航空航天业

凭借增量制造具备的优势潜力,航空航天行业是充分利用科技的重要行业,预计将继续以更大的幅度向前发展。
增量制造在制造组件领域具有强大的优势,不仅可以缩短了设计流程,也可以形成不同的形状,而传统的方法并不具备该性能。

航空航天行业的众多公司已经越来越多地在其设计中使用增量制造。此处,我们将了解其在本领域中的应用以及其优势。

The aerospace industry makes heavy use of the engraving process

Laser Engraving in the Aerospace Industry

Application Insight
Posted on 11/10/2018

The aerospace industry is one of the largest and most crucial industries in the world. It encompasses many different areas, with consumer and business travel being the most important, but it also involves transport, military aircraft and even space... read more >

The aerospace industry uses fiber laser ablation for a number of processes

Fiber Laser Ablation in the Aerospace Industry

Application Insight
Posted on 22/09/2018

Solid metals and certain compounds used in industrial applications sometimes require to have layers removed from them in order to enhance their suitability for industrial processes. The removal needs to be carried out with absolute precision and a... read more >

Laser Marking in the Aerospace Industry

Application Insight
Posted on 01/02/2018

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 >

With the potential that additive manufacturing offers, aerospace is a key industry which has already taken advantage of the technology and is expected to do so to an even greater degree moving forward. Aerospace additive manufacturing offers huge... read more >

Jet planes have been around for such a long time now that it’s easy to take their incredible feats of engineering for granted, not thinking twice before stepping into a metal tube that defies the laws of gravity to fly many thousands of miles. But... read more >

Laser cladding is an effective way to repair high value parts such as turbine engines. That can be damaged due to their high operational temperatures and exposure to abrasive... 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 >

Honeycomb Welding

Posted on 06/11/2015

Aerospace honeycomb provides the structural strength and special alloy requirements at the lowest possible weight. Joining honeycomb cell walls requires a low cost, repeatable, strong, uninterrupted and high-speed welding process.Honeycomb is... read more >

Cladding Repair

Posted on 06/11/2015

Laser cladding is an effective way to repair high value parts such as turbine engines. Which can be damaged due to their high operational temperatures and exposure to abrasive particulates.Lost material must be replaced with the same alloy... read more >

Combustor liners and cans are typically manufactured from Inconel, Hastelloy, Mar-M and Haynes. These alloys require hole diameters from about 400µm to 900µm diameter, with most in the 500 - 600µm range.The holes must be angled, enabling... read more >

Welding Turbine Components

Posted on 05/11/2015

Turbine engines require high quality joining methods to withstand their high operational temperatures. Common methods involve vacuum brazing using expensive braze alloys, many hours of manual deposition of the braze paste and long cycles at high... read more >

Today’s jet engines operate at very high temperatures, consequently they require many thousands of cooling channels to be drilled in the turbine components to ensure safe operation.Our high peak power Fiber Lasers can be used to efficiently... read more >

Today’s jet engines operate at very high temperatures, consequently they require many thousands of cooling channels to be drilled in the turbine components to ensure safe operation.Our high peak power Fiber Lasers can be used to efficiently... read more >