ClayFrom Wikipedia, the free encyclopedia Jump to: navigation, search For other uses, see Clay (disambiguation).Tanah liat Dari Wikipedia, ensiklopedia bebas Langsung ke: navigasi, cari Untuk kegunaan lain, lihat Clay (disambiguasi).The Gay Head cliffs in Martha's Vineyard consist almost entirely of clay. Clay is a naturally occurring aluminium silicate composed primarily of fine-grained minerals. Clay deposits are mostly composed of clay minerals, a subtype of phyllosilicate minerals, whic
ClayFrom Wikipedia, the free encyclopedia Jump to: navigation,
search For other uses, see Clay (disambiguation).
Tanah liat Dari Wikipedia, ensiklopedia bebas Langsung ke:
navigasi, cari Untuk kegunaan lain, lihat Clay (disambiguasi).
The Gay Head cliffs in Martha's Vineyard consist almost entirely
of clay. Clay is a naturally occurring aluminium silicate composed
primarily of fine-grained minerals. Clay deposits are mostly
composed of clay minerals, a subtype of phyllosilicate minerals,
which impart plasticity and harden when fired or dried; they also
may contain variable amounts of water trapped in the mineral
structure by polar attraction. Organic materials which do not
impart plasticity may also be a part of clay deposits.[1]
Contents[hide]
Gay Kepala tebing di Martha's Vineyard terdiri hampir seluruhnya
dari tanah liat. Clay adalah aluminium silikat alami terutama
terdiri dari mineral halus. Deposito Clay sebagian besar terdiri
dari mineral tanah liat, suatu subtipe mineral phyllosilicate, yang
memberi plastisitas dan mengeras bila dipecat atau kering, mereka
juga dapat mengandung jumlah variabel air terperangkap dalam
struktur mineral dengan daya tarik kutub. Bahan organik yang tidak
plastisitas memberi mungkin juga menjadi bagian dari endapan
lempung. [1] Isi [hide] 1 Formasi 2 Definisi 3 Pengelompokan 4
Sejarah dan modern menggunakan o 4.1 Medis dan menggunakan
pertanian o 4.2 Clay sebagai bahan bangunan 5 Lihat juga 6 Catatan
kaki 7 Referensi 8 Pranala luar
1 Formation 2 Definition 3 Grouping 4 Historical and modern uses
o 4.1 Medical and agricultural uses o 4.2 Clay as a building
material 5 See also 6 Footnotes 7 References 8 External links
[edit] Formation
Deforestation for clay extraction in Rio de Janeiro city -
Brazil. The picture is of Morro da Covanca - Jacarepagu. Clay
minerals are typically formed over long periods of time by the
gradual chemical weathering of rocks, usually silicate-bearing, by
low concentrations of carbonic acid and other diluted solvents.
These solvents, usually acidic, migrate through the weathering rock
after leaching through upper weathered layers. In addition to the
weathering process, some clay minerals are formed by hydrothermal
activity. Clay deposits may be formed in place as residual deposits
in soil, but thick deposits usually are formed as the result of a
secondary sedimentary deposition process after they have been
eroded and transported from their original location of formation.
Clay deposits are typically associated with very low energy
depositional environments such as large lakes and marine deposits.
Primary clays, also known as kaolins, are located at the site of
formation. Secondary clay deposits have been moved by erosion and
water from their primary location.[2]
Deforestasi untuk ekstraksi tanah liat di kota Rio de Janeiro -
Brasil. Gambar adalah Morro da Covanca - Jacarepagu. Clay mineral
biasanya terbentuk selama jangka waktu yang lama oleh kimia
bertahap pelapukan batuan, biasanya silikat-bearing, dengan
konsentrasi rendah dari asam karbonat dan pelarut diencerkan
lainnya. Pelarut ini, biasanya asam, bermigrasi melalui pelapukan
batuan setelah pencucian melalui lapisan lapuk atas. Selain proses
pelapukan, beberapa mineral lempung yang terbentuk oleh aktivitas
hidrotermal. Deposito Clay dapat dibentuk di tempat seperti
deposito residu dalam tanah, tapi deposito tebal biasanya terbentuk
sebagai hasil dari proses pengendapan sedimen sekunder setelah
mereka telah terkikis dan diangkut dari lokasi asli formasi mereka.
Clay deposito biasanya berhubungan dengan lingkungan pengendapan
energi yang sangat rendah seperti danau besar dan deposito laut.
Tanah liat primer, juga dikenal sebagai kaolins, terletak di lokasi
pembentukan. Endapan lempung sekunder telah dipindahkan oleh erosi
dan air dari lokasi utama mereka. [2]
[edit] Definition
electron microscope photograph of smectite clay - magnification
23,500 Clays are distinguished from other finegrained soils by
differences in size and mineralogy. Silts, which are fine-grained
soils that do not include clay minerals, tend to have larger
particle sizes than clays, but there is some overlap in both
particle size and other physical properties, and there are many
naturally occurring deposits which include both silts and clays.
The distinction between silt and clay varies by discipline.
Geologists and soil scientists usually consider the separation to
occur at a particle size of 2 m (clays being finer than silts),
sedimentologists often use 4-5 m, and colloid chemists use 1 m.[1]
Geotechnical engineers distinguish between silts and clays based on
the plasticity properties of the soil, as measured by the soils'
Atterberg Limits. ISO 14688 grades clay particles as being smaller
than 2 m and silts larger.
Lempung dibedakan dari tanah halus lainnya oleh perbedaan dalam
ukuran dan mineral. Silts, yang merupakan tanah berbutir halus yang
tidak meliputi mineral lempung, cenderung memiliki ukuran yang
lebih besar dari tanah liat, tapi ada beberapa tumpang tindih baik
dalam ukuran partikel dan sifat fisik lainnya, dan ada banyak
deposito alami yang mencakup baik silts dan lempung. Perbedaan
antara lanau dan lempung bervariasi oleh disiplin. Ahli geologi dan
ilmuwan tanah biasanya mempertimbangkan pemisahan terjadi pada
ukuran partikel 2 pM (tanah liat halus yang dari silts),
sedimentologists sering menggunakan 4-5 pM, dan kimia koloid
menggunakan 1 pM. [1] Geoteknik insinyur membedakan antara silts
dan tanah liat berdasarkan sifat plastisitas tanah, yang diukur
dengan Batas tanah 'Atterberg. ISO 14688 partikel tanah liat nilai
sebagai lebih kecil dari 2 pM dan silts lebih besar.
