DR. HARI SINGH G0UR
VISHWAVIDYALAYA,
SAGAR, M.P
(A CENTRAL UNIVERSITY)
SEMINAR PRESENTATION ON
ALUMINOSILICATE
GUIDED BY:
PROF. R.K TRIVEDI
Dr. G. C. GAUTAM
DEPARTMENT
OF
APPLIED GEOLOGY
SUBMITTED BY:
ASHUTOSH CHAKRA
REG NO-Y18251007
SERIAL NO-07
SESSION-2018-19
M.TECH 1ST SEMESTER
 CONTENT
 INTRODUCTION
 POLYMORPHS
 PHASE DIAGRAM
 PHYSICAL AND OPTICAL PROPERTIES
 DESCRIPTION OF POLYMORPHS
1-Andalusite
2-Sillimanite
3-Kyanite
 0THER MINERALS
1-Topaz
2-Staurolite
 USES
 GEOGRAPHICAL DISTRIBUTION
INTRODUCTION
 Aluminosilicate minerals are composed
of aluminium , silicon, and oxygen. They are a
major component of kaolin and other clay
minerals.
 Aluminosilicate minerals have the chemical formula:
Al2SiO5. It has density of 2.8 to 2.9g/cm
 Aluminosilicate minerals are common in
aluminous metamorphic rocks (meta-shales and
mud stone ) and some times found in aluminous
igneous rocks .
 POLYMORPHS
 KYANITE : Al2SiO5
 ANDALUSITE : Al2SiO5
 SILLIMANITE : Al2SiO5
OTHER ISOLATED TETRAHEDRA
 STAUROLITE Fe2Al9SiO23(OH)
 TOPAZ : Al2SiO4(F,OH)2
 Andalucite,kyanite,and sillimanite are
reconstructive polymorphs.
Kyanite, Andalusite, Sillimanite: all Al2SiO5, different crystal
structures - polymorphs.
Andalusite - low P & T; Kyanite - high P;
Sillimanite - high T.
 PHASE DIAGRAM
PHYSICAL PROPERTIES
PROPERTIES
&CRYSTAL DATA
KYANITE SILLIMANITE ANDALUSITE
CRYSTAL
SYSTEM
TRICLINIC ORTHORHOMBIC ORTHORHOMBIC
COLOUR BLUE,WHITE,GRE
Y,YELLOW
WHITE,GREY,YEL
LOW,GREEN
PINK,VIOLET,YEL
LOW,GREEN
LUSTER VITREOUSTO
PEARLY
VITREOUSTO
SUBADMANTINE
VITREOUS
HARDNESS 4.5-5&6.5-7 6.5-7.5 6.5-7.5
FRACTURE SPLINTERY UNEVEN UNEVEN
CLEAVAGE PERFECTON
100&GOOD ON
010
PERFECTON 010 GOOD ON
110&POOR ON
100
HABBIT BLADED FIBROUS MASSIVE
SP.GRAVITY HIGH LOW LOW
STREAK WHITE WHITE WHITE
TRANSPARENCY TRANSPARENT
TO
TRANSLUSCENT
TRANSPARENT
TO
TRANSLUSCENT
TRANSPARENT
TO NEARLY
OPAQUE
OPTICAL PROPERTIES
PROPERTIES KYANITE SILLIMANITE ANDALUSITE
COLOUR COLOURLESSTO
LIGHT BLUE
COLOURLESS COLOURLESS IN
PPL & PINK IN
XPL
PLEOCHROISM WEAK
PLEOCHROIC
NON
PLEOCHROIC
WEAKLY
PLEOCHROIC
OPTIC SIGN BIAXIAL(-) BIAXIAL(+) BIAXIAL(-)
EXTINCTION INCLINED PARALLEL PARALLEL
RELIEF HIGH (+) HIGH(+) MODERATELY
HIGH (+)
2V ANGLE 78-83° 20-30° MORETHAN 80°
ANDALUSITESITE
KYANITESILLIMANITE
DISCRIPTION
rDESCRIPTION
of
the Aluminosilicate Group:
Al2SiO5
oup:
Al2SiO5
 Kyanite, Andalusite, Sillimanite, Staurolite, Topaz, all these
minerals having Neso-silicate structure.
 Silicate mineral containing independent (insular) SiO4
4-
tetrahedral are known as neso-silicate, orthosilicates.
.
STRUCTURE OF POLYMORPHS
STRUCTURE OF KYANITE
 Kyanite has a structure in which the oxygen atoms are
arranged in a slightly distorted close-packed cubic array.
 Chain of Al-O octahedra and these chain are linked together
by the remaining si , Al and oxygen ions.
 Si being coordinated by 4-O ions and Al by 6-oxygen ions.
Kyanite Examples
PARAGENESIS
 In gneisses, schists, included pegmatites, and
quartz veins, from moderately high-pressure
regional metamorphism of principally pelitic
rocks; detrital in sedimentary rocks.
DISTRIBUTION
 India is the largest kyanite producer in the world .
