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Brittle material toughened: Tungsten-fiber-reinforced tungsten

Date:
May 28, 2013
Source:
Max-Planck-Institut fuer Plasmaphysik
Summary:
Tungsten is particularly suitable as material for highly stressed parts of the vessel enclosing a hot fusion plasma, it being the metal with the highest melting point. A disadvantage, however, is its brittleness, which under stress makes it fragile and prone to damage. A novel, more resilient compound material has now been developed. It consists of homogeneous tungsten with coated tungsten wires embedded. A feasibility study has just shown the basic suitability of the new compound.

Cross-section of the new tungsten compound. The microscope shows the circular cross-sections of hair-fine tungsten wires, tightly bunched and embedded in a tungsten matrix.
Credit: IPP, Johann Riesch

Tungsten is particularly suitable as material for highly stressed parts of the vessel enclosing a hot fusion plasma, it being the metal with the highest melting point. A disadvantage, however, is its brittleness, which under stress makes it fragile and prone to damage. A novel, more resilient compound material has now been developed by Max Planck Institute for Plasma Physics (IPP) at Garching. It consists of homogeneous tungsten with coated tungsten wires embedded. A feasibility study has just shown the basic suitability of the new compound.

The objective of the research conducted at IPP is to develop a power plant that, like the sun, derives energy from fusion of atomic nuclei. The fuel used is a low-density hydrogen plasma. To ignite the fusion fire the plasma has to be confined in magnetic fields and heated to a high temperature. In the core 100 million degrees is attained. Tungsten is a highly promising metal as material for components coming into direct contact with the hot plasma. This has been demonstrated by extensive investigations at IPP. A hitherto unsolved problem, however, has been the brittleness of the material: Tungsten loses its toughness under power plant conditions. Local stress – tension, stretching or pressure – cannot be obviated by the material slightly giving way. Cracks form instead: Components therefore react very sensitively to local overloading.

That is why IPP looked for structures capable of distributing local tension. Fibre-reinforced ceramics served as models: For example, brittle silicon carbide is made five times as tough when reinforced with silicon carbide fibres. After a few preliminary studies IPP scientist Johann Riesch was to investigate whether similar treatment can work with tungsten metal.

The first step was to produce the new material. A tungsten matrix had to be reinforced with coated long fibres consisting of extruded tungsten wire thin as hair. The wires, originally intended as luminous filaments for light bulbs, where supplied by Osram GmbH. Various materials for coating them were investigated at IPP, including erbium oxide. The completely coated tungsten fibres were then bunched together, either parallel or braided. To fill out the gaps between the wires with tungsten Johann Riesch and his co-workers then developed a new process in conjunction with English industrial partner Archer Technicoat Ltd. Whereas tungsten workpieces are usually pressed together from metal powder at high temperature and pressure, a more gentle method of producing the compound was found: The tungsten is deposited on the wires from a gaseous mixture by applying a chemical process at moderate temperatures. This was the first time that tungsten-fibre-reinforced tungsten was successfully produced, with the desired result: The fracture toughness of the new compound had already tripled in relation to fibreless tungsten after the first tests.

The second step was to investigate how this works: The decisive factor proved to be that the fibres bridge cracks in the matrix and can distribute the locally acting energy in the material. Here the interfaces between fibres and the tungsten matrix, on the one hand, have to be weak enough to give way when cracks form and, on the other, be strong enough to transmit the force between the fibres and matrix. In bending tests this could be observed direct by means of X-ray microtomography. This demonstrated the basic functioning of the material.

Decisive for the material’s usefulness, however, is that the enhanced toughness is maintained when it is applied. Johann Riesch checked this by investigating samples that had been embrittled by prior thermal treatment. When the samples were subjected to synchrotron radiation or put under the electron microscope, stretching and bending them also confirmed in this case the improved material properties: If the matrix fails when stressed, the fibres are able to bridge the cracks occurring and stem them.

The principles for understanding and producing the new material are thus settled. Samples are now to be produced under improved process conditions and with optimised interfaces, this being the prerequisite for large-scale production. The new material might also be of interest beyond the field of fusion research.


Story Source:

The above story is based on materials provided by Max-Planck-Institut fuer Plasmaphysik. Note: Materials may be edited for content and length.


Cite This Page:

Max-Planck-Institut fuer Plasmaphysik. "Brittle material toughened: Tungsten-fiber-reinforced tungsten." ScienceDaily. ScienceDaily, 28 May 2013. <www.sciencedaily.com/releases/2013/05/130528091622.htm>.
Max-Planck-Institut fuer Plasmaphysik. (2013, May 28). Brittle material toughened: Tungsten-fiber-reinforced tungsten. ScienceDaily. Retrieved April 16, 2014 from www.sciencedaily.com/releases/2013/05/130528091622.htm
Max-Planck-Institut fuer Plasmaphysik. "Brittle material toughened: Tungsten-fiber-reinforced tungsten." ScienceDaily. www.sciencedaily.com/releases/2013/05/130528091622.htm (accessed April 16, 2014).

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