Quaternary clay in Estonia.
[edit] GroupingDepending on the academic source, there are three
or four main groups of clays: kaolinite, montmorillonite-smectite,
illite, and chlorite. Chlorites are not always considered a clay,
sometimes being classified as a separate group within the
phyllosilicates. There are approximately 30 different types of
"pure" clays in these categories, but most "natural" clays are
mixtures of these different types, along with other weathered
minerals. Varve (or varved clay) is clay with visible annual
layers, formed by seasonal differences in erosion and organic
content. This type of deposit is common in former glacial lakes.
When glacial lakes are formed there is very little movement of the
water that makes the lake, and these eroded soils settle on the
lake bed. This allows such an even distribution on the different
layers of clay.[2] Quick clay is a unique type of marine clay
indigenous to the glaciated terrains of Norway, Canada, Northern
Ireland, and Sweden. It is a highly sensitive clay, prone to
liquefaction, which has been involved in several deadly
landslides.Tergantung pada sumber akademik, ada tiga atau empat
kelompok utama dari tanah liat: kaolinit, montmorilonit-smektit,
ilit, dan klorit. Klorit tidak selalu dianggap sebagai tanah liat,
kadang-kadang dikelompokkan sebagai kelompok yang terpisah dalam
phyllosilicates. Ada sekitar 30 jenis "murni" lempung dalam
kategori, tapi yang paling "alami" tanah liat adalah campuran dari
berbagai jenis, bersama dengan mineral lapuk lainnya. Varve (atau
tanah liat varved) adalah tanah liat dengan lapisan tahunan
terlihat, dibentuk oleh perbedaan musiman di erosi dan kandungan
organik. Jenis deposito adalah umum di danau-danau glasial bekas.
Ketika danau glacial terbentuk ada gerakan sangat sedikit air yang
membuat danau, dan erosi tanah ini menetap di tempat tidur danau.
Hal
ini memungkinkan seperti distribusi yang merata pada lapisan
yang berbeda dari tanah liat. [2] Cepat tanah liat adalah jenis
tanah liat laut yang unik adat ke medan glaciated Norwegia, Kanada,
Irlandia Utara, dan Swedia. Ini adalah tanah liat sangat sensitif,
rentan terhadap likuifaksi, yang telah terlibat dalam beberapa
mematikan longsor.
[edit] Historical and modern uses
Clay layers in a construction site. Dry clay is normally much
more stable than sand with regard to excavations. Clays exhibit
plasticity when mixed with water in certain proportions. When dry,
clay becomes firm and when fired in a kiln, permanent physical and
chemical changes occur. These reactions, among other changes, cause
the clay to be converted into a ceramic material. Because of these
properties, clay is used for making pottery items, both utilitarian
and decorative. Different types of clay, when used with different
minerals and firing conditions, are used to produce earthenware,
stoneware, and porcelain. Prehistoric humans discovered the useful
properties of clay, and one of the earliest artifacts ever
uncovered is a drinking vessel made of sun-dried clay.[citation
needed] Depending on the content of the soil, clay can appear in
various colors, from a dull gray to a deep orange-red.
Clay tablets were used as the first known writing medium,
inscribed with cuneiform script through the use of a blunt reed
called a stylus. Clays sintered in fire were the first form of
ceramic. Bricks, cooking pots, art objects, dishware, and even
musical instruments such as the ocarina can all be shaped from clay
before being fired. Clay is also used in many industrial processes,
such as paper making, cement production, and chemical filtering.
Clay is also often used in the manufacture of pipes for smoking
tobacco. Until the late 20th century bentonite clay was widely used
as a mold binder in the manufacture of sand castings. Clay, being
relatively impermeable to water, is also used where natural seals
are needed, such as in the cores of dams, or as a barrier in
landfills against toxic seepage (lining the landfill, preferably in
combination with geotextiles).[3] Recent[when?] studies have
investigated clay's absorption capacities in various applications,
such as the removal of heavy metals from waste water and air
purification.Clay lapisan di lokasi konstruksi. Tanah liat kering
biasanya jauh lebih stabil daripada pasir berkaitan dengan
penggalian. Lempung plastisitas menunjukkan bila dicampur dengan
air dalam proporsi tertentu. Setelah kering, tanah liat menjadi
tegas dan ketika dibakar dalam sebuah tungku, perubahan fisik dan
kimia tetap terjadi. Reaksi ini, antara perubahan lain, menyebabkan
tanah liat untuk dikonversi menjadi bahan keramik. Karena sifat
ini, tanah liat digunakan untuk membuat barang-barang tembikar,
baik utilitarian dan dekoratif. Berbagai jenis tanah liat, bila
digunakan dengan mineral yang berbeda dan kondisi pembakaran,
digunakan untuk memproduksi gerabah, periuk, dan porselen.
Prasejarah manusia menemukan
sifat yang berguna dari tanah liat, dan salah satu artefak
paling awal yang pernah ditemukan adalah kapal minum terbuat dari
tanah liat kering sinar matahari. [rujukan?] Tergantung pada isi
tanah, tanah liat dapat muncul dalam berbagai warna, dari
membosankan abu-abu ke dalam oranyemerah. Clay tablet digunakan
sebagai media menulis pertama dikenal, ditulis dengan huruf paku
script melalui penggunaan buluh tumpul disebut stylus. Lempung
sinter dalam api adalah bentuk pertama dari keramik. Batu bata,
memasak pot, benda-benda seni, dishware, dan bahkan alat musik
seperti Ocarina semua dapat dibentuk dari tanah liat sebelum
dipecat. Clay juga digunakan dalam berbagai proses industri,
seperti pembuatan kertas, produksi semen, dan kimia penyaringan.
Clay juga sering digunakan dalam pembuatan pipa untuk merokok.
Sampai tanah liat akhir abad ke-20 bentonit secara luas digunakan
sebagai bahan pengikat cetakan dalam pembuatan coran pasir. Clay,
yang relatif kedap air, juga digunakan dimana seal alam dibutuhkan,
seperti dalam inti bendungan, atau sebagai penghalang di landfill
terhadap rembesan beracun (lapisan TPA, sebaiknya dalam kombinasi
dengan geotekstil). [3] Baru-baru ini [kapan?] studi telah
menyelidiki kapasitas penyerapan tanah liat di berbagai aplikasi,
seperti penghilangan logam berat dari air limbah dan pemurnian
udara.
