Fabrication technology and material characterization of carbon fibre reinforced magnesium

“…Thus, the usage of lightweight metals and reinforced materials gains in importance and a big effort is laid on the replacement of conventional materials by metals like magnesium, aluminium or titanium [1].…”

“…Nevertheless, magnesium alloys are characterised by good damping capacity, excellent castability (suitable also for high-pressure die-casting) and weldability under controlled atmosphere. Moreover, this group of materials exhibits better mechanical properties, electrical and thermal conductivity and resistance to ageing in comparison with plastics [1,[3][4][5]. Mentioned properties enable the application of magnesium alloys in many industries, but the major drawbacks, limiting the extensive usage of these alloys, are relatively poor corrosion resistance and insufficient mechanical properties at elevated temperatures.…”

“…The need of high performance and light-weight materials in aerospace, aeronautical and automotive industries has become increasingly urgent in recent years, which leads to extensive research in the processing of magnesium matrix composites with cost-effective technologies [1]. Although there is no simple and clear definition of metal matrix composite, literature defines the magnesium matrix composite as a material consisting of rigid ceramic reinforcement and magnesium matrix.…”

Characterisation of Microstructure of We43 Magnesium Matrix Composites Reinforced with Carbon Fibres

“…Thus, the usage of lightweight metals and reinforced materials gains in importance and a big effort is laid on the replacement of conventional materials by metals like magnesium, aluminium or titanium [1].…”

“…Nevertheless, magnesium alloys are characterised by good damping capacity, excellent castability (suitable also for high-pressure die-casting) and weldability under controlled atmosphere. Moreover, this group of materials exhibits better mechanical properties, electrical and thermal conductivity and resistance to ageing in comparison with plastics [1,[3][4][5]. Mentioned properties enable the application of magnesium alloys in many industries, but the major drawbacks, limiting the extensive usage of these alloys, are relatively poor corrosion resistance and insufficient mechanical properties at elevated temperatures.…”

“…The need of high performance and light-weight materials in aerospace, aeronautical and automotive industries has become increasingly urgent in recent years, which leads to extensive research in the processing of magnesium matrix composites with cost-effective technologies [1]. Although there is no simple and clear definition of metal matrix composite, literature defines the magnesium matrix composite as a material consisting of rigid ceramic reinforcement and magnesium matrix.…”

Characterisation of Microstructure of We43 Magnesium Matrix Composites Reinforced with Carbon Fibres

“…aluminium, cast iron, mild steel and stainless steel) [1]. However, there are also problems associated with its use like low Young's modulus or low creep and thermal resistance [7]. In addition, magnesium has an important ignition risk when temperature reach 450°C and an imminent explosion danger exists when the process generates magnesium particles of size lower than 500 μm [8].…”

Experimental investigation on finish intermittent turning of UNS M11917 magnesium alloy under dry machining

“…Carbon fiber reinforced magnesium composite is an excellent candidate for high-performance and lightweight structural materials because of its low density, high specific strength, high damping capacity and dimensional stability [1,2]. Most of metal matrix composites (MMCs) have to be secondarily processed into structural parts.…”

Constitutive behavior of Csf/AZ91D composites compressed at elevated temperature and containing a small fraction of liquid