The shape of graphite in cast irons has the following
basic forms:
(a) Flakes. Graphite flakes have sharp edges
which act as stress raisers in tension.
This shape makes cast iron low in tensile
strength and ductility, but it still has high
compressive strength. On the other hand,
the flakes also act as vibration dampers,
a characteristic important in damping of
machine-tool bases and other structures.
(b) Nodules. Graphite can form nodules or
spheroids when magnesium or cerium is added to the melt. This form has increased ductility, strength, and shock resistance
compared to flakes, but the damping
ability is reduced.
(c) Clusters. Graphite clusters are much like
nodules, except that they form from the
breakdown of white cast iron upon annealing.
Clusters have properties that are basically
similar to flakes.
(d) Compacted flakes. These are short and
thick flakes with rounded edges. This form
has properties that are between nodular
and flake graphite.
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linear
grey
By adding "inoculant" to the liquid iron just before casting, undercooling can be minimized. Inoculation is a means of controlling the structure and properties of cast irons by increasing the number of nucleation sites available for the growth of graphite flakes in grey irons or graphite nodules in ductile irons.
Grey cast iron is good for machine bases due to its capacity of absorbing vibration. This can be explained through its microstructure, where graphite works as great shock absorber.
It has austenitic matrix with very good heat and corrosion resistance properties upto 1500 F
based on the microstructure of gray cast iron, the graphite form flakes, which is tiny flakes that tend to weaken the matrix structure in tension. it tend to fail in diagonal shear.
Free carbon in cast iron refers to carbon that exists in its elemental form within the iron matrix. It appears as graphite flakes or nodules, contributing to the material's unique properties, such as high fluidity during casting and improved machinability. This free carbon distinguishes cast iron from other metals.
because graphite phase in cast iron is relatively soft and this phase absorbs shocks
grey
Mechanical Properties of Ductile Iron. Ductile iron is characterized by having all of its graphite occur in microscopic spheroidsCast iron is formed by remelting pig iron, and is useful for a variety of engineering purposes.Properties and Uses of Iron. Iron is one of the three magnetic elements (the others are cobalt and nickel). Cast iron is very brittle (it cracks easily
malleable cast iron has temper graphite
cast iron, aluminum, graphite and magnesium
No The cast is made out of fiber glass and the cast would form into crystals.
Faik Abbas Tawfik Al-Biedhany has written: 'Transformation kinetics, structure and mechanical properties of unalloyed and Ni-Mo alloyed austempered spheroidal graphite cast irons'
By adding "inoculant" to the liquid iron just before casting, undercooling can be minimized. Inoculation is a means of controlling the structure and properties of cast irons by increasing the number of nucleation sites available for the growth of graphite flakes in grey irons or graphite nodules in ductile irons.
Spheroidal Graphite (Cast) Iron. As the name implies, graphite is present in spheroidal form instead of flakes and compared with Grey Cast Iron it has higher mechanical strength, ductility and increased shock resistance.
Present- Simple Past cast- cast shape- shaped form- formed
the answer is cast