[edit] Medical and agricultural usesA traditional use of clay as
medicine goes back to prehistoric times. An example is Armenian
bole, which is used to soothe an upset stomach, similar to the way
parrots (and later, humans) in South America originally used it.[4]
Kaolin clay and
attapulgite have been used as anti-diarrheal medicines. A more
recent[when?] and limited use is as a specially formulated spray
applied to fruits, vegetables, and other vegetation to repel or
deter codling moth damage, and at least for apples, to prevent sun
scald. A 2007 article in The Journal of Antimicrobial Chemotherapy
found that certain iron-rich clay was effective in killing
bacteria.[5]
[edit] Clay as a building materialClay is one of the oldest
building materials on Earth, among other ancient,
naturallyoccurring geologic materials such as stone and organic
materials like wood. Between one-half and two-thirds of the world's
population, in traditional societies as well as developed
countries, still lives or works in a building made with clay as an
essential part of its load-bearing structure. Also a primary
ingredient in many natural building techniques, clay is used to
create adobe, cob, cordwood, and rammed earth structures.[sunting]
Kedokteran dan menggunakan pertanian Sebuah penggunaan tradisional
dari tanah liat sebagai obat kembali ke zaman prasejarah. Contohnya
adalah batang Armenia, yang digunakan untuk menenangkan sakit
perut, mirip dengan burung-burung beo cara (dan kemudian, manusia)
di Amerika Selatan awalnya menggunakannya. [4] Kaolin tanah liat
dan attapulgite telah digunakan sebagai obat anti-diare. Seorang
yang lebih baru [kapan?] dan penggunaan terbatas, semprot
diformulasikan secara khusus diterapkan pada buah-buahan, sayuran,
dan vegetasi lain untuk mengusir atau mencegah kerusakan Codling
ngengat, dan setidaknya untuk apel, untuk mencegah kudis
matahari.
Sebuah artikel 2007 di The Journal of Antimicrobial Kemoterapi
menemukan bahwa tanah liat besi kaya tertentu yang efektif dalam
membunuh bakteri. [5] [sunting] Clay sebagai bahan bangunan Clay
adalah salah satu bahan bangunan tertua di Bumi, antara lain kuno,
bahan geologi yang terjadi secara alamiah seperti batu dan bahan
organik seperti kayu. Antara satu setengah dan dua-pertiga dari
penduduk dunia, dalam masyarakat tradisional maupun negaranegara
maju, masih tinggal atau bekerja di sebuah bangunan dibuat dengan
tanah liat sebagai bagian penting dari struktur loadbearing. Juga
merupakan bahan utama dalam banyak teknik bangunan alam, tanah liat
digunakan untuk membuat adobe, tongkol, kayu bakar, dan menabrak
struktur bumi.
HOW TO MAKE A CLAY BRICKhttp://www.brighthub.com/engineering/c
ivil/articles/45788.aspx Red clay bricks have been in use for quite
some time now. You will usually find this procedure is mainly for
building adobe. Bricks cover up the major portions of the building
walls. Continue reading to discover the six steps involved in clay
brickmaking:
Soil testing: You need to test the soil from which you plan to
prepare the brick. The proportion of sand to clay in the soil
should not be more than 50% (minimum 30%). But how to test that? A
simple method is to mix 10 teaspoons of the soil to a glass of
clean water, stir it completely, and keep it overnight. You will
see two clear layers of clay and sand. From
the size of each layer you can find out the proportion.
Fahrenheit temperature for seven more days.
Prepare the mold: Wooden (ideally beech wood) planks and nails
are used to prepare brick molds. The standard size of a brick is 14
x 10 x 4. You can make molds for single brick as well as multiple
bricks. Prepare the clay: Dig the required amount of soil and ship
it to the brickmaking site. Test if the soils need to be mixed with
some additional amount of sand. Remember the sand plays an
important role for removing the brick from the mold. Mix a
sufficient amount of water to the soil to make it clay. The clay
should be solid enough to hold its shape, but at the same time it
should be liquid enough to fill in the mold. Make the raw brick:
Pour the prepared clay into the mold and let it set for half an
hour. After that it should easily come out from the mold as raw
brick. Sun drying: The raw brick should be kept on dry sand in the
sun for drying by solar energy. This is an important step for
making adobe brick. Leave the brick until all the exposed edges
become white. After that turn them on their edges. This whole
process may take at least three weeks. The final moisture content
of the adobe clay brick will be around 10-15%. At this point, the
adobe bricks will be ready to use. Fire Drying: In case you want to
make fired red clay bricks, you need to cure the brick in a oven
(kiln) under 1800 degrees
batu bata merah telah digunakan untuk beberapa waktu sekarang.
Anda biasanya akan menemukan prosedur ini terutama untuk membangun
adobe. Bricks menutupi bagian utama dari dinding bangunan.
Lanjutkan membaca untuk menemukan enam langkah yang terlibat dalam
brickmaking liat: pengujian Tanah: Anda perlu menguji tanah dari
mana Anda berencana untuk menyiapkan bata. Proporsi pasir untuk
liat dalam tanah tidak boleh lebih dari 50% (minimal 30%). Tapi
bagaimana untuk menguji itu? Sebuah metode sederhana adalah
mencampur 10 sendok teh tanah untuk segelas air bersih, aduk
sepenuhnya, dan tetap semalam. Anda akan melihat dua lapisan yang
jelas dari tanah liat dan pasir. Dari ukuran setiap lapisan Anda
dapat mengetahui proporsi. Siapkan cetakan: Kayu (idealnya kayu
beech) papan dan paku yang digunakan untuk membuat cetakan batu
bata. Ukuran standar batu bata adalah 14 "x 10" x 4 ". Anda dapat
membuat cetakan untuk bata tunggal maupun beberapa batu bata.
