Ceramics PDF

Summary

This document covers the different types of ceramics, their properties, and manufacturing processes. It details the process of manufacturing ceramics from raw materials to finished products.

Full Transcript

CERAMICS
Ceramics: Picture
-Crystalline ceramics some similar to PM (Powder metals).
-ceramics don’t deform, they break; essentially they are brittle
-can withstand large compressive forces, but not tensile or bending forces (due to
the tensile component)
-ceramics tend to be a very hard material
-crystalline structures in general have a higher melting point than metals
-three types ceramic materials: traditional, new, and glasses
traditional: made from minerals occuring in nature EEE
new ceramics: synthetically produced raw materials and embrace a wide spectrum of
items such as cutting tools, arti cial bones, etc.

IEaaitinal
a
consistencyofpastedetermines

the itfor
neitnatep tif
Techniques reducingparticle
sizeforceramicscrushing
grinding

Plastic meaning that
material is
malleable
Process: the moldedintoobjects
Prepare materials canbe
-Materials tend to be natural (obtained from earth and crushed into clay and
glass), synthetic (mined but heavily processed to change characteristics),
-Mining and processing to powder is similar to that of powder metals
Form green (weak; as strong as the chemical coat) shape: used to classify by
material families; either crystalline, clay based, or glass
Sinter ( ring; Glass → Heat treat)
Finishing (any other process needed )
whendried
beforefiring

crystalline
Slip casting: used to form a green shape for a ceramic from a slurry that contains the
powder ceramic material in it.
-This is used to for crystalline ceramics but also for some clay ceramic applications
Picture thatanowwaters
meaningmecontapsit.bg

E
A suspension of ceramic powders in
water called a slip is poured into a
porous plaster of Paris mold so water
from the mix is gradually absorbed into
the plaster to form a rm layer of clay at
the mold surface.
Thecompositionoftheslipistypically25 40
water remainderisclaymixedwithotheringredients

ceramics
t.aeEa i ii t.Ii ee
newSome also water such as slip casting, extrusion, injection
Ceramics: Crystalline:
molding.
-shaping processes can be divided according to the consistency of the mixture

slipcastingmixtureis a slurrywith25 40 water
inplastic
condition
ds 15 25 water clay
shape
I.BE ampi11fytho

Ceramics: Clay based (and Very viscous crystalline mixtures): plastic forming,
extrusion.
-Clay and water is a very plastic mixture, and it can be deformed using applied
forces, which methods are typically similar for those used for metal
-extrusion: practiced with most materials with di erent variations. For granular
IT
materials, the preblended materials will be placed into a extruder which will compact it
and produce a uniform shape, called a preform slug. Once the slug is produced, it is placed
in a mold where it proceeds to be deformed similarly to the process of metals. For the
nishing step, it is jiggered (tool use to shape the mold) and sent to be sinter
-used in ceramics processing to produce long sections of uniform cross sections, which
are then cut to required length. The extrusion equipment utilizes a screw type action to assist in
mixing the clay and pushing the plastic material through the1die opening. This process is typically
used to make hollow bricks, shaped tiles, drain pipes, tubes, and insulators
- ALSO USED FOR STARTING CLAY SLUGS (PRESLUGS) FOR OTHER CERAMICS
PROCESSES LIKE JIGGERING OR PLASTIC PRESSING

Plastic forming: Deforming of the plastic mixture of clay and water which can be used to make
ceramic objects; the mixtures typically have 15-25% water. The two methods within plastic forming,
manual which is done by hand, and mechanized which is by a machine
Jiggering: mechanized of potter’s wheel method (round table that rotates on a vertical spindle,
powered by either motor or foot operated treadle, methods of hand modeling, throwing, and molding
are used) It is used to produce large number of identical items

Ceramics: Drying and ring: similar to PM.
-When ceramics dry, the water that occupies a given volume leaves and evaporates.
This causes shrinkage within ceramics parts and can up to 20% smaller dimensions

Watermustberemovedfromthebodyofclaybeforefiringbutdoingreducesthe
volumeofthe
piece

Tryingftp aYy accomplished theredfamishedaEcontried toacheive
ayhfchaimiersifnitnenountetmhp.fr
 Afterdrying
ceramtic
issaidto be in a GRL L N S 1111
FIII.FI mentprocessthat
Insintering
the
sinters
bondsaredeveloped
ceramic
between
material itisperformed in afurnace orkiln
theceramicgrainswhichisaccompaniedby
densification reductionof
porosity

shrinkagealsooccursin
firing

Ceramics: way in which glass parts are made: Flat sheet: Float, rolling, drawing, blow
molding (parison pressing, blowmolding), pressing, centrifugal casting.
Blow molding: glass is melted in a furnace to a viscous state (not completely liquid)
and forms a blob of glass or the gob. The gob is then placed into the mold that will form the
neck geometry of the bottle. It is then forced into the mold through vast amount of methods
(such as compressed air) which it then eventually forms the parison (the pre bottle shape
that has a cavity in the gob and the neck geometry). The parison is placed into the mold
with the full shape of the bottle and compressed air is blown in and the glass assumes the
shape of the mold fully. As the glass cools, it will need to be reheated in order to keep
pliable and formable.
Pressing: gob a glass is fed into mold from the furnace and pressed into a shape by a plunger.
The plunger is retracted and the nished product is removed
Centrifugal glass casting: viscous glass is placed on a mold, then mold is rotated
and the glass ows towards the sides of the mold. As the rotational speed increases, the
curvature of the glass will become more pronounced
Rolling: starting glass is squeezed through opposing rolls whose separation determines the
thickness of the sheet
Float: glass ows directly
from its melting furnace onto the surface of a molten tin bath. The highly uid glass spreads evenly
across the molten tin surface, achieving a uniform thickness and smoothness. After moving into a
cooler region of the bath, the glass hardens and travels through an annealing furnace
Danner Process: DRAWING process for glass tubing. Molten glass ows around a rotating
hollow mandrel through which air is blown while the glass is being drawn. The air temperature and its
volumetric ow rate and drawing velocity determine the diameter and wall thickness of the tubular
cross section
include windowglass containers lightbulbs etc
majorcategories ofglassproducts
Ceramics: Glass: Tempering (residual stresses), laminated glass (bulletproof),
annealing.
Residual Stresses: tempered glass is typically produced over annealed glass
because it tends to break in smaller pieces compared to the latter
-the method to produce tempered glass is to induce compressive residual
stresses in the surface by heating the glass then cooling surfaces quickly
-
Annealinginvolvesheatingtheglasstoanelevated temperature itforacertain periodtoeliminate
holding

glassto
coolingthe supressstress
stresses temperaturegradientsthen formationfollowed
slowly bymorerapidcooling
tempering
increasestoughness oftheglass
laminated
glass by twopiecesofglassoneithersideofatoughpolymer
bulletprooffabricated sanwiching
sweet
Ceramics: Design: No sharp corners, no tensile loading, good for wear resistance,
manufacture to desired shape and wide tolerances (machining very di cult and
expensive).

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