Tuesday, August 23, 2016

International Metalworking News for Asia - August issue now online!



The regularly-scheduled August issue of International Metalworking News for Asia magazine is packed full of valuable technical guidance for end users in the metalworking industry.

Among the highlights is a follow up interview with Hoffmann Asia's managing director half a year after he assumed the position and announcing his ambitious plan. 

Also check out the exclusive interview of Schaeffler (Singapore)'s vice president for industrial & aerospace regarding "Mobility for Tomorrow" strategic concept, with quotes from the company's director for engineering in South East Asia about manufacturing expertise and systems know-how.

In between are a pair of features focused on automated manufacturing. The future of manufacturing is being driven by the needs of increasingly demanding customers. This often involves the notion of a re-imagined approach towards innovation and the adoption of the Internet of Things with connected systems. Automated manufacturing, machine-to machine communication, and intelligent process chains have now become a fundamental part in stirring industrial changes in South East Asia's factories.

Finally, there’s a technical article on panel bending. By introducing the TruBend Center Series 5000, Trumpf is making its debut in the market for panel bending technology. The panel benders work economically even when producing short runs. They can be run in more quickly than fully automatic machines.

Of course, the issue includes columns from such as show previews and review, industry news and product highlight.


Is there a specific topic or scenario you’d like to see covered in the pages of International Metalworking News for Asia? Email us at kathryn@ringiertrade.com.

Tuesday, August 2, 2016

Changing ways and expanding in Asia


Interview with Alexander Kliegl, Managing Director, Business Unit Technology, DKSH Vietnam. 

If you are manufacturing metal or steel technology products and want to expand your business in Vietnam, you may want to consider visiting DKSH Business Unit Technology's precision machinery showroom in Binh Chanh district in Ho Chi Minh City, Vietnam.

DKSH is a leading Market Expansion Services provider with a focus on Asia. The company helps other companies and brands to grow their business in new and existing markets.

Recently, International Metalworking News for Asia had a chance to interview Alexander Kliegl, Managing Director for Business Unit Technology, at DKSH Vietnam, during the Hurco and DKSH collaborative open house in Ho Chi Minh City. He talked about the newly opened precision machinery showroom in Binh Chanh district, its partnership with Hurco as well as the newly opened demonstration laboratory.

He said: "The new showroom plays a key role in catering to the large demand for technological solutions in the fast-growing Vietnamese market."

According to Kliegl, the new showroom is a strategic step for the company as it serves as a bridge between its clients and customers. He added that clients and customers can experiment with their demonstration machines, run test cuts or evaluate quality parameters to acknowledge the advantages and benefits of these solutions before making any purchasing or maintenance decisions.

"I strongly believe that this new platform strengthens our business here in Vietnam by bringing DKSH closer to its clients and customers,” Kliegl stated.

Business Unit Technology
In Vietnam, DKSH has four business units. One of them is Business Unit Technology, which Kliegl heads.

He explained: "Business Unit Technology offers total solutions in areas such as infrastructure, industrial materials and supplies, precision machinery, agriculture, hospitality, scientific instrumentation as well as specialized industrial applications. We tailor-made the services that our clients and customers needed the most to help them grow their market shares.”

When asked about its precision machinery business line, Kliegl said they offer a broad range of machinery from world-renowned manufacturers in metal cutting and forming, testing and measuring, wire harnessing, 3D printing and gear cutting and measuring.

"For the cutting-edge additive manufacturing process of customized products, we also offer 3D printers and corresponding scanning solutions”, he added.

Going back to its recent collaborative open house with CNC machine tool builder Hurco, Kliegl said this partnership is a significant one due to their strong connection and close relationship. Hurco’s high- volume applications such as tie and mold also provide distinct differentiating added-values to the Vietnamese customers.

"Hurco has an established reputation for providing excellent products and superb customer service within the industry. They are known as the ones that customers know and trust," he added.