Siapkan tanah liat: Gali jumlah yang diperlukan tanah dan kirimkan
ke situs brickmaking. Uji apakah tanah perlu dicampur dengan
beberapa jumlah tambahan pasir. Ingat pasir memainkan peranan
penting untuk menghilangkan batu bata dari cetakan. Mix yang cukup
air untuk tanah untuk membuat tanah liat. tanah liat harus cukup
solid untuk menahan bentuknya, tapi pada saat yang sama harus cair
yang cukup untuk mengisi cetakan. Membuat bata baku: tanah liat
disusun Tuang ke dalam cetakan dan biarkan ditetapkan untuk
setengah jam. Setelah itu mudah harus keluar dari cetakan seperti
batu bata mentah. Sun pengeringan: The bata mentah harus disimpan
di pasir kering di bawah sinar matahari untuk pengeringan oleh
energi surya. Ini merupakan langkah penting untuk membuat batu bata
adobe. Biarkan bata sampai semua sisi terkena menjadi putih.
Setelah itu menghidupkan mereka di tepi
mereka. Keseluruhan proses ini mungkin memakan waktu sedikitnya
tiga minggu. Kandungan air akhir dari bata tanah liat adobe akan
sekitar 10-15%. Pada titik ini, adobe bata akan siap digunakan. Api
Pengeringan: Jika anda ingin membuat dipecat batu bata tanah liat
merah, Anda perlu untuk menyembuhkan batu bata dalam oven (kiln)
dengan suhu 1800 derajat Fahrenheit selama tujuh hari lagi.
For other uses, see Limestone (disambiguation). This article's
lead section may not adequately summarize its contents. Please
consider expanding the lead to provide an accessible overview of
the article's key points. (September 2009)
Limestone Sedimentary Rock
ConclusionBrickmaking is an ancient art. If you want to make
your own homemade clay bricks, then it is better that you use
sun-dried adobe technique. This is simpler because a special oven
(kiln) is required to make fired red clay bricks. Brickmaking
adalah seni kuno. Jika Anda ingin membuat batu bata tanah liat
buatan Anda sendiri, maka lebih baik yang Anda gunakan dijemur
teknik adobe. Hal ini sederhana karena oven khusus (kiln)
diperlukan untuk membuat batu bata tanah liat merah dipecat. Read
more: http://www.brighthub.com/engineering/civ
il/articles/45788.aspx#ixzz1LvLXhWM8Limestone in Waitomo District,
New Zealand Composition Calcium carbonate: inorganic crystalline
calcite and/or organic calcareous material
Limestone is a sedimentary rock composed largely of the minerals
calcite and/or aragonite, which are different crystal forms of
calcium carbonate (CaCO3). Like most other sedimentary rocks,
limestones are composed of grains; however, most grains in
limestone are skeletal fragments of marine organisms such as coral
or foraminifera. Other carbonate grains comprising limestones are
ooids, peloids, intraclasts, and extraclasts. Some limestones do
not consist of grains at all, and are formed completely by the
chemical precipitation of calcite or aragonite, i.e. travertine.
The solubility of limestone in water and weak acid solutions leads
to karst landscapes. Regions overlying limestone bedrock tend to
have fewer visible groundwater sources (ponds and streams),
LimestoneFrom Wikipedia, the free encyclopedia Jump to:
navigation, search
as surface water easily drains downward through joints in the
limestone. While draining, water and organic acid from the soil
slowly (over thousands or millions of years) enlarges these cracks,
dissolving the calcium carbonate and carrying it away in solution.
Most cave systems are through limestone bedrock.Batugamping di
Kecamatan Waitomo, Selandia Baru Komposisi Kalsium karbonat:
kristal kalsit anorganik dan / atau bahan berkapur organik Kapur
adalah batuan sedimen sebagian besar terdiri dari mineral kalsit
dan / atau aragonit, yang berbeda bentuk kristal kalsium karbonat
(CaCO3). Seperti kebanyakan batuan sedimen lain, batugamping
terdiri dari biji-bijian, namun kebanyakan butiran batu kapur
adalah fragmen tulang organisme laut seperti karang atau
foraminifera. Butir karbonat lainnya terdiri dari batugamping
ooids, peloids, intraclasts, dan extraclasts. Beberapa batugamping
tidak terdiri dari biji-bijian sama sekali, dan dibentuk sepenuhnya
oleh presipitasi kimia kalsit atau aragonit, travertine yaitu.
Kelarutan batu kapur dalam larutan asam air dan lemah mengarah ke
lanskap karst. Kawasan atasnya batuan dasar kapur cenderung
memiliki sumber air tanah terlihat lebih sedikit (kolam dan
sungai), sebagai air permukaan mudah mengalir ke bawah melalui
sendi di batu kapur. Sedangkan pengeringan, air dan asam organik
dari tanah lambat (lebih dari ribuan atau jutaan tahun) membesar
ini retakan, melarutkan kalsium karbonat dan membawanya pergi dalam
larutan. Kebanyakan sistem gua melalui landasan batu gamping.
3 Types 4 Limestone landscape 5 Uses 6 Gallery 7 References 8
Further reading 9 See also
[edit] Description
Limestone quarry at Cedar Creek, Virginia, USA
Contents
La Zaplaz formations in Piatra Craiului Mountains Limestone
often contains variable amounts of silica in the form of chert
(chalcedony, flint, jasper, etc.) or siliceous skeletal fragment
(sponge spicules, diatoms, radiolarians), and varying amounts of
clay,
1 Description 2 Classification o 2.1 Folk classification o 2.2
Dunham classification
silt and sand (terrestrial detritus) carried in by rivers. The
primary source of the calcite in limestone is most commonly marine
organisms. These organisms secrete shells made of aragonite or
calcite, and leave these shells behind after the organisms die.
Some of these organisms can construct mounds of rock known as
reefs, building upon past generations. Below about 3,000 meters,
water pressure and temperature conditions cause the dissolution of
calcite to increase nonlinearly, so limestone typically does not
form in deeper waters (see lysocline). Secondary calcite may also
be deposited by supersaturated meteoric waters (groundwater that
precipitates the material in caves). This produces speleothems,
such as stalagmites and stalactites. Another form taken by calcite
oolitic limestone, which can be recognized by its granular (oolite)
appearance. Limestone makes up about 10% of the total volume of all
sedimentary rocks.[1][2] Limestones may also form in both
lacustrine and evaporite depositional environments.[3][4] Calcite
can be either dissolved or precipitated by groundwater, depending
on several factors, including the water temperature, pH, and
dissolved ion concentrations. Calcite exhibits an unusual
characteristic called retrograde solubility, in which it becomes
less soluble in water as the temperature increases. When conditions
are right for precipitation, calcite forms mineral coatings that
cement the existing rock grains together, or it can fill fractures.
