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Additive Manufacturing Technique Extends Life of Sensors

Release time:2017-01-18 09:39 Click:98
An additive manufacturing technique called DMD (for "Direct Metal Deposition") developed by O.R. Lasertechnologie in Dieburg, Germany enables reliable protection of sensor elements by means of a hard alloy.
This makes it possible to significantly extend their lifetimes, for example in pipelines of the oil and gas industry.
 
Industrial sensors are very sensitive components. They are deployed to precisely and reliably monitor temperatures, flow rates, and pressure over long periods of time, for example in oil and gas pipelines. They are subjected to extreme stresses while doing so. Each day, about a million barrels of crude oil, or 160,000 cubic meters, pass through a pipeline with a diameter of one meter.
 
That is equivalent to 1850 liters per second. Onshore gas pipelines have an extremely high internal pressure of 100 bars, which can even reach 200 bars or more in offshore pipelines. Sensor elements used to monitor the flow suffer considerable wear as a result of corrosion and abrasion. This shortens their lifetimes and necessitates costly repairs.
 
Thanks to an innovative powder nozzle developed by the company of O.R. Lasertechnologie (OR LASER), the technology of powder-based laser cladding also known as DMD can be used to greatly prolong the life expectancy of these sensors. The compact EVO Mobile laser welding system is excellently suited for applying wear-resistant coatings and carrying out repairs or modifications. The system uses relatively low laser output levels starting at 200 watts, but its high deposition rate of up to 5000 mm³/h makes it ideal for a vast range of applications. It boasts both high efficiency and great value for money due to its low price.
 
The way to lastingly protect a sensor from wear is to coat it with Stellite. The cobalt-chromium-based alloys known by this name are very difficult to machine. The conventional approach is to apply composite clad layers with a total thickness of several millimeters. However, the intense heat applied during the process results in considerable mingling of the sensor’s material with the Stellite cladding. Use of the conventional method therefore considerably shortens its lifetime.
 
Unlike with conventional methods, the laser only minimally melts the surface of the sensor, and only at scattered points. Metallic powder, with grain sizes between 45 and 90 μm, is fed coaxially to the laser beam and permanently fuses with the object’s surface. The advantages of this approach include precise deposition of the material, low heat penetration, and an undistorted, crack-free coating. Track widths between 200 μm and 2 mm are possible.
 
The coaxial arrangement also permits deposition of material independently of the direction of cladding, so that the workpiece can be freely rotated in all directions and, if even "grow" in three dimensions. Moreover, the laser parameters can be dynamically adjusted to changing conditions on the fly.
 
In order to prevent oxidation and the formation of tiny bubbles, the work is done in a shielding atmosphere of argon, a noble gas. The resulting surface quality is like new, free of pores and cracks, very close to the required final contours, and neat. The sensor itself is hardly affected by this "minimally invasive" technique, while its resistance to wear is greatly improved.
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