ナビゲーションのスキップ

現在、このページはご希望の言語でご利用いただけません。 Google 翻訳を使用すると自動翻訳でページを表示できます。 弊社はこのサービスの提供に責任を持たず、翻訳結果を弊社でチェックすることはありません。
さらにサポートをご希望の場合は、弊社までお問い合わせください。

Blog post: Chain of tools - creating a process chain for Additive Manufacturing

Marc Saunders

Director - Global Solutions Centres at Renishaw, accelerating adoption of additive manufacturing (metal 3D printing)

Marc Saunders

13 April 2016

Productivity in modern manufacturing derives from a Design for Manufacture methodology, combined with standardised processes in which process variables are systematically eliminated or controlled.

At Renishaw, our machine tools run for over 140 hours each week, with automated process feedback enabling minimal manning levels and almost zero defects.

To be useful, every manufacturing process needs an effective chain of tools that work together to design, prepare, produce, control and verify the output. Variation creeps into processes from a wide range of sources, and the secret to productivity is an obsessive focus on identifying how variation can arise, and either designing it out of the process, or controlling it tightly if that's not possible.

A good process chain therefore encourages design around the most appropriate and controlled processes with user-friendly tools. It also supports multi-disciplinary teams to make the right decisions early, based on knowledge gained from good process data.

Additive manufacturing (AM) is no different to conventional subtractive manufacturing in this respect. AM is not an island: producing near-net shape parts is nowhere near enough when you're looking in a production context. Anyone who promises that AM can make you anything you want is not telling the whole truth - few parts on exhibition booths are in the raw state that they emerged from the AM machine.

Albeit immensely powerful, AM must be underpinned by an effective process chain with user-friendly design tools and a range of post-processing and metrology before the parts it makes can be used in anger. Information must flow up and down the chain to link processes together.

It is this end-to-end process chain; from design for AM, through the build process and on to gauging, machining and inspection. Each process step is supported by Renishaw equipment and software.