Karst topography and caves develop in carbonate rocks due to their
solubility in dilute acidic groundwater. Cooling groundwater or
mixing of different groundwaters will also create conditions
suitable for cave formation.
Coastal limestones are often eroded by organisms which bore into
the rock by various means. This process is known as bioerosion. It
is most common in the tropics, and it is known throughout the
fossil record (see Taylor and Wilson, 2003). Because of impurities,
such as clay, sand, organic remains, iron oxide and other
materials, many limestones exhibit different colors, especially on
weathered surfaces. Limestone may be crystalline, clastic,
granular, or massive, depending on the method of formation.
Crystals of calcite, quartz, dolomite or barite may line small
cavities in the rock. Travertine is a banded, compact variety of
limestone formed along streams, particularly where there are
waterfalls, and around hot or cold springs. Calcium carbonate is
deposited where evaporation of the water leaves a solution
supersaturated with the chemical constituents of calcite. Tufa, a
porous or cellular variety of travertine, is found near waterfalls.
Coquina is a poorly consolidated limestone composed of pieces of
coral or shells. During regional metamorphism that occurs during
the mountain building process (orogeny), limestone recrystallizes
into marble. Limestone is a parent material of Mollisol soil
group.La Zaplaz formasi di Pegunungan Piatra Craiului Kapur sering
mengandung sejumlah variabel silika dalam bentuk certa (kalsedon,
batu api, jasper, dll) atau fragmen tulang silikous (spons spikula,
diatom, radiolarians), dan jumlah bervariasi dari tanah liat, lanau
dan pasir (detritus terestrial) dibawa dalam oleh sungai. Sumber
utama dalam batu kapur kalsit adalah organisme yang paling sering
laut. Organisme ini mengeluarkan cangkang yang terbuat dari
aragonit atau kalsit, dan meninggalkan kerang ini belakang
setelah organisme mati. Beberapa organisme dapat membuat gundukan
batu yang dikenal sebagai terumbu, dengan membangun generasi masa
lalu. Berikut sekitar 3.000 meter, tekanan air dan kondisi suhu
menyebabkan pembubaran kalsit untuk meningkatkan nonlinearly, jadi
batugamping biasanya tidak terbentuk di perairan yang lebih dalam
(lihat lysocline). kalsit sekunder juga dapat disimpan oleh air
meteorik jenuh (air tanah yang presipitasi material di gua). Ini
menghasilkan speleothems, seperti stalagmit dan stalaktit. Bentuk
lain yang diambil oleh oolitic kapur kalsit, yang dapat diakui oleh
penampilan granular (oolite). Kapur membuat sampai sekitar 10% dari
total volume seluruh batuan sedimen [1] [2] batugamping juga dapat
terbentuk di danau baik dan evaporite lingkungan pengendapan.. [3]
[4] Kalsit dapat berupa dibubarkan atau endapan oleh air tanah,
tergantung pada beberapa faktor, termasuk suhu air, pH, dan
konsentrasi ion terlarut. Kalsit menunjukkan karakteristik yang
tidak biasa disebut retrograde kelarutan, di mana ia menjadi kurang
larut dalam air dengan naiknya suhu. Ketika kondisi yang tepat
untuk curah hujan, kalsit bentuk lapisan mineral yang semen butir
batu yang ada bersama-sama, atau dapat mengisi patah tulang.
topografi Karst dan gua-gua berkembang di batuan karbonat karena
kelarutannya dalam asam encer air tanah. Pendinginan air tanah atau
pencampuran air tanah yang berbeda juga akan menciptakan kondisi
yang cocok untuk pembentukan gua. batugamping Pesisir sering
terkikis oleh organisme yang membosankan ke dalam batuan dengan
berbagai cara. Proses ini dikenal sebagai bioerosion. Hal ini
paling umum di daerah tropis, dan dikenal di seluruh catatan fosil
(lihat Taylor dan Wilson, 2003). Karena kotoran, seperti tanah
liat, pasir, sisasisa organik, oksida besi dan bahan lainnya,
banyak batugamping menunjukkan warna yang berbeda, terutama pada
permukaan lapuk. Batu kapur mungkin kristal, klastik, granular,
atau besar, tergantung pada metode
pembentukan. Kristal kalsit, dolomit kuarsa, atau mungkin barit
baris rongga kecil di batu. Travertine merupakan varietas, banded
kompak batu kapur terbentuk sepanjang aliran, terutama di mana
terdapat air terjun, dan sekitar mata air panas atau dingin.
Kalsium karbonat diendapkan di mana penguapan air daun solusi jenuh
dengan kandungan kimia dari kalsit. Tufa, berbagai berpori atau
seluler travertine, ditemukan air terjun dekat. Coquina adalah
kapur buruk konsolidasi terdiri dari potongan karang atau dinding.
Selama metamorfosis daerah yang terjadi selama proses bangunan
gunung (orogeny), batu gamping recrystallizes ke marmer. Kapur
merupakan bahan induk dari kelompok tanah Mollisol.
[edit] ClassificationTwo major classification schemes, the Folk
and the Dunham, are used for identifying limestone and carbonate
rocks.
[edit] Folk classificationMain article: Folk classification
Robert L. Folk developed a classification system that places
primary emphasis on the detailed composition of grains and
interstitial material in carbonate rocks. Based on composition,
there are three main components: allochems (grains), matrix (mostly
micrite), and cement (sparite). The Folk system uses two-part
names; the first refers to the grains and the second is the root.
It is helpful to have a petrographic microscope when using the Folk
scheme, because it is easier to determine the components present in
each sample.[5]
[edit] Dunham classificationMain article: Dunham classification
The Dunham scheme focuses on depositional textures. Each name is
based
upon the texture of the grains that make up the limestone.
