ball clay

Ball clays are kaolinitic sedimentary clays that commonly consist of 20–80% kaolinite, 10–25% mica and 6–65% quartz, along with small amounts of organic matter (such as lignite) and trace amounts of other minerals such as pyrite and siderite.

They are a common raw material for various types of ceramics, where their primary roles are to impart unfired strength, plasticity or to aid rheological stability during the shaping processes.'Ceramic Raw Materials' 2nd edition. W.E. Worrall. Pergamon Press, 1982 Most ball clays impart colours ranging from buff to cream to off-white when fired in an oxidising atmosphere.'Industrial Minerals & Rocks - Commodities, Markets And Uses' J. E. Kogel. Society For Mining, Metallurgy And Exploration, 2006

The name "ball clay" is derived from the form of the extracted material when dug by spade as cubes, which then became rounded during subsequent transport, in Dorset and Devon, England during the early days of the industry during the 18th century.'Ball Clay Basics' P. S. Powell. Ceram. Eng. Sci. Proc., 16 [3] 200-206, 1995. Pg. 200{{cite web

|title = What is ball clay?

|publisher = Industrial Minerals Association - North America

|url = http://www.ima-na.org/ball-clay

|accessdate = 2008-08-05

|url-status = dead

|archiveurl = https://web.archive.org/web/20090923120805/http://www.ima-na.org/Ball-Clay

|archivedate = 2009-09-23

}}

In 2008, UK production of ball clay was reported to be worth £82 million, with sanitaryware manufacturers being the largest single group of end users, representing 40% by volume.'Ball Clay' Mineral Planning Factsheet. British Geological Survey. 2008.

Locations

File:Track out of Newbridge ball clay quarry - geograph.org.uk - 1654782.jpg

Deposits are relatively scarce due to the combination of geological factors needed for their formation and preservation.{{cite web

| last = Highley

| first = David

| authorlink =

|author2= Bloodworth, Andrew|author3= Bate, Richard

| title = Ball Clay - Mineral Planning Factsheet

| publisher = British Geological Survey

| date = 2006

| url = http://www.mineralsuk.com/britmin/mpfball_clay.pdf

| format = pdf file

| accessdate = 2008-08-05}} Commercial extraction of ball clays is undertaken across the world, including:'The Constitution, Evaluation And Ceramic Properties Of Ball Clays' I. R. Wilson. Cerâmica vol.44 no.287-288 São Paulo May/June/July/Aug. 1998

Argentina (San Julian area of Patagonia)
Brazil (various locations including the region around São Paulo - São Simão, Suzano and Ribeirão Pire)
China (various including Guangdong Province)
Czech Republic (Cheb, Plzeň, Prague, Most, S. Bohemia and W. Moravia)
Germany (various locations but the main is the Westerwald region)
Indonesia (various locations including the island of Kalimantan)
Thailand (Lampang)
United Kingdom (the Bovey Basin of south Devon, the Petrockstow Basin in north Devon and the area around Wareham in south-east Dorset)
USA (Kentucky, Tennessee and Texas)

Production output

Global production of ball clay by country for 2002-2003 was estimated to be:

class="wikitable collapsible"

!Country

!1,000 tonnes

South Africa

|10

Africa - total

|10

|2,000

|600

|500

|300

|200

|150

Asia - total

|3,750

|3,500

|3,000

|1,200

|1,000

|550

|400

|400

|100

|50

Europe - total

|10,200

United States

|1,200

North America - total

|1,200

Australia

|80

Oceania - total

|80

Brazil

|250

Argentia

|50

Chile

South America - total

|350

Global - total

|15,385

Typical properties

Some selected typical properties of various UK ball clays are:

