JEC World 2016 and Dassault Systèmes: Composites Disruptive Technologies

By Yves
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JEC World 2016, the N°1 worldwide Composites Tradeshow which took place in Paris on March 8-10th, 2016 was an exciting opportunity for Dassault Systèmes to connect with Composites users and influencers across Industries.

Either visiting the 3DS booth or attending the Design in the Age of Experience conference cycle, they could discover the value that our 3DEXPERIENCE platform for Composites and Additive Manufacturing provide to their business:

Extend & Strengthen the Composites Value Chain

The 3DS Composites integrated solution is known to span across the entire spectrum of composites product development, from design to analysis and manufacturing on a single virtual platform, with Best-in-class Partner solutions complementing the process. This year, along with our partners Galorath Inc. on the booth and Convergent Inc. across the aisle, we demonstrated further strengthening and extension of this value chain.

Composites Thermal Assessment - CONVERGENT Inc

 Composites Thermal Assessment – (c) CONVERGENT Inc.

For early feasibility assessment at Conceptual Design stage, Galorath showcased a Cost Estimation solution called SEER for Composites, while Convergent Inc. delivered Composites Thermal Assessment in the hands of Designers for quick decision making. Downstream in the process, several Manufacturing Design solutions were proposed to ensure seamless interaction with Shopfloor Systems, including the new Laser Projection Operator role from Dassault Systemes, increased interaction with JETCAM for output to Nesting and Cutting Systems, and Coriolis integrated CATFiber for Automated Fiber Placement.

Laser Projection - DASSAULT SYSTEMES

Laser Projection – (c) DASSAULT SYSTEMES

Drive disruptive technologies for Clean Energy

In line with its mission as charter member of IACMI – Institute for Advanced Composites Manufacturing Innovation – Dassault Systemes is also committed to develop lower-cost, higher-speed, more efficient manufacturing processes for advanced composites.

Composites Thermo-Forming - DASSAULT SYSTEMES

Composites Thermo-Forming – (c) DASSAULT SYSTEMES

Dassault Systemes recently released a dedicated solution for Composites Braiding and showcased during the show the upcoming capabilities for Thermo-Forming. These both position Manufacturing Simulation at the heart of the Design process to provide enhanced Experiences about manufacturability, increased trade-off for design exploration and in fine, to help drive clean energy product development & manufacturing.

Composites Braiding - DASSAULT SYSTEMES

Composites Braiding – (c) DASSAULT SYSTEMES

Enable Industrial Adoption of Additive Manufacturing

We also received a huge interest for our new Additive Manufacturing solution. This integrated value stream from science-based functional generative Design to Manufacturing process and Simulation really aims at solving some of the key challenges slowing down the industrial use case adoption of 3D Printing.

We demonstrated that combining Modeling, Simulation and Optimization in the hands of a Designer, we can remove the traditional barriers and provide huge gains in productivity. And that with digital continuity, from Generative Programming to Manufacturing Simulation & Optimization, we allow to regain control over the Manufacturing process and reach expected quality and repeatability.

Functional Generative Design - DASSAULT SYSTEMES

Functional Generative Design – (c) DASSAULT SYSTEMES

At the heart of Innovation with Partners Ecosystem

As an acknowledgement of this thought leadership, Dassault Systemes received during the event the prestigious JEC World 2016 Innovation Award for its accomplishment on Large-Scale Composites Additive Manufacturing innovation with OAK Ridge National Laboratory (ORNL) and Cincinnati Incorporated.

JEC World 2016 awarded DASSAULT SYSTEMES

JEC World 2016 awarded DASSAULT SYSTEMES 

ORNL, Cincinnati and DS developed a revolutionary platform called Big Area Additive Manufacturing (BAAM) which makes possible to 3D-Print large products like the Shelby Cobra in a few hours. Material is added 200 times more quickly than with existing systems and production costs can be cut by 95%.

JEC 2016 award to Dassault Systèmes

For those who missed us at JEC World 2016, you can still connect with Dassault Systemes on these Composites and Additive Manufacturing topics, amongst many more Experiences, during the DESIGN In The Age of Experience event on April 11th-12th, 2016 in Milan. And we will soon make the recording of our JEC conference cycle available on the 3DS Composites Community. Stay tuned …

[PART 2] DELMIA Helps the Aerospace Industry Meet the Challenges of Composite Manufacturing

By Christian
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Composite wing flap at Airbus
A composite wing flap in Filton, Bristol.
Source: Department for Business, Innovation & Skills, UK.

I’m Christian Chaplais, Senior Manager of R&D DELMIA Enterprise Intelligence Applications. Welcome to the  second blog  of a two-part series on how  Operational Intelligence is helping the Aerospace & Defense Industry.

Finding a Way Around the Complexity of Composite Manufacturing

Many composite parts manufacturers have been exposed to quality issues for years. Some have used classic approaches such as simple statistics, advanced statistics or optimization consulting services to find an answer, but came up short.

So, the question remains. How do you solve composite manufacturing issues without going through all the complexities? There is a way to discover and apply an empirical (data-based) model without the complications in just a few weeks: Operations Intelligence (O/I).

With (O/I) Process Rules Discovery, for example, quality engineers or process and product experts can discover patterns (or rules) explaining whether results have been satisfactory or not. This can be done with a limited number of observations, which keeps down costs, in a ramp-up study.

Process and product experts can also understand the model with Process Rules Discovery, change it by editing the rules and immediately see the impact on the rule KPIs (Key Performance Indicators) based on facts (data).