Robert J. Dunham published his system for limestone in 1962; it
focuses on the depositional fabric of carbonate rocks. Dunham
divides the rocks into four main groups based on relative
proportions of coarser clastic particles. Dunham names are
essentially for rock families. His efforts deal with the question
of whether or not the grains were originally in mutual contact, and
therefore self-supporting, or whether the rock is characterized by
the presence of frame builders and algal mats. Unlike the Folk
scheme, Dunham deals with the original porosity of the rock. The
Dunham scheme is more useful for hand samples because it is based
on texture, not the grains in the sample.[6][sunting] Klasifikasi
Dua skema klasifikasi utama, Folk dan Dunham, digunakan untuk
mengidentifikasi batu gamping dan batuan karbonat. [sunting]
Klasifikasi Folk Artikel utama: klasifikasi Rakyat Folk robert L.
mengembangkan sebuah sistem klasifikasi yang menempatkan penekanan
utama pada komposisi rinci biji-bijian dan bahan interstisial di
batuan karbonat. Berdasarkan komposisi, ada tiga komponen utama:
allochems (butir), semen matriks (kebanyakan micrite), dan
(sparite). Sistem Folk menggunakan nama dua bagian, yang pertama
mengacu pada biji-bijian dan yang kedua adalah akar. Hal ini
membantu untuk memiliki mikroskop petrografi saat menggunakan skema
Folk, karena lebih mudah untuk menentukan komponen hadir dalam
setiap sampel. [5] [sunting] Klasifikasi Dunham Artikel utama:
klasifikasi Dunham Skema Dunham berfokus pada tekstur pengendapan.
Setiap nama didasarkan pada tekstur butir yang membentuk batu
kapur. Robert J. Dunham diterbitkan sistemnya untuk batu kapur pada
tahun 1962, tetapi berfokus pada kain pengendapan batuan karbonat.
Dunham membagi batuan menjadi empat kelompok utama berdasarkan
proporsi relatif dari partikel klastik kasar. Nama Dunham pada
dasarnya untuk keluarga rock. Upaya menangani Nya dengan
pertanyaan apakah atau tidak butiran awalnya saling berhubungan,
dan karena itu mandiri, atau apakah batu dicirikan dengan adanya
pembangun frame dan tikar alga. Berbeda dengan skema Folk,
berkaitan Dunham dengan porositas asli dari batu. Skema Dunham
lebih berguna untuk sampel tangan karena didasarkan pada tekstur,
bukan bijibijian dalam sampel. [6]
[edit] TypesMain article: List of types of limestone
[edit] Limestone landscapeMain article: Karst topography
The Cudgel of Hercules, a tall limestone rock (Pieskowa Skaa
Castle in the background) Limestone is partially soluble,
especially in acid, and therefore forms many erosional landforms.
These include limestone pavements, pot holes, cenotes, caves and
gorges. Such erosion landscapes are known as karsts. Limestone is
less resistant than most igneous rocks, but more resistant than
most other sedimentary rocks. It is therefore usually associated
with hills and downland, and occurs in regions with other
sedimentary rocks, typically clays.
Bands of limestone emerge from the Earth's surface in often
spectacular rocky outcrops and islands. Examples include the Burren
in Co. Clare, Ireland; the Verdon Gorge in France; Malham Cove in
North Yorkshire and the Isle of Wight,[7] England; on Fr near the
Swedish island of Gotland, the Niagara Escarpment in Canada/United
States, Notch Peak in Utah, the Ha Long Bay National Park in
Vietnam and the hills around the Lijiang River and Guilin city in
China. The Florida Keys, islands off the south coast of Florida,
are composed mainly of oolitic limestone (the Lower Keys) and the
carbonate skeletons of coral reefs (the Upper Keys), which thrived
in the area during interglacial periods when sea level was higher
than at present. Unique habitats are found on alvars, extremely
level expanses of limestone with thin soil mantles. The largest
such expanse in Europe is the Stora Alvaret on the island of land,
Sweden. Another area with large quantities of limestone is the
island of Gotland, Sweden. Huge quarries in northwestern Europe,
such as those of Mount Saint Peter (Belgium/Netherlands), extend
for more than a hundred kilometers. The world's largest limestone
quarry is at Michigan Limestone and Chemical Company in Rogers
City, Michigan.[8]Kapur sebagian larut, terutama dalam asam, dan
karena itu banyak bentuk bentuklahan erosi. Ini termasuk perkerasan
batu kapur, lubang pot, cenote, gua dan jurang. Lanskap erosi
tersebut dikenal sebagai karsts. Kapur kurang tahan dari batuan
beku sebagian besar, tapi lebih tahan daripada kebanyakan batuan
sedimen lainnya. Oleh karena itu biasanya berhubungan dengan bukit
dan downland, dan terjadi di daerah dengan batuan sedimen lain,
biasanya tanah liat. Band batu kapur muncul dari permukaan bumi di
singkapan berbatu sering spektakuler dan pulau-pulau. Contoh
termasuk Burren di
Co Clare, Irlandia; Gorge Verdon di Perancis; Malham Cove di
North Yorkshire dan Isle of Wight, [7] Inggris; di Faro dekat pulau
Swedia Gotland, yang gawir Niagara di Kanada Amerika Serikat / ,
Notch Peak di Utah, Ha Long Bay Taman Nasional di Vietnam dan
perbukitan di sekitar Sungai Lijiang dan kota Guilin di Cina. The
Florida Keys, pulau-pulau lepas pantai selatan Florida, adalah
terutama terdiri dari batugamping oolitic (Lower Keys) dan kerangka
karbonat terumbu karang (Kunci Upper), yang berkembang di daerah
tersebut selama periode interglasial ketika permukaan laut lebih
tinggi dari saat ini. Habitat unik ditemukan di alvars, sangat
tingkat hamparan batu kapur dengan tanah kaos tipis. Hamparan
seperti terbesar di Eropa adalah Stora Alvaret di pulau land,
Swedia. Bidang lain dengan jumlah besar batu kapur adalah pulau
Gotland, Swedia. Tambang besar di Eropa barat laut, seperti Gunung
Santo Petrus (Belgia / Belanda), memperpanjang selama lebih dari
seratus kilometer. Tambang batu kapur terbesar di dunia berada di
Michigan batu kapur dan Chemical Company di Rogers City, Michigan.
[8]
[edit] UsesLimestone is very common in architecture, especially
in Europe and North America. Many landmarks across the world,
including the Great Pyramid and its associated complex in Giza,
Egypt, are made of limestone. So many buildings in Kingston, Canada
were constructed from it that it is nicknamed the 'Limestone
City'.[9] On the island of Malta, a variety of limestone called
Globigerina limestone was, for a long time, the only building
material available, and is still very frequently used on all types
of buildings and sculptures. Limestone is readily available and
relatively easy to cut into blocks or more elaborate carving. It is
also long-lasting and stands up well to exposure. However, it is a
very heavy material, making it impractical for tall
buildings, and relatively expensive as a building
material.[sunting] Penggunaan Kapur sangat umum dalam arsitektur,
terutama di Eropa dan Amerika Utara. Banyak tengara di seluruh
dunia, termasuk Piramida Besar dan kompleks yang terkait di Giza,
Mesir, terbuat dari batu kapur. Begitu banyak bangunan di Kingston,
Kanada yang dibangun dari itu bahwa ia dijuluki 'Kota Kapur' [9].
