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A Down-to-Earth Fligh Plan
ITT Aerospace uses DFMA to simplify component designs and improve manufacturability.

When ITT Aerospace Controls get a new design order for one of the company’s custom actuators, pumps, switches, or valves, opportunity can come knocking as well.

“We are always looking for ways to innovate and improve manufacturability,” says David Vranson, advanced manufacturing engineer at the Valencia, CA-based aerospace and military supplier. “An earlier, certified design can be the jump-off point for adaptation and improvement when fulfilling a new order.”

In the department where Vranson works, the product development process involves a cross-discipline core team comprised of an engineering project manager, design engineer, designer/draftsmen, one or two manufacturing engineers, and a supply chain rep.Others who come to the initial meeting include representatives from quality, manufacturing, aftermarket services,

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A DFMA analysis identified substantial cost-cutting
measures and manufacturability improvements for an
air duct valve redesignedby ITT Aerospace Controls’
engineering team: (left to right) DaveVranson,
manufacturing engineer; David Clarke, CAD designer;
Davey Lopez, lead project engineer; and Peter
Ciulla, project engineer.
and even outside suppliers. The process also relies heavily on Design for Manufacture and Assembly (DFMA) software to steer the analysis.

New Design Ideas, Old Valve

When a manufacturer recently came to ITT Aerospace looking for an air-duct valve, they were interested in small quantities: a retrofit of approximately 100 aircraft at three valves per plane. The valve was part of an air-exchange system that rapidly replaces the cabin air in emergencies, such as when the cabin fills with smoke. The customer provided basic fitting information and system definitions, leaving room for engineering creativity.

“We had a 30-year-old air-duct valve design on our books that matched their requirements. But the materials were outdated, it had some hardships in the manufacturing process, and it would have been extremely expensive to make today,” Vranson says.
 

The original 7" air duct valve had a high price tag because machining of the valve bodies were from rectangular aluminum billet stock requiring multiple machine setups, critical interior surface finishes, and tight tolerances (see Figure 1). What is more, assembling the butterfly disc inside the valve body required Houdini-like contortions involving O-rings, delicate pushing and pulling, and frequent frustration on the factory floor, with occasional repeat assembly procedures hurting yield.

“Such a complex product design presented our team with the perfect opportunity for an update with DFMA,” Vranson says.

DFMA is an integrated two-part analysis approach for simplifying complex designs and optimizing their costs. The DFA Product Simplification module provides a quantifiable method of benchmarking products and eliminating unnecessary parts and operations. The DFM Concurrent Costing module offers a systematic approach for calculating and examining manufacturing costs and choosing alternative process technologies and

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Figure 1 – A 30-year-old air-duct
butterfly-valve assembly used
outdated manufacturing technologies
and materials.The 7" diameter
component was fabricated from
rectangular aluminum stock to tight
tolerances and included tricky interior surface finishes.
material cost-cutting measures. Together, these software tools can help guide the design development process from its inception – before manufacturing and life-cycle costs get locked in – toward functionally efficient, easy to manufacture and assemble products and components.
Product Simplification

“We always begin our DFMA analyses by looking at simplicity first, rather than focusing on cost alone,” Vranson explains. “If you make cost your priority, you might overlook creative solutions that, in the end, will be less expensive.

Misleading of engineers may be by the lure of small, uncomplicated parts, which are less expensive per piece. However, building an assembly – even a straightforward one such as this air-duct valve – often requires many different parts. In addition, as part count goes up, fabrication becomes more difficult and costs climb.
 

Using DFMA, the software system queries the team to consolidate and/or eliminate parts. Following this strategy, multiple parts roll into a single unit, fasteners disappear, and snap and slip joints are substituted for their more-difficult-to-assemble cousins. By itself, the resulting multi-functional part can be more complex geometrically. Nevertheless, when tallying the total part count of the assembly, it will have decreased significantly. Moreover, the effects of lower part count carry forward to dramatic improvements in manufacturability: little or no tooling, easier assembly, and enhanced throughput on the shop floor.

When you aim at simplicity, lower cost just naturally follows,” Vranson says.

