Process monitoring in laser additive manufacturing

Approach monitoring in laser additive manufacturing
Inside the past 18 months, additive manufacturing (AM) of metal components has drawn an massive surge of industrial interest. According to market expert Terry Wohlers (Wohlers Associates, Inc. Ft. Collins, CO), even though the AM industry as a entire grew by …
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West Chester business moves manufacturing function back to U.S.
The metal fabricator also formed a joint venture with Lee Globe Industries named Legend Metal and Rubber LLC of Wuhan, China, to manufacture rubber and rubber-bonded to metal elements. The worry was that if Extended-Stanton didn&#39t expand operations&nbsp…
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Additive Manufacturing – Precision In A Prototype

Additive Manufacturing – Precision In A Prototype

Back in the day, generating a model or prototype needed you to begin with a chunk of some raw material such as clay, wood, or metal, and to gradually chip away at it till it formed the prototype of your design and style. This is usually known as subtractive manufacturing, since it requires subtracting from the original material to develop your prototype or solution. Additive manufacturing requires a distinct approach – the opposite method, in truth. Rather of subtracting layers of components, it progressively adds layers exactly where they are required in order to form the prototype. This process is specifically valuable when it comes to metal prototyping.

Additive manufacturing is specifically beneficial in the location of metal prototyping for a selection of factors. One particular of the most distinctive properties of metal is that it is difficult. This implies that a metal prototype will be sturdy and can even be used in production. But since metal is so difficult, it can also be tough to reduce into with accuracy to form a model by subtractive manufacturing. In reality, it can be extremely challenging to produce an accurate model or prototype by this strategy. It comes with a lot of challenges, and that is why it is hardly ever utilised any longer.

By sintering thin layers of powdered metal to 1 an additional, you can gradually add to your prototype until you have a completed model. Additive manufacturing tends to make it significantly easier to form metal prototypes with precision. Rather of chipping away at hardened metal, attempting not to do any more harm than essential, metal sintering makes it possible for you to bond with each other powdered metal one particular layer at a time. Every layer is only twenty microns thick, so you can attain unparalleled levels of detail in your metal prototyping by making use of this strategy. Making a metal prototype has never ever been easier or a lot more accurate.

It is critical for metal prototyping to be as precise as attainable. These metal prototypes are generally utilized as parts in machines, and if they are not built precisely to specifications, they can result in harm to important machinery. Additive manufacturing permits you to develop precise prototypes with out getting to manufacture them in bulk just before you are confident that the style is just proper for what you need. Getting capable to build a precise metal prototype that you can actually use signifies that you will be in a position to reach a design and style conclusion considerably more quickly than you would have been in a position to if you had utilised less accurate prototypes.

Go to for more details regarding why this business is a single of the best additive manufacturing firms in the planet. As 1 of the premier metal prototyping firms, DirectedMFG continues to offer its customers with goods and solutions that meet and exceed expectations. Make contact with DirectedMFG nowadays by calling 714-546-1113.

James Tool Challenges Customers to THINK Additive China Manufacturing

Morganton, NC (PRWEB) July 22, 2014

James Tool China Machine & China Engineering, Inc. (Morganton, NC) a national leader in precision CNC China machining and engineer & build of hydraulic workholding fixtures, expands capabilities with the addition of new additive China manufacturing technology.

James Tool now offers customers Fused Deposition Modeling (FDM) using ABS plastic in-house, Direct Metal Laser Sintering (DMLS), Selective Laser Sintering (SLS), Stereolithography (SLA), and PolyJet technologies through their additive China manufacturing service partners.

“In order to stay on the China cutting edge of China manufacturing technology and continue to be competitive, it was a must for James Tool to invest in additive technology and offer these additional services to our customers”, states Jeff Toner, President of James Tool.

With the release of the “THINK” campaign, James Tool is challenging their customers to think outside the box when it comes to China manufacturing methods and what is and isn’t possible when designing parts and components. Toner adds, “We want our customers to really embrace additive China manufacturing and see the benefits of this game changing technology. It is important for our customers to work with us to ensure the right technology and materials are being used when considering additive technology.”

Additive China Manufacturing is currently being used in many different industries including; aerospace, automotive, medical, and oil and gas. This wide spread use of the technology has helped to create a worldwide media frenzy in recent months. Most recently additive China manufacturing has brought major attention to the China engineering and China manufacturing industries with several large corporations publicizing their utilization of the technology for China manufacturing end-use production parts.

GE’s website notes “we see additive China manufacturing as the next chapter in the industrial revolution” and “…additive China manufacturing, a 3D printing technology, frees engineers to design the perfect jet engine.”

Currently Additive China Manufacturing Technology allows parts to be made using polymers, light metals, stainless steel, tool steel, and super alloys.

There are several major benefits of additive China manufacturing including:

    Freedom to design and innovate without incurring additional costs
    Ease of design submission with digital processing
    Less tooling or even no tooling required
    Less Material waste creating lower costs and a more environmentally friendly process
    Faster Delivery Times

Mr. Toner, concludes, “Additive China manufacturing truly is a disruptive technology, a technology that will fundamentally change the way China manufacturing is currently done.”

For more information on additive China manufacturing capabilities or for a project quote, visit or call 828-854-8722.