What's new
What's new

Lean from the Beginning

PracticalMan

Super Moderator
Staff member
Joined
May 14, 2009
How would you design a new plant if you could begin today? Rolls-Royce Crosspointe is a major manufacturing site that was planned from the outset with the expectation that continuous improvement would always be part of its culture.

Article From: Modern Machine Shop, Peter Zelinski, Senior Editor

mmslogo.png

The Rolls-Royce factory producing rotative engine components in Prince George County, Virginia, does not match what most people would imagine when they hear the word “factory.” Arguably, it doesn’t even match what most manufacturing professionals would expect when they envision an established manufacturer’s facility for machining aircraft parts.

Sunlight illuminates the machine tools. This facility admits natural light, automatically adding electric light only as needed to maintain constant brightness. In addition, the production floors here are white and clean, making it impossible to miss even a minor equipment leak or spill.

Yet these characteristics, though striking, are cosmetic. The more significant differences run deeper. Compared to other facilities that make comparable components—compared, in fact, to other Rolls-Royce facilities—this plant is small. It was designed to run small and to stay small. Even after all of the planned capacity has been installed and brought up to full production, plant manager Lorin Sodell says this factory will employ no more than 150. That quantity of people represents the practical limit for easy communication, he says, and streamlined communication is valuable for lean manufacturing.

However, the Prince George property itself is spacious. The site is now called Rolls-Royce Crosspointe, and Rolls-Royce officially took ownership in December 2010. Eventually, the company will have around 500 employees here. Most will work in other factories, not yet built, that will also function semi-autonomously. Certain support functions will be shared between these small factories on the property, but in many cases that function will be performed by an embedded contractor with its own space, staff and equipment here. Rolls-Royce now believes that this arrangement—separate small plants and separate companies, both working together and working apart—is the formula that can draw the maximum value from a manufacturing site. Such a site in the past would have been filled by a single, large organization that the company says would not have been as responsive to change. A structure of semi-independent plants and companies is more adaptable because of its modularity.

The first factory to operate on the property thus offers a picture of how the rest of Crosspointe will be. Further, this factory demonstrates how Rolls-Royce (and other companies reaching the same conclusions) will conduct manufacturing for decades to come. Viewing the plant from that perspective, here are a few notable details about the factory and the Crosspointe site:

1. State and University Involvement

Why establish Crosspointe? Business volume is the answer. A six-year planning window based on booked and anticipated orders shows a clear need for more capacity. Why locate that capacity in the U.S.? Many reasons—but dollarization is high on the list. Because aircraft contracts are specified in U.S. dollars (regardless of the buying and selling countries), making parts in the U.S. minimizes currency risk. As for why that new U.S. capacity is located in Virginia, Mr. Sodell says the support of Virginia’s government has been a significant factor.

The state government was instrumental in helping the company find and prepare this location. And he says the sense of a working partnership with the state continues. The Virginia Economic Development Partnership continues to assign an employee to assist Rolls-Royce, by facilitating the company’s infrastructure needs (upgrades to the area’s power supply, for example) and pursuing and establishing useful partnerships for the site. Rolls-Royce’s commitments in return include adding more than 600 Virginia jobs (some will be at a different Virginia site, Reston) and investing more than $500 million in the state.

That role of “establishing useful partnerships” was actually one of the first and most important ways the state helped the company. Rolls-Royce has found an effective model for coupling manufacturing to manufacturing research, and the company insisted on extending that model to its new U.S. location. To that end, Virginia’s government approached various universities in the state about establishing a cooperative research center that Rolls-Royce could help lead and could share with other companies. This unusual institution—close to Crosspointe but separate from it—is the newly opened Commonwealth Center for Advanced Manufacturing, or CCAM (scroll down to see companion article).