 Singhbhum (Jharkhand )
 STRUCTURE OF SILLIMANITE
 The lateral linkage between chain made by chain of
alternating Al and Si tetrahedra. The Al is half in octahedra
coordination and half in tetrahedra coordiination
Sillimanite In Outcrop
RarelyVisible In Outcrop scale
PARAGENESIS:
In high-grade
metamorphic
schist, gneisses,
and hornfels ; more
rarely in
pegmatites. Also as
a detrital mineral.
STRUCTURE OFANDALUSITE
 Andalusite has graphic inclusion.
 In andalusite edge-sharing chains of Al octahedra
extended parellel to the c axis and are bonded lateraly
through pairs of Al in distorded 5 fold cordination and
single Si in tetrhedron.
 Characterized by square prism and hardness.
Andalusite
In
Outcrop
PARAGENESIS
 A result of contact metamorphism of argillaceous
sediments, also in regionally metamorphosed
schists. Rare in granites and pegmatites, which
however afford the largest crystals. Detrital in
some sandstones.
 Occur in contact aureoles of igneous intrusions in Al
rich rocks.
DISTRIBUTION
 Deposit of andalusite schist is near Canso, Nova Scotia.
 The Goat Mountain deposit in Idaho(U.S).
USES
 Although the three minerals that comprise the
sillimanite group have different properties, they are all
used primarily as raw materials in the manufacture of
heat-resistant refractory ceramics.
 Today it is estimated that 70% of the kyanite output is
used in refractories: 55% for smelting and processing of
ferrous metals, 10% for nonferrous metals, and 5% for
glassmaking and ceramics.
 All the sillimanite minerals convert to mullite
(about 88%)and silica (about 12%) when heated to
temperatures ranging from1,250°C to 1,500°C.
GEOGRAPHIC DISTRIBUTION OF
ALUMINOSILICATE
 Jharkhand: Singbhum, Hazaribagh
districts
Rajasthan: Ajmer, Dungarpur and
Udaipur Punjab: Patiala district
Maharastra: Bhandara district
Gujrat: Idar district
Andhra Pradesh: Nellore,Chikmagalur district.
 Karnataka: Hassan district
West Bengal: Darjeeling, Purulia, Bankura
district.
 Madhya Pradesh & Chhattisgarh: Rewa &
Bastar
Kyanite, andalusite, sillimanite, and synthetic mullite production
REFERENCE
 INTRODUCTION TO MINERALOGY- WILLIAM D. NESSE
 MINERALOGY- BY – DEXTER PERKINS
 INTRODUCTION TO ROCK-FORMING MINERALS-
J.ZUSSMAN
Wikipedia.org
Aluminosilicate group of minerals( mineralogy)

Aluminosilicate group of minerals( mineralogy)

  • 1.
    DR. HARI SINGHG0UR VISHWAVIDYALAYA, SAGAR, M.P (A CENTRAL UNIVERSITY) SEMINAR PRESENTATION ON ALUMINOSILICATE GUIDED BY: PROF. R.K TRIVEDI Dr. G. C. GAUTAM DEPARTMENT OF APPLIED GEOLOGY SUBMITTED BY: ASHUTOSH CHAKRA REG NO-Y18251007 SERIAL NO-07 SESSION-2018-19 M.TECH 1ST SEMESTER
  • 2.
     CONTENT  INTRODUCTION POLYMORPHS  PHASE DIAGRAM  PHYSICAL AND OPTICAL PROPERTIES  DESCRIPTION OF POLYMORPHS 1-Andalusite 2-Sillimanite 3-Kyanite  0THER MINERALS 1-Topaz 2-Staurolite  USES  GEOGRAPHICAL DISTRIBUTION
  • 3.
    INTRODUCTION  Aluminosilicate mineralsare composed of aluminium , silicon, and oxygen. They are a major component of kaolin and other clay minerals.  Aluminosilicate minerals have the chemical formula: Al2SiO5. It has density of 2.8 to 2.9g/cm  Aluminosilicate minerals are common in aluminous metamorphic rocks (meta-shales and mud stone ) and some times found in aluminous igneous rocks .
  • 4.
     POLYMORPHS  KYANITE: Al2SiO5  ANDALUSITE : Al2SiO5  SILLIMANITE : Al2SiO5 OTHER ISOLATED TETRAHEDRA  STAUROLITE Fe2Al9SiO23(OH)  TOPAZ : Al2SiO4(F,OH)2  Andalucite,kyanite,and sillimanite are reconstructive polymorphs.
  • 5.
    Kyanite, Andalusite, Sillimanite:all Al2SiO5, different crystal structures - polymorphs. Andalusite - low P & T; Kyanite - high P; Sillimanite - high T.  PHASE DIAGRAM
  • 6.