Di pulau Malta, berbagai batu gamping yang disebut Globigerina batu
kapur itu, untuk waktu yang lama, bahan bangunan hanya tersedia,
dan masih sangat sering digunakan pada semua jenis bangunan dan
patung. Kapur sudah tersedia dan relatif mudah untuk dipotong
menjadi balok atau lebih rumit ukiran. Hal ini juga tahan lama dan
berdiri baik untuk eksposur. Namun, bahan yang sangat berat,
sehingga tidak praktis untuk bangunan tinggi, dan relatif mahal
sebagai bahan bangunan.
Courthouse built of limestone in Manhattan, Kansas
A limestone plate with a negative map of Moosburg in Bavaria is
prepared for a lithography print. The Great Pyramid of Giza, one of
the Seven Wonders of the Ancient World, is made entirely from
limestone. Limestone was most popular in the late 19th and early
20th centuries. Train stations, banks and other structures from
that era are normally made of limestone. It is used as a facade on
some skyscrapers, but only in thin plates for covering, rather than
solid blocks. In the United States, Indiana, most notably the
Bloomington area, has long been a source of high quality quarried
limestone, called Indiana limestone. Many famous buildings in
London are built from Portland limestone. Limestone was also a very
popular building block in the Middle Ages in the areas where it
occurred, since it is hard, durable, and commonly occurs in
easily
accessible surface exposures. Many medieval churches and castles
in Europe are made of limestone. Beer stone was a popular kind of
limestone for medieval buildings in southern England. Limestone and
(to a lesser extent) marble are reactive to acid solutions, making
acid rain a significant problem to the preservation of artifacts
made from this stone. Many limestone statues and building surfaces
have suffered severe damage due to acid rain. Acid-based cleaning
chemicals can also etch limestone, which should only be cleaned
with a neutral or mild alkaline-based cleaner. Other uses
include:
It is the raw material for the manufacture of quicklime (calcium
oxide), slaked lime (calcium hydroxide), cement and mortar.
Pulverized limestone is used as a soil conditioner to neutralize
acidic soils. It is crushed for use as aggregate the solid base for
many roads. Geological formations of limestone are among the best
petroleum reservoirs; As a reagent in flue gas desulfurization, it
reacts with sulfur dioxide for air pollution control. Glass making,
in some circumstances, uses limestone. It is added to toothpaste,
paper, plastics, paint, tiles, and other materials as both white
pigment and a cheap filler. It can suppress methane explosions in
underground coal mines. Purified, it is added to bread and cereals
as a source of calcium. Calcium levels in livestock feed are
supplemented with it, such as for poultry (when ground up).[10] It
can be used for remineralizing and increasing the alkalinity of
purified water to prevent pipe corrosion and to restore
essential nutrient levels.[11] Used in blast furnaces, limestone
extracts iron from its ore. It is often found in medicines and
cosmetics. It is used in sculptures because of its suitability for
carving. Moosburg di Bavaria dipersiapkan untuk cetak litografi.
Kapur yang paling populer di akhir abad ke-20 ke-19 dan awal.
Stasiun Kereta, bank dan struktur lain dari era yang biasanya
terbuat dari batu kapur. Hal ini digunakan sebagai fasad pada
beberapa gedung pencakar langit, tetapi hanya dalam pelat tipis
untuk menutupi, daripada blok padat. Di wilayah Amerika Serikat,
Indiana, terutama Bloomington, telah lama menjadi sumber digali
batu kapur berkualitas tinggi, yang disebut batu kapur Indiana.
Banyak bangunan terkenal di London dibangun dari batu kapur
Portland. Kapur juga blok bangunan yang sangat populer pada Abad
Pertengahan di daerah mana itu terjadi, karena keras, tahan lama,
dan biasanya terjadi pada permukaan eksposur mudah diakses. Banyak
gereja abad pertengahan dan istana di Eropa terbuat dari batu
kapur. Bir batu semacam populer kapur untuk bangunan abad
pertengahan di Inggris selatan. Kapur dan (sampai batas tertentu)
marmer yang reaktif terhadap larutan asam, membuat hujan asam
masalah signifikan terhadap pelestarian artefak yang terbuat dari
batu ini. Banyak patung batu kapur dan permukaan bangunan telah
mengalami kerusakan parah akibat hujan asam. bahan kimia pembersih
Asam-based juga bisa etch kapur, yang hanya harus dibersihkan
dengan pembersih alkali berbasis netral atau ringan. Kegunaan lain
meliputi: Ini adalah bahan baku untuk pembuatan kapur (kalsium
oksida),
kapur mati (kalsium hidroksida), semen What is Limestone? dan
mortar. Bubuk batu kapur digunakan sebagai kondisioner tanah untuk
menetralkan tanah asam. Limestone is a sedimentary rock composed
primarily of calcium carbonate (CaCO3) in the form o Hal ini most
commonly forms in clear, warm, shallow marine waters. It is usually
an organic sedimentary dihancurkan untuk digunakan sebagai agregat
dasar-zat padat untuk algal and fecal debris. It can also be a
chemical sedimentary rock the accumulation of shell, coral, banyak
jalan. precipitation of calcium carbonate from lake or ocean water.
Geologi formasi batu kapur adalah salah satu reservoir minyak
terbaik; Sebagai reagen dalam desulfurisasi Limestone-Forming
Environment - Marine gas buang, bereaksi dengan belerang dioksida
pengendalian pencemaran udara. Kaca keputusan, dalam beberapa Most
limestones form in shallow, calm, warm marine waters. That type of
environment is where o kondisi, forming calcium carbonate shells
and skeletons can easily extract the needed ingredients from oce
menggunakan batu gamping. Hal ini animals die their pasta and
skeletal debris accumulate as a sediment that might be lithified
into lim ditambahkan ke shell gigi, kertas, plastik, cat, keramik,
dan bahan the sediment mass. Limestones formed from this type of
sediment products can also contribute to lainnya baik sebagai
pigmen putihbiological origin is often revealed in the rock by the
presence of fossils. sedimentary rocks. Their dan pengisi murah.