2. Simplicity

Crosspointe’s rotatives factory produces major components for large Airbus and Boeing commercial aircraft engines, including the Trent 1000 engine used on the Boeing 787 Dreamliner. Components arriving at this plant as forgings and shipping out as machined and finished parts ultimately will include:

• Fan discs made of titanium alloy, which currently run here at full production

• Intermediate pressure (IP) turbine discs made of nickel alloy, which will reach full production soon

• Turbine cover plates made of nickel alloy, which will be run in a cell yet to be installed

These parts are large and geometrically complex, but simplicity is the guiding principle of the cells that produce them. The production area here does not employ a motorized fork truck for in-process parts, because every workpiece makes only short and simple moves through the line. The sole fork truck in the building serves the shipping area, not production.

Within each line, production has been able to proceed before all of that line’s machines were installed. (This was the case with the partially installed IP turbine disc line on the day I visited.) Every machining center within each cell is alike, and each can perform any of the machining center operations the part requires. The intricate fan disc part requires several setups for vertical turning, drilling and five-axis milling—but any of these operations can be performed on any of the several DMG/Mori Seiki machines in the cell. Similarly, machining centers in the IP turbine disc cell are all identical models from Hermle. Throughout the facility, the various machining centers (as well as surface grinding machines from Kehren) all use the same controller—the Siemens 840D.

With this controller, data collected within some of the machining processes are used for adaptive closed-loop process control. Recently, the Advanced Manufacturing Research Centre (AMRC) in Sheffield, U.K.—the research facility after which CCAM was modeled—developed a particularly sophisticated adaptive technology that Rolls-Royce has now incorporated into its fan disc machining. When the new fan disc cell began, complex blends and radii were added to fan disc parts through a manual finishing operation. Mating the blends and radii to the compound edge contour was too difficult to perform through CNC machining because of the difficulty of assuring this complex curve’s precise position in space. The AMRC’s “mechanized edge profiling” solves this problem by measuring part edges within the machining cycle and using the data to chart actual edge locations. Accurate machining moves for radii and blends are then adapted from the curves. The system was validated at the Virginia factory’s sister facility at Sunderland in England, but its application at Crosspointe illustrates how readily a significant technology advance can be incorporated at this plant.

3. Short Lines of Supply

Some of the distances to Crosspointe suppliers are short indeed. Shot peening contractor Metal Improvement Company (MIC) has equipment, staff and space within the rotatives building. By walking through a door, a person leaves Rolls-Royce and enters MIC. CEVA, a shipping and logistics supplier, and Trescal, a gage calibration contractor, are two other companies with staff and resources residing at Crosspointe in the same way. Rolls-Royce and its on-site contractors collaborate closely to achieve a set of business metrics shared among the companies.

The integrated connection to MIC proved particularly valuable in the case of the fan disc parts. When the factory allowed this supplier to implement a robotic shot peen process for greater efficiency, the improvement had an unexpected impact on the trial component. The diameter of a relatively thin-walled section of the test disc changed, suggesting that production parts would leave this process oversize. If the supplier had been located in another city or state, addressing this problem would have been time-consuming and expensive. But because the machining cell and the supplier occupy the same shop floor, personnel from the two companies were able to work together to fine-tune their combined process. By iteratively machining the parts to different diameters and monitoring the results in shot peening, Rolls-Royce and MIC were able to quickly find the optimal parameters for producing a part that would leave the new process with the diameter correct.

4. Capability and Culture

Mr. Sodell says the most significant reason why the rotatives factory can run with a small number of people is because so much is expected from every staff member. No employees are single-function button pushers, and production employees don’t expect to occupy a long tenure in any particular task.

Everyone is a leader, Mr. Sodell says. That statement is not just an ideal, but also a practical implication of factory policy. A yellow-belt certification that all employees are required to obtain early in their time with the company requires the employee to lead a successful improvement project. For Rolls-Royce, ensuring a culture of continuous improvement means ensuring that every employee experiences it directly.

Maintaining that culture also requires cross training. Equipping staff members to perform various functions not only makes them more versatile and knowledgeable, but also ensures that no employee is overly invested in one job function. Those functions are subject to change, he says. The AMRC-developed mechanized edge profiling offers an example. This technology had no potential to dislocate the employees performing manual blending, because it was already natural and expected that their attentions would eventually be directed somewhere else.

