Ogle Models Introduces a Flame-Retardant Plastic



Krailling, Germany — Ogle Models (Letchworth, UK), has introduced a flame-retardant plastic to the range of materials that it uses to produce components for customers. Designated PA 2210 FR, the powder is produced by EOS for use in its laser-sintering machines, of which Ogle operates three, two of which were bought in June 2008 as part of a £1 million investment.

The polyamide PA 2210 FR was especially designed to meet the flammability, smoke and toxicity standards for the civil aerospace industry. Airplane manufacturers like Boeing, Dassault, Embraer and others have successfully tested the new material. PA 2210 FR typically qualifies for “flying hardware” with wall thicknesses down to 2 mm.

In the telecommunications industry, Ogle has for some time been producing a fire-retardant, fiber-optic tray for communications towers using a combination of stereolithography (SLA) and vacuum casting. The process used to be time-consuming and relatively expensive. The same part is now laser-sintered in one operation using PA 2210 FR in quantities up to 180-off, without the need for tooling, resulting in a 30 percent cost saving for the customer.

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The new EOSINT P 730 plastic laser-sintering machine (right) installed at Ogle Models, Letchworth, alongside an upgraded EOSINT P 385.

Recent investment at Ogle’s product development service centre in Letchworth has seen a near doubling of floor area, giving more space to develop both the traditional model making and CNC prototyping sides of its business. Clients include many blue-chip organizations such as Bentley and GlaxoSmithKline as well as leading design, building and architectural firms including Laing O’Rourke, Arup and KPF.

The first EOS plastic laser-sintering machine, an EOSINT P 385, was installed at Letchworth in 2000, but for the last 18 months it has been working to capacity, 24 hours a day. Ogle’s rapid prototyping director, Steve Willmott, commented that the machine has been upgraded twice by EOS to take advantage of improvements in laser-sintering. The result has been a 30 percent increase in productivity and a 50 percent improvement in component quality.

A step-change in performance came with the installation of the two latest machines, a larger EOSINT P 730 with 700 x 380 x 580 mm build volume and a smaller 200 x 250 x 330 mm capacity FORMIGA P 100.

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New also at Ogle Models is a FORMIGA P 100 plastic laser-sintering machine, capable of 10-micron layer definition.

Similarly the FORMIGA P 100 does everything that the large machine is able to, but within a smaller work volume, yet to even higher accuracy thanks to the 0.1 mm layer thickness. An early contract fulfilled by Ogle using this machine was for a customer in the medical sector, whose fine-tolerance nylon parts were previously made by SLA and vacuum casting in a longer lead time and at higher cost.

Series production of laser-sintered plastic components is becoming the norm at Ogle, in addition to ones and twos for prototype applications. A good example is the manufacture of parts in batches of several hundred for a thermal imaging camera used in search-and-rescue work.

From a CAD model supplied by the customer, laser-sintering is used to make the chassis that supports the thermal imaging screen and the electronics. No hard tooling is required, so any alteration in design is easily accommodated without additional expense.

A big advantage of additive layer manufacturing by laser-sintering is that the process is fully self-supporting, allowing parts to be built within other parts and with complex geometries that could not be realized any other way. These attributes lower the cost of production and at the same time offer unfettered freedom of design. Moreover, the resulting components are strong and rigid enough to be used in places where they may be subjected to mechanical and thermal stress.

www.eos.info

MPF

Source: :: Make Parts Fast ::