Hal ini Some limestones can form by direct precipitation of calcium
carbonate from marine or fresh water dapat menekan ledakan metana
di tambang batu bara chemical sedimentary rocks. They are thought
to be less abundant than biological lim this way are bawah tanah.
Purified, itu akan ditambahkan ke roti dan sereal sebagai sumber
kalsium. Today Earth has many limestone-forming environments. Most
of them are found in shallow water Kalsium tingkat di pakan ternak
yang degrees north latitude and 30 degrees south latitude.
Limestone is forming in the Caribbean Sea, I dilengkapi dengan
itu,Mexico,untuk Pacific Ocean islands and within the Indonesian
archipelago. Gulf, Gulf of seperti around unggas (ketika bawah ke
atas) [10]. Hal ini One ofdigunakan untuk Bahamas Platform, located
in the Atlantic Ocean about 100 miles southe dapat these areas is
the remineralizing dan meningkatkan (see satellite image at right).
There abundant corals, shellfish, algae and other organisms produce
alkalinitas air dimurnikan untuk debris that completely blankets
the platform. This is producing an exte calcium carbonate skeletal
mencegah korosi dan pipa untuk mengembalikan tingkat gizi yang
penting. Limestone-Forming Environment - Evaporative [11] Digunakan
dalam tanur tiup, kapur ekstrak besi dari bijih. Hal ini sering
ditemukan dalam obat dan kosmetika. Hal ini digunakan dalam patung
karena ada kesesuaian untuk ukiran.
Limestone
A drop of water hangs and evaporates on the What Is Limestone
tip of a stalactite. and HowParkIt Used? National Is Service
image.
m through evaporation. Stalactites, stalagmites and other cave
formations (often called mples of limestone that formed through
evaporation. In alimestone that contains obvious and abundant
fossils. These are norm Fossiliferous Limestone: A cave, droplets
of water seeping down ve through fractures or other pore of the
organisms that produced the limestone. fossils spaces in the cave
ceiling. There they might evaporate before When the water
evaporates, any calcium carbonate that was dissolved in the water
will be eiling. Over time this evaporative process Limestone: A
dense limestone with a very fine and very uniform grain size that
oc Lithographic can result in an accumulation of icicle-shaped
calcium eiling. These deposits are known as easily to formthevery
smooth surface. In the late 1700's a there process (lithography) w
separate stalactites. If a droplet falls to the floor and
evaporates printing upwards from the cave floor. reproduce images
by drawing them on the stone with an oil-based ink and then using
that stone to of the image. es up these cave formations is known as
"travertine" and is a chemical sedimentary rock. A rock estone
formed by evaporation at a Limestone: A limestone composed mainly
of calcium carbonate "oolites", small spheres f Oolitic hot spring,
lake shore, or other area. concentric precipitation of calcium
carbonate on a sand grain or shell fragment.
estone
Travertine: A limestone that forms by evaporative precipitation,
often in a cave, to produce form stalactites, stalagmites and
flowstone.
Tufa: A limestone produced by precipitation of calcium-laden
waters at a hot spring, lake shore o
Uses of Limestone
scope ware
Ordovician Mass Extinction San Andreas Fault
Rare carbonate in the form of calcite by weight. All on a rock
that contains at least 50% calcium Earth Elements ast a few percent
other materials. These can be small particles of quartz, feldspar,
clay minerals, r minerals. It can also contain large nodules of
chert, pyrite or siderite. What is
Geology? content of limestone gives it a property that is often
used in rock identification - it effervesces in tion of 5%
hydrochloric acid. Limestone is a rock with an enormous diversity
of uses. It could be the one rock that is used in mo Most limestone
is crushed and used as a construction material. It is used as a
crushed stone for roa ballast. It is used as an aggregate in
concrete. It is fired in a kiln with crushed shale to make cemen
ne
Some varieties of limestone perform well in these uses because
they are strong, dense rocks with f properties enable them to stand
up well to abrasion and freeze-thaw. Although limestone does not
these uses as some of the harder silicate rocks it is much easier
to mine t names used for limestone. These names are based upon how
the rock formed, its appearance or and does not exert the sam er
factors. Here are some ofmining equipment, crushers, screens and
the beds of the vehicles that transport it. the more commonly
used.
e with a very fine texture that is usually white or light gray
in color. It is formed mainly from the Some additional but also
important uses of limestone include: s of microscopic marine
organisms such as foraminifers or the calcareous remains from
numerous Dimension Stone: Limestone is often cut into blocks and
slabs of specific dimensions for use in c architecture. It is used
for facing stone, floor tiles, stair treads, window sills and many
other purpo
mented limestone that is composed mainly of broken shell debris.
It often forms on beaches where Roofing Granules: Crushed to a fine
particle size, crushed limestone is used as a weather and hea shell
fragments of similar size. asphalt impregnated shingles and
roofing. It is also used as a top coat on built-up roofs.
mestone is used in smelting and other metal refining processes.
In the heat of smelting, limestone es and can be removed from the
process as a slag.
estone is heated in a kiln with shale, sand and other materials
and ground to a powder that will d with water.
onate is one of the most cost-effective acid neutralizing
agents. When crushed to sand-size or one becomes an effective
material for treating acidic soils. It is widely used on farms
throughout
nate (CaC03 is heated to high temperature in a kiln the products
will be a release of carbon alcium oxide (CaO). The calcium oxide
is a powerful acid neutralization agent. It is widely used (faster
acting than aglime) in agriculture and as an acid neutralization
agent by the chemical
hickens need calcium carbonate to produce strong egg shells so
calcium carbonate is often offered plement in the form of "chicken
grits". It is also added to the feed of some dairy cattle who must
f calcium lost when the animal is milked.
o known as "rock dust". Pulverized limestone is a white powder
that can be sprayed onto exposed rground mine. This coating
improves illumination and reduces the amount of coal dust that ases
into the air. This improves the air for breathing and it also
reduces the explosion hazard particles of flammable coal dust in
the air.
her uses. Powdered limestone is used as a filler in paper,
paint, rubber and plastics. Crushed lter stone in on-site sewage
disposal systems. Powdered limestone is also used as a sorbent (a
ollutants) at many coal-burning facilities.
everywhere. It only occurs in areas underlain by sedimentary
rocks. Limestone is needed in other t that buyers will pay five
times the value of the stone in delivery charges so that limestone
can or process.