Think Asia. Think DKSH.
So how is DKSH living up to its saying: "Think Asia. Think DKSH.”? Kliegl elaborates that for more than 150 years, DKSH has been providing integrated and tailor-made Market Expansion Services along their entire value chain to their business partners. By partnering with DKSH, clients can have access to in-depth market insights, to strong sales and service organization, to a systematic market development approach and extensive local customer networks.

He explained that with DKSH, customers only have to deal with one partner to gain access to the worldwide network for solutions as well as to a broad range of products from market leaders and internationally renowned brands. Lastly, Kliegl said that the company’s highly qualified specialists and engineers are dedicated to providing services throughout the entire product lifecycle to operate as a trusted link between suppliers from Asia, Europe and America and customers in Asia.

By: KATHRYN GERARDINO-ELAGIO 
International Metalworking News for Asia

two-weeks countdown!!

★ Discuss different topics face to face, and exchange professional knowledges with other attendees★

The 3rd Asian Automotive Manufacturing Summit will be held in Indonesia on the 15th, 16th of August.

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Questions: Who are the exhibitor sponsors of the summit this year?

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3D metal printed part for satellite


Thales Alenia Space and Poly-Shape SAS build Europe’s largest qualified 3D metal printed part for satellites

Additive manufacturing makes more than just headlines. The industrial revolution of 3D metal printing is pointing the way to a change in manufacturing strategies. And facts are being established which will herald a fundamental paradigm shift for the manufacture of metal parts. AM is really pointing the way forward when it comes to substitution or as a hybrid strategy in combination with conventional machining methods.

Once again, the aerospace industry is driving forward innovation and acting as the spearhead for digital manufacturing. The most recent signal comes from Thales Alenia Space. Working in collaboration with the 3D printing service company Poly-Shape, it has produced additively manufactured parts for the new South Korean communications satellites Koreasat-5A and Koreasat-7. Koreasat-7 is set to go into orbit in 2017 at position 116º East in order to provide coverage for South Korea, the Philippines, Indonesia and India. Koreasat-5A will cater for Korea, Japan, Indochina and the Middle East from the position 113° East. Koreasat-5A should be launched before 2017 second quarter.  

XXL component produced in collaborative working relationship

The Koreasat-5A and Koreasat-7 antenna supports will be the largest volume parts so far produced by powder-bed-based laser melting of metals from Europe to be in orbit. With dimensions of 447 x 204.5 x 391 mm3 – and weighing just 1.13 kg – they really can be referred to as lightweight components. A really huge piece of engineering. The additively manufactured 3D components are used as basic antenna supports for the communication with ground base of the Koreasat-5A and Koreasat-7 satellites. An identical part was installed in both satellites. The dimensions presented a real challenge for Thales Alenia Space. They were manufactured by the French company Poly-Shape. It is a renowned partner to the aerospace industry when it comes to prototyping, 3D metal printing and assemblies.

Lightweight construction and reduction in costs as crucial advantages
Aluminum (Al) is the metallic material most commonly used for satellites due to its weight and thermal conductivity. The less weight that needs to be put into orbit, the better. Florence Montredon, Head of AM at Thales Alenia Space, says: “As a rule of thumb, the actual costs of putting 1 kg into orbit are around EUR 20,000. So every gram really does count. The starting weight of the two new satellites is around 3,500 kg.” AM’s potential for lightweight design was therefore a key reason to move away from the traditional methods. For these AM parts Thales Alenia Space chose an AISi7Mg alloy. Applications in space demand high strength, rigidity and resistance to corrosion from the materials that are used. The component validation process also revealed a low porosity rate on the finished component of < 1%. The tests of tensile and shear strengths also produced pleasing results. For example, the tests in relation to symptoms of fatigue according to Wöhler yielded values that significantly exceeded the required specifications. Minor deviations in the geometry were corrected with simple reworking, as was a small crack whichwas revealed by the CT. Fairly small pores inside the geometry were accepted following localized mechanical analysis. Ultimately, the parts successfully passed the dynamic tests carried out at Thales. Florence Montredon: “The effects were huge: A 22% weight saving for the bionic AM structure compared to a conventional structure. Not forgetting a reduction in costs of around 30% with the finished part being available very much faster.” The cost reduction of 30% is attributable to various factors. First there is the reduction in outlay on assembly: The redesign as an additive, bionic part replaced the number of parts that were previously produced from nine to one. And this was done through one-shot manufacturing, without the previous outlay on assembly. Secondly there was no need for mold construction, as casting would have needed to make the same part. Thirdly the temporal aspects are interesting when it comes to completing the ambitious stages of a project such as this on time. This is known in industry as time to market. In this sector, it is referred to as time to fly.