class="wikitable collapsible" ! Product name !! Hycast Rapide !! Sanblend 75 Slurry !! Prestige BLU !! Prestige TA !! Hyplas 71 !! Hymod Excelsior !! Hymod Blue
Source \| Bovey \|\| Bovey \|\| Bovey \|\| Petrockstow \|\| Petrockstow \|\| Wareham \|\| Warehan
Producing company \| Imerys \|\| WBB \|\| WBB \|\| WBB \|\| Imerys \|\| Imerys \|\| Imerys
\| \|\| \|\| \|\| \|\| \|\| \|\|
Residue, wt% <125 μm \| 2.0 \|\| 0.1 \|\| 0.2 \|\| 0.5 \|\| 1.0 \|\| 0.3 \|\| 0.1
% <2 μm \| 70 \|\| 78 \|\| 82 \|\| 77 \|\| 57 \|\| 92 \|\| 89
% <1 μm \| 60 \|\| 65 \|\| -\|\| -\|\| 50 \|\| 87 \|\| 79
% <0.5 μm \| 45 \|\| -\|\| -\|\| -\|\| 40 \|\| 80 \|\| 65
\| \|\| \|\| \|\| \|\| \|\| \|\|
SiO₂, % \| 55.0 \|\| 53.7 \|\| 54.0 \|\| 60.5 \|\| 69.0 \|\| 49.0 \|\| 53.0
Al₂O₃, % \| 29.0 \|\| 28.9 \|\| 31.2 \|\| 25.8 \|\| 20.0 \|\| 35.0 \|\| 31.0
Fe₂O₃, % \| 1.1 \|\| 1.2 \|\| 1.0 \|\| 1.9 \|\| 0.9 \|\| 1.6 \|\| 1.4
TiO₂, % \| 1.1 \|\| 1.1 \|\| 1.2 \|\| 1.5 \|\| 1.7 \|\| 1.3 \|\| 1.0
CaO, % \| 0.2 \|\| -\|\| -\|\| -\|\| 0.1 \|\| 0.3 \|\| 0.3
MgO, % \| 0.3 \|\| -\|\| -\|\| -\|\| 0.4 \|\| 0.3 \|\| 0.5
K₂O, % \| 1.6 \|\| 2.5 \|\| 3.0 \|\| 2.9 \|\| 1.9 \|\| 1.2 \|\| 3.2
Na₂O, % \| 0.2 \|\| -\|\| -\|\| -\|\| 0.4 \|\| 0.2 \|\| 0.4
Carbon, % \| 2.0 \|\| 2.5 \|\| 0.2 \|\| 0.6 \|\| 0.1 \|\| 0.3 \|\| 0.4
LOI, % \| 12.0 \|\| 12.0 \|\| 9.0 \|\| 8.0 \|\| 5.4 \|\| 12.0 \|\| 9.2

class="wikitable collapsible"

! Product name !! Hycast Rapide !! Sanblend 75 Slurry !! Prestige BLU !! Prestige TA !! Hyplas 71 !! Hymod Excelsior !! Hymod Blue

Source

| Bovey || Bovey || Bovey || Petrockstow || Petrockstow || Wareham || Warehan

Producing company

| Imerys || WBB || WBB || WBB || Imerys || Imerys || Imerys

| || || || || || ||

Residue, wt% <125 μm

| 2.0 || 0.1 || 0.2 || 0.5 || 1.0 || 0.3 || 0.1

% <2 μm

| 70 || 78 || 82 || 77 || 57 || 92 || 89

% <1 μm

| 60 || 65 || -|| -|| 50 || 87 || 79

% <0.5 μm

| 45 || -|| -|| -|| 40 || 80 || 65

| || || || || || ||

SiO₂, %

| 55.0 || 53.7 || 54.0 || 60.5 || 69.0 || 49.0 || 53.0

Al₂O₃, %

| 29.0 || 28.9 || 31.2 || 25.8 || 20.0 || 35.0 || 31.0

Fe₂O₃, %

| 1.1 || 1.2 || 1.0 || 1.9 || 0.9 || 1.6 || 1.4

TiO₂, %

| 1.1 || 1.1 || 1.2 || 1.5 || 1.7 || 1.3 || 1.0

CaO, %

| 0.2 || -|| -|| -|| 0.1 || 0.3 || 0.3

MgO, %

| 0.3 || -|| -|| -|| 0.4 || 0.3 || 0.5

K₂O, %

| 1.6 || 2.5 || 3.0 || 2.9 || 1.9 || 1.2 || 3.2

Na₂O, %

| 0.2 || -|| -|| -|| 0.4 || 0.2 || 0.4

Carbon, %

| 2.0 || 2.5 || 0.2 || 0.6 || 0.1 || 0.3 || 0.4

LOI, %

| 12.0 || 12.0 || 9.0 || 8.0 || 5.4 || 12.0 || 9.2

History in the UK

The ceramic use of ball clays in Britain dates back to at least the Roman era. More recent trade began when a clay was needed to make tobacco pipes in the 16th and 17th century.{{cite web

| title = The Widespread Use of Ball Clay

| work = Introduction to Ball Clays

| publisher = The Ball Clay Heritage Society

| url = http://www.clayheritage.org/pages/wideuses.htm

| accessdate = 2008-08-05

| archive-url = https://web.archive.org/web/20081006163547/http://www.clayheritage.org/pages/wideuses.htm

| archive-date = 2008-10-06

| url-status = dead

}} In 1771 Josiah Wedgwood signed a contract for 1,400 tons a year of ball clay with Thomas Hyde of Purbeck, enabling the production of thinner-walled ceramics.{{cite web

|title = History of Ball Clay - Swanage Railway

|publisher = The Purbeck Mineral & Mining Museum

|url = http://www.pmmmg.org/History.htm

|accessdate = 2008-08-05

|archive-url = https://web.archive.org/web/20080514210942/http://www.pmmmg.org/History.htm

|archive-date = 2008-05-14

|url-status = dead

}}