Metamorphosis
Starting with the original valve design, the ITT Aerospace engineering team ran a DFA analysis to uncover cost hardships. The Suggestions for Redesign report in the software program identified targets for improvement, including specific details based on the actual bill of materials and real-world processing requirements. Several design-change scenarios were loaded into the DFMA software, and with each analysis the engineering

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Figure 2 – Manufacturing of the new
air-duct butterfly-valve assembly is from
round aluminum stock with a near-net
diameter incorporating a seal design
with wider tolerances, less-critical
surface finishes, and an angled seating arrangement.
team uncovered additional improvements to manufacturability attributes.

“We always run multiple DFMA analyses,” Vranson says. “In every round, we build the innovation off results that the software is identifying. And then we take our query even further, going outside the box and asking, ‘What if we did this?’”

Those blue-sky questions could be pointing to a radical change in material or shape, or the further consolidation of five or six parts into one.

With the butterfly valve, this iterative process led to several key improvements: the valve body was now to be machined in a single, mill-turn setup, from round aluminum stock with a near-net diameter; and the seal incorporated wider tolerances, less-critical surface finishes, and an angled seating arrangement in the body with a clever single-axis insertion. (See Figures 2 and 3)

 DFMA Benefits Take Off
While DFMA’s grounding in design and business basics – such as material selection, process costs, parts simplification, tooling efficiencies, and assembly strategies – the results are anything but down-to-earth.

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Figure 3 – New features allow for an
easier insertion process than was
used in the original valve.
On the butterfly valve project, design changes led to dramatic reductions in part count (48%), assembly time (69%), and total cost (77%) including labor, materials, and tooling (see Table 1). Other benefits included the near-elimination of rework during assembly, decreased opportunity for defects, improved inventory management, and higher performance of the valve: all outcomes that get high customer-satisfaction marks.
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In addition, the engineering team came up with a sealing technology innovation that will cross-pollinate every butterfly valve in the company’s portfolio. “Anything that we can do to improve our products, even at low volumes, is worth it,” Vranson explains. “We are going to take that discovery and apply it to our entire product line to improve product performance and future business.”

DFMA and Lean
These kinds of successes in product redesign underscore an important point Vranson likes to make about how DFMA and Lean can work together to optimize manufacturability.

“If you release designs that are intrinsically inefficient to manufacture, the source of the problem becomes invisible once the product hits the factory floor,” Vranson says.

In other words, if designs have manufacturability issues built in, Leaning out the production line will not get rid of the assembly delays or unforeseen costs that result from poor design. The problem lies not in production, but in the design itself.

Vranson’s recommendation is to use DFMA in the design cycle pre-release – before the component goes to manufacturing – making the product lean-from-the-start. He then suggests using lean post-release – after finalization of the design – to trim any remaining inefficiencies from the production process. He sees the two techniques as complementary, each contributing its own specialized, waste-cutting techniques.

Eliminating waste in the design phase is especially important for ITT Aerospace due to the rigorous testing and qualification hurdles inherent to the aerospace industry. Since FAA approvals are involved, and redesign is either almost impossible or prohibitively expensive, getting it right the first time is critical.

Although ITT Aerospace has only been using DFMA for a few years, the observed benefits – from finance to supply chain, parts handling, and quality – are already stimulating queries from interested engineers and managers in the company’s other business units and divisions.

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TOP:David Clarke, CAD designer; Davey Lopez,
lead project engineer; and Peter Ciulla, project
engineer; join Jose Rosas in an assembly area
of ITT Aerospace Controls’ Valencia, CA,
facility as he demonstrates the installation of
an actuator on a new air duct valve unit.
DFMA analysis led to much-improved fabrication
that cut time and labor cost by almost 70%.
BOTTOM: Jose Rosas, assembly technician,
installs an actuator on the new air duct butterfly
valve unit in preparation for functional testing.
An easier assembly process was one of the
outcomes of a DFMA analysis on an outdated valve design.

Vranson would like to see the improvements that he knows are possible ripple throughout the entire organization. “I want to show our other units how DFMA works and help them set up similar design-for-manufacturability programs,” Vranson states. “The software is not a replacement for innovation, but it really sparks it.”

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