prototyping and Additive Manufacturing are all terms used to broadly describe the same processes, which involve the creation of complex structures and components by the layering of materials which are gradually built up.A... read more >
Additive manufacturing is one of the most exciting technologies to be unveiled in recent years, with the possibilities for both consumers and in industry almost limitless.At the very core of this is the 3D printing machines, with the... read more >
Additive manufacturing processes are gradually increasing in their practical application, and engineers are starting to figure out where, when and how they could be the most useful.Rather than looking to completely replace all conventional... read more >
Often referred to by its far more sensational-sounding description of 3D printing, additive manufacturing is in fact a technology which has been around for at least three... read more >
3D printing, or additive manufacturing to use an alternative term, is a type of technology which has been around for a surprising amount of time, but has only recently started to evolve and develop sufficiently to grab the imagination of the... read more >
Although additive manufacturing is an exciting technology for many fields, the aerospace industry is seen as one of the key growth areas.
The ability to create complex shapes within one mould, with intricate internal dimensions and complex... read more >
Rapid Prototyping is one of the processes that are grouped under the general heading of Additive Manufacturing. Other processes available under this heading are ‘Layer manufacturing’ or ‘Solid freeform fabrication’ (SFF) processes. This... read more >