Here’s a sample rule discovered by Process Rules Discovery:

sample rule

The rule can be interpreted as:

When the product is in the autoclave for an extended period of time (cure cycle time is high)…
…and the binding strength of the fiber is low,
…and fibers have been aging sufficiently,
then the quality is good.

Let’s take another O/I example. With Operations Advisor, shop floor workers can assess risk and take preventive or corrective action in real-time. Operations Advisor recommends values for actionable parameters (settings) without requiring any change to the process specifications or investment in new material.

operations advisor

[Operations Advisor risk assessment and proposed settings ranges (in green)]

Adopting Operations Intelligence

The DELMIA Operations Intelligence solution for Composites has been widely adopted by the Aerospace & Defense Industry from both OEMs and tier-one suppliers.

For several years, one company has been faced with an important and repetitive nonconformance issue (delamination) on the composite leading edge of wings for an aircraft manufacturer. On this family of products, the reject rate could reach 13% and the rework rate 28%. There were delays (up to 6 months of manufacturing backlog), extra internal costs, a loss of confidence from the customer and internal frustration. Multiple quality tasks including process audits, investigating new processes, SPC analysis, inspections of raw material, etc. did not solve the problem.

They then decided to use Operations Intelligence to analyze two years of production. In less than six weeks, two influent parameters, unsuspected until now, were identified (the fluidity of the resin and the time during which the part is kept under vacuum), as well as the recommended lower and higher limits for these parameters. By applying the rules discovered, they managed to instantly reduce the scrap rate to zero and the rework rate to 1%, removing any backlog shortly after.

I’d like to hear your experiences with Composite Manufacturing? What was the outcome?

Continue the technical conversation. Join the DELMIA Enterprise Intelligence Community: https://swym.3ds.com/#community:453

 

‘Just in sequence’ takes ‘just in time’ a step further

By Catherine
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Written by Catherine Bolgar

Modern car production line

When Toyota Motor Corp. introduced just-in-time (JIT) manufacturing, it transformed the automotive sector and changed how the business world viewed production and supply chains. Toyota wanted the right quantity and quality of parts to arrive at the factory floor at the right time, allowing the firm to shrink its expensive inventories.

The auto industry continues to innovate. As cars become increasingly customized, the sector is once again leading change, with “just-in-sequence” (JIS) production. Carmakers want to ensure not just that they have enough doors at the right time, but enough blue, red or any other color doors precisely when they need them. If the plant is making a blue, a white, a black and a red car in that order, it has to know that blue, white, black, and red doors will also arrive in that sequence.

Just in sequence “is a very hot topic in the automotive industry,” says Nils Boysen, professor of operations management at Friedrich-Schiller-Universität Jena, in Jena, Germany. A car rolls off the assembly line every 60 to 90 seconds, for which any one of more than a thousand varieties of door trim or seat, and hundreds of different center-consoles, might be needed. JIS allows assembly workers to get the right item quickly, without having to sort through large, cumbersome parts. Given that auto workers are generally well-paid, carmakers have an interest in improving workflow efficiency. It’s a little like Charlie Chaplin’s film ‘Modern Times,’ Dr. Boysen says. “It’s pretty fast and exhausting if you have to take a door every 90 seconds again and again.”

JIS isn’t practical for all manufacturers. Aircraft makers, which also require large parts, operate at a different pace—typically producing a plane every 2.5 days—and many parts, such as passenger seats, come in large, standardized quantities. At the other end of the spectrum, electronics factories require large quantities of small but expensive parts, which workers can easily handle multiple times, says Dr. Boysen. Even in the auto sector, not all parts are sequenced: mirrors, for example, are too small to be worth the trouble.

Just in sequence has a lot of prerequisites,” Dr. Boysen notes. “The parts and products must be assembled very often and in huge variety.”

 

iStock_000003309143_SmallWith JIS, the cost of getting parts in the correct sequence shifts from the factory worker to the supplier. With JIT, companies reduce warehousing costs by leaving inventory with suppliers, who are then expected to deliver them at the right time. Companies outside the auto sector have adopted what is effectively a less-complex version of JIS. Certain clothing retailers, for instance, ship clothes with price tags and hangers attached, so shop staff don’t have to iron, hang and tag them. The main benefit of this is not about saving the time of salespeople, whose wages are generally not high, but in displaying the clothes more quickly for loyal customers who want first pick of the new arrivals.

Companies shift costs to suppliers in other ways besides JIT and JIS. Some manufacturers and retailers deploy vendor-managed inventory, providing point-of-sale data to vendors who ensure that warehouses or shelves are efficiently stocked. Other companies are shifting research-and-development operations to their suppliers, so that those suppliers can become more innovative.

Factory manufactoring transmissions

Although JIS is mainly about cost-cutting, even the auto industry isn’t entirely convinced that the returns justify the investment. “It’s hard to measure the effects of how much does it cost and how much does it bring you,” says Dr. Boysen. The automakers “plan their sequence and order some parts, like engines, in JIS, then they receive these parts in the planned sequence, but their production processes aren’t that reliable. There are always problems with the paint shop. When a sensor detects a paint defect, the car has to be repainted. So they don’t make sequence as planned. They have to reorder or resequence.”

In a factory producing several thousand cars a day, the buffer inventory can take up a lot of space and cost tens of thousands of euros, Dr. Boysen points out. Even the world’s largest car companies struggle with “huge space problems,” he notes.

 

Catherine Bolgar is a former managing editor of The Wall Street Journal Europe. For more from Catherine Bolgar, contributors from the Economist Intelligence Unit along with industry experts, join the Future Realities discussion.

 

Photos courtesy of iStock



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