Machine and plant technology from Concept Laser on XXL scale
Poly-Shape has 28 3D metal printing machines which have different sizes of build envelope. The largest build envelope dimension for 3D printing with aluminum at Poly-Shape is currently an X line 1000R from Concept Laser. It offers a build envelope of 630 x 400 x 500 mm3 and has a closed system for reliable process and powder management in accordance with the ATEX directives. The X line 1000R also has a rotating mechanism which allows two build modules to be used reciprocally, thus guaranteeing constant production with no downtimes. This unique machine design not only results in greater availability, but also simple and above all secure handling when arming and disarming the machine. The follow-up model, the X line 2000R, has an even bigger build envelope (800 x 400 x 500 mm3), which is currently unique in the world when it comes to powder-bed-based laser melting. The usable build volume is again increased, in comparison to an X line 1000R, by around 27% from 126 l to 160 l. The follow-up model also operates with two lasers, each delivering 1,000 watts of power. The LaserCUSING process technology from Concept Laser was very important for the project: What makes systems from Concept Laser unique is stochastic navigation of the slice segments (also referred to as "islands") which are processed successively. This patented process ensures a significant reduction in stresses when manufacturing very large parts. With huge dimensions of 447 x 204.5 x 391 mm3, it is obvious to want to control warping to the maximum extent possible. The X line 1000R offers balanced temperature regulation of the build envelope in order to prevent warping in the “oversized” parts. The large, bionic and intricate geometry takes a great deal of time to assemble: It took only a few days to print it.

Design to suit the process
The transition over to AM also means rethinking the design. To make full use of the potential offered by laser melting, it makes no sense to replicate a geometry 1:1. Lightweight design and bionics demand a design to suit the process. CAE-CAD-based methods are used to trim the 3D components to a performance-focused geometry, bionics, and lightweight design. The design was optimized in several transitions at Thales Alenia Space (AM design optimization), for example in respect of the various joining and mounting techniques. In addition, there was fine-tuning in the area surrounding the satellite in order to guarantee a maximum precision fit. The topology was optimized in 2-3 passages. The CAD data then underwent a redesign and smoothing before a mechanical analysis and simulation took place. Furthermore, the design was optimized to suit the process-related circumstances in the build envelope with Poly-Shape. This involved the orientation of the part in the build envelope and the necessary support structures. Thales Alenia Space also incorporated methods of LBM (Layer-Based Manufacturing). Florence Montredon: “It is clear that we have identified AM as a good prospect for further projects. In the future, we would also like to incorporate thermal control technology or radio functions directly on or within the 3D structures. So functional integration is the next task. This is also a logical consequence of the potential offered by AM.”

Verdict
In the Koreasat-5A and 7 project, the feasibility of highly sophisticated and very large AM parts for applications in space was highlighted. The redesign as an additive, bionic part made it possible to reduce the number of parts from nine to just one part. Thanks to this method, the manufacturing process was carried out in one shot, so without the previous outlay that was needed for assembly. There was also significantly enhanced potential for a lightweight design. 22% of the mass was saved with this AM solution. This resulted in a final weight of just 1.3 kg. This was a huge leap because in these applications every gram really does count. The 3D geometry was optimally trimmed for use in orbit. The project’s impressive results highlighted the potential that additive manufacturing offers in space travel and this project will undoubtedly not be the last of this type.