CORE-Materials: Micrograph of base metal. T6 - solution heat treated and artificially aged.
CORE-Materials: Barium Hexaferrite
CORE-Materials: Cu-10.5 wt% P
CORE-Materials: Gun metal bronze displaying coring.
CORE-Materials: Phosphor bronze exhibiting cored dendrites.
CORE-Materials: Normalised low carbon manganese steel, taken transverse to directionality
CORE-Materials: Carbon-carbon composite
CORE-Materials: Cu 52.5, Zn 47.5 (wt%) brass, as cast
CORE-Materials: Poly (lactic-co-glycolic acid) (PLGA) porous scaffold for tissue engineering. Average Pore Size 350-550 micrometre, porosity estimated at 35-45%
CORE-Materials: Fe, C 1.0 (wt%), hypereutectoid alloy
CORE-Materials: Ti, Al 6, V 4 (wt%), Widmanstätten microstructure
CORE-Materials: Microstructure of extruded tube in Magnesium alloy AZ91 in direction perpendicular to the direction of extrusion.
CORE-Materials: Cast iron, containing phosphorus
CORE-Materials: Fe, C 0.9 (wt%) steel, hypereutectoid, quenched and tempered
CORE-Materials: Cu 55, Zn 45 (wt%) brass, cast annealed
CORE-Materials: Remnants of crazes on a polystyrene fracture surface
CORE-Materials: Magnesium alloy
CORE-Materials: Injection-moulded polystyrene (PS) case
CORE-Materials: Al-Mg-Si, failed through microvoid coalescence.
CORE-Materials: Al 96, Cu 4 (wt%), solution treated and overaged - precipitation hardening
CORE-Materials: Copper-phosphorus alloy
CORE-Materials: Fractograph showing extensive matrix cracking and fibres bridging an opened matrix in a fibre reinforced magnesium aluminosilicate ceramic
CORE-Materials: Cu 70, Zn 30 (wt%), recrystallised - annealing twins
CORE-Materials: Doloma, (Ca,Mg)O
CORE-Materials: Cast and tempered 20% Sn bronze
CORE-Materials: Fe, C 0.75 (wt%) steel, quenched, martensitic and manganese sulphides
CORE-Materials: Strain induced birefringence in a thermoformed PET cup
CORE-Materials: Bi 90, Sn 10 (wt%)
CORE-Materials: Commercial grade free machining brass - Widmanstätten microstructure
CORE-Materials: Fe, C 3.6, Si 2.1 (wt%), hypereutectic grey cast iron