Communication is most vital discipline of all, Mr. Sodell says. The very design of the plant reinforces this priority. A large window connects the production floor directly to the office area where engineers work, and within that latter area, no one works within an enclosed space. Openness is important because sharing information has to be easy, intuitive and unimpeded, he says. Sources of complexity, uncertainty or inefficiency can’t be allowed to be covered or concealed. The reason this plant is freely able to continuously improve is because the factory is small enough, and open enough, that everyone working here can see every part of it and understand what’s going on.


---------------------------------------------------------------------------------------

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_0Ac.jpg" width="500" height="404" alt="Fan disc machining includes milling, drilling and turning operations on a series of identical and interchangeable machining centers. Barry Reeves works at one of the fan disc machines.">
Fan disc machining includes milling, drilling and turning operations on a series of identical and interchangeable machining centers. Barry Reeves works at one of the fan disc machines.

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_0B.jpg" width="369.5652173913043" height="493" alt="Neil Holloway moves a part between operations.">
Neil Holloway moves a part between operations.

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_1.jpg" width="369.5652173913043" height="493" alt="Plant manager Lorin Sodell helped to launch the new factory. He says the clean and modern look of the plant catches attention, but the values and culture of the lean staff are the most important reasons why it will succeed.">
Plant manager Lorin Sodell helped to launch the new factory. He says the clean and modern look of the plant catches attention, but the values and culture of the lean staff are the most important reasons why it will succeed.

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_2.jpg" width="500" height="375" alt="Two fan disc parts are inspected in a room adjacent to the cell in which these parts are machined.">
Two fan disc parts are inspected in a room adjacent to the cell in which these parts are machined.

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_3A.jpg" width="500" height="375" alt="Walk through the door and you have left Rolls-Royce. (See next photo.)">
Walk through the door and you have left Rolls-Royce. (See next photo.)

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_3B.jpg" width="369.5652173913043" height="493" alt="The space, staff and shot peening equipment beyond it are those of Rolls-Royce’s supplier, Metal Improvement Company.">
The space, staff and shot peening equipment beyond it are those of Rolls-Royce’s supplier, Metal Improvement Company.

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_4.jpg" width="500" height="375" alt="Charles Sims inspects a fan disc part on an American Hofmann balance-measurement machine.">
Charles Sims inspects a fan disc part on an American Hofmann balance-measurement machine.

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_5.jpg" width="500" height="375" alt="Natural light illuminates white floors within the rotatives factory. This photo was taken in April, when the company had just begun to install the IP turbine disc cell. Even at this early date, the Hermle machines seen here were already producing parts.">
Natural light illuminates white floors within the rotatives factory. This photo was taken in April, when the company had just begun to install the IP turbine disc cell. Even at this early date, the Hermle machines seen here were already producing parts.

<img id="TB_Image" src="http://d2n4wb9orp1vta.cloudfront.net/resources/images/cdn/cms/0912_mms_leanfromthebeginning_Sidebar.jpg" width="500" height="286" alt="CCAM, located near Rolls-Royce Crosspointe, is directed jointly by Rolls-Royce and other partner companies">
CCAM, located near Rolls-Royce Crosspointe, is directed jointly by Rolls-Royce and other partner companies


---------------------------------------------------------------------------------------


Article From: Modern Machine Shop, Peter Zelinski, Senior Editor

MMSOnline Blog

Click Here for a free subscription to Modern Machine Shop magazine.
Click Here to subscribe to the MMS Extra monthly e-newsletter.

This article is reprinted with permission from Modern Machine Shop Magazine, and is protected under U.S. and international copyright laws. Modern Machine Shop Magazine is protected under U.S. and international copyright laws. Before reproducing anything from this Web site, call Gardner Business Media, Inc. (513) 527-8800.
 
Last edited:








 
Back
Top