    PHYSICAL PROPERTIES PROPERTIES &CRYSTAL DATA KYANITESILLIMANITE ANDALUSITE CRYSTAL SYSTEM TRICLINIC ORTHORHOMBIC ORTHORHOMBIC COLOUR BLUE,WHITE,GRE Y,YELLOW WHITE,GREY,YEL LOW,GREEN PINK,VIOLET,YEL LOW,GREEN LUSTER VITREOUSTO PEARLY VITREOUSTO SUBADMANTINE VITREOUS HARDNESS 4.5-5&6.5-7 6.5-7.5 6.5-7.5 FRACTURE SPLINTERY UNEVEN UNEVEN CLEAVAGE PERFECTON 100&GOOD ON 010 PERFECTON 010 GOOD ON 110&POOR ON 100 HABBIT BLADED FIBROUS MASSIVE SP.GRAVITY HIGH LOW LOW STREAK WHITE WHITE WHITE TRANSPARENCY TRANSPARENT TO TRANSLUSCENT TRANSPARENT TO TRANSLUSCENT TRANSPARENT TO NEARLY OPAQUE
  • 7.
    OPTICAL PROPERTIES PROPERTIES KYANITESILLIMANITE ANDALUSITE COLOUR COLOURLESSTO LIGHT BLUE COLOURLESS COLOURLESS IN PPL & PINK IN XPL PLEOCHROISM WEAK PLEOCHROIC NON PLEOCHROIC WEAKLY PLEOCHROIC OPTIC SIGN BIAXIAL(-) BIAXIAL(+) BIAXIAL(-) EXTINCTION INCLINED PARALLEL PARALLEL RELIEF HIGH (+) HIGH(+) MODERATELY HIGH (+) 2V ANGLE 78-83° 20-30° MORETHAN 80°
  • 8.
  • 9.
     Kyanite, Andalusite,Sillimanite, Staurolite, Topaz, all these minerals having Neso-silicate structure.  Silicate mineral containing independent (insular) SiO4 4- tetrahedral are known as neso-silicate, orthosilicates. . STRUCTURE OF POLYMORPHS
  • 10.
    STRUCTURE OF KYANITE Kyanite has a structure in which the oxygen atoms are arranged in a slightly distorted close-packed cubic array.  Chain of Al-O octahedra and these chain are linked together by the remaining si , Al and oxygen ions.  Si being coordinated by 4-O ions and Al by 6-oxygen ions.
  • 11.
  • 12.
    PARAGENESIS  In gneisses,schists, included pegmatites, and quartz veins, from moderately high-pressure regional metamorphism of principally pelitic rocks; detrital in sedimentary rocks. DISTRIBUTION  India is the largest kyanite producer in the world .  Singhbhum (Jharkhand )
  • 13.
     STRUCTURE OFSILLIMANITE  The lateral linkage between chain made by chain of alternating Al and Si tetrahedra. The Al is half in octahedra coordination and half in tetrahedra coordiination
  • 14.
  • 15.
    PARAGENESIS: In high-grade metamorphic schist, gneisses, andhornfels ; more rarely in pegmatites. Also as a detrital mineral.
  • 16.
    STRUCTURE OFANDALUSITE  Andalusitehas graphic inclusion.  In andalusite edge-sharing chains of Al octahedra extended parellel to the c axis and are bonded lateraly through pairs of Al in distorded 5 fold cordination and single Si in tetrhedron.  Characterized by square prism and hardness.
  • 17.
  • 18.
    PARAGENESIS  A resultof contact metamorphism of argillaceous sediments, also in regionally metamorphosed schists. Rare in granites and pegmatites, which however afford the largest crystals. Detrital in some sandstones.  Occur in contact aureoles of igneous intrusions in Al rich rocks. DISTRIBUTION  Deposit of andalusite schist is near Canso, Nova Scotia.  The Goat Mountain deposit in Idaho(U.S).
  • 19.
    USES  Although thethree minerals that comprise the sillimanite group have different properties, they are all used primarily as raw materials in the manufacture of heat-resistant refractory ceramics.  Today it is estimated that 70% of the kyanite output is used in refractories: 55% for smelting and processing of ferrous metals, 10% for nonferrous metals, and 5% for glassmaking and ceramics.  All the sillimanite minerals convert to mullite (about 88%)and silica (about 12%) when heated to temperatures ranging from1,250°C to 1,500°C.
  • 20.
    GEOGRAPHIC DISTRIBUTION OF ALUMINOSILICATE Jharkhand: Singbhum, Hazaribagh districts Rajasthan: Ajmer, Dungarpur and Udaipur Punjab: Patiala district Maharastra: Bhandara district Gujrat: Idar district Andhra Pradesh: Nellore,Chikmagalur district.  Karnataka: Hassan district West Bengal: Darjeeling, Purulia, Bankura district.  Madhya Pradesh & Chhattisgarh: Rewa & Bastar
  • 21.
    Kyanite, andalusite, sillimanite,and synthetic mullite production
  • 22.
    REFERENCE  INTRODUCTION TOMINERALOGY- WILLIAM D. NESSE  MINERALOGY- BY – DEXTER PERKINS  INTRODUCTION TO ROCK-FORMING MINERALS- J.ZUSSMAN Wikipedia.org