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) Mg*��=��4 ( 2.09

Ti )*��( 0.44

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J� � �� 99.17

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2?�� >@�� A�>�: Plan de symétrie

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N�,. � � � ��!�� &��, � � � � . 1?��@�� B!'�� : Le système cubique

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2? ��@��%�� :Le système quadratique

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3? ��@�� %��: Le système hexagonal

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=�� 1�$ <�� 0 -� � �� 2��-� . 6? ��@��*�� D : Le système monoclinique

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7? ��@�� *�� %�C�: Le système triclinique

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4? ��>�� *$>%:

� �� :A0�� #�2�� *9. � �� :T0 � �!�� H� �� " � ��"� *�% (� �� ! � �� #�$ �� :A0�� H�2, :H0

#�� :0 �!�� . � �� #�!��"� =��" �� :0 :�A0�� . �� :0 �� :�A0�� . ��4�� "� � � ��=��3�� :A0. � �� 2� ��=�2�� .

22

��!�� "��(

�� <�7 �� *!A� :І X ��"��!�� П –�� "��!��

І – ��!�� '� :

�� "��!�� 0". ��;�� :";H� FH�% ��H��-� ��;A�� % 90% �� 9 � � ��;A�� O$9 �� H�� H� ��H��

��,�� ,�� !�!. =M� �. ��7�� !�!-� �� "��!�� -� �� 9 ��)SiO4 ( ��" �� EH�. �

��!". #��$ O2- �� %� ��$ *��!H��!�� H ��%��Si4+ �$H9 < !H� �

��-� �� '�"��tétraèdre �� = �� 4X]SiO4[ EH�-� #��!H"-� ��"��U:�% ��$ �� ="� �� 9 :"; * @ *��!��!�� H��. ��. �� :" 1� � ��"� ��% ��&�� " #�Q�� F�% ��R� � �� " � �H� :�%�� 9 � " �� #��"

#��!��2�� Mg2]SiO4[.

)*'��12 ( J�� %�� -�� *'�

23

� " #�� E ��R� � �� " � ��. H� �� !�� N�,. 9�! EH �� $!".�� %�� $ �. !". #��$ E�. �. F30 �. �� H��% :H" �H�

�� "��!�� A� '�"��2�"� �� # O�� H �� H ��<�7 ��"��!�� # !@ 6#�� :

. X �H�� H!�=��#�": » #�"��H! ��H2�« Nésosilicates

'? �� #�"��!��!�� » ��= #�"��! « Sorosilicates

� - �� #�"��!��"�!�� » ��A�% #�"��! « Cyclosilicates

�– �� #�"��!��2�� » ��%&�2� #�"��! « Phylosilicates

�� – ه� #�"!��!��7 » ��!�! #�"��! « Inosilicates

� X �� #�"��!��"�� » ��"; #�"��! « Tectosilicates

І ?1 �� 7�'� ��8�� »#��0�� «Nésosilicates :

��. #�� 9 � � ��%��=�� "� �� &�H� �"�� 9= � ��)SiO4(� R FH�% �� -� �� :" �� : #�H��" ��!�� H ��, EHA�� O$9 ��#3&�� 9=�. �� :

):";��13 (

3ـــــــــــــــــــــــــــــــــ$$2ـأو� 6نــــــــــــــــــــــــــــــ�آ�ز

24

D? � &��0�� :)Olivine( :2)Mg,Fe](SiO4[

�� @ �� !�!. � 9 �: * #��!�� :Mg2]SiO4[.

* #��:Fe2] SiO4[. <�� !� ��% � �� :��R�� 2 �9��&�� " ��=� 7 #�$ �� )��%�� '�A��

��"�;� ��!�! �� " �)=��4 �� '�A�� ):";�� 0� � (Série isomorphe) (

�� 2��-� ��,�� A�� C�� *�+�� A � � �� #%� �� *�� "� ��% �� = ��,. �� $ *&�A�� H�= C��

�� <�7 �!2�!�� Serpentine�!�". <�7 :�%�� %�� C�A;�� <�� . � . :�%�� #�=�� ,� �� <�7#��"� #�� .

):";��14 (��2��R� �� .X1 . #��2��Fe2]SiO4[ :

�� :0 ��%�� 4�� ,�� : �H� :";H�� H�" � 1��$" � #�=�� :0 :";�� A�! ��,�� : '�;H�� H�� H�� %�� 4�� #��!�� ,�

� :��% ��#��2�� %�� !��!�: 2Fe CO3 + SiO2 →[SiO4]fe2 + 2CO2

#�� #��! �X2. #��!��2��Mg2]SiO4[ :

��,� �� H �� H"� � �� F�%�� %�!R� �� @ �� "��!��? � ��" �� "� *��=��4 ��Mg �� '!%:

SiO2 + 2MgO → [SiO4] Mg2 #��!��?��!

25

� ��G� �� % �0". ��"� : �� ?��!�� 0". �� " ��"� � ��% �"� ��"� F�% : �� ?��!�� E ��2� �,S �� "�� ! �"� � #��!��2��

�� '!%: [SiO4]Mg2 + SiO2 → [[Si2O6]Mg2]

#��!��. #��!��

�" � ��.�72�� :";�� #��!��@��7�,S �� :�%� � :�0 � : '�;�� ,� �H�� '!% #��!�� <�7 :�%�� !��! :��%

��: 2(Ca, Mg)(CO3)2 + SiO2 →[SiO4]Mg2 + 2Ca CO3 + 2CO2

�� #��! ?��!�� #� �HH

B? � &�� 7�'� �� % :Al2O ]SiO4[ :

'X1 .�� R� #�"��!: #��$ � �� "�*�� -�) Al ( ��-� #�� P��, �H�� H� �� O$9 ��"� F�%

��"�;� ):";�� ( (Série polymorphe) ).��&�� " '�"�� %�� H"� +�. �� ,� �� ?H2� � ��H� �H�. *�� 2��, �� &�9 <�� ).

�� &�� "�� "� . ��%� �� ,�� :�%�� <�� ;Q ��&�� O$9 ��.��!�� #�� !�� #�=��-� �� O$9 :0 �� . * -�#�=�� :�H � ��H � ��;�� H H� �$ �� N�H �H��%. )��

��= C�� #�!��! �� <�7 �� ! �!2� �H� %� #�H��% �H��%. �� "� � #��!��"�� )�� A�� =�� E��A �� *!��chiastolite .

26

):";��15 (7�8�� !�� #��(

* #�� !�� : � �@� �. ��7 ��;�� -� >�H. ��H� �$ ��

�� E&�; �� 9� ��=, ��%�!L� ��,��.

):";��16 (#�� !��

27

* ��!�� : ��,�� %� �� *�H� *��2�7 #�$ �%��2 #��@ :"; �� #%� �� *�� "� ��% �� C�=. ��.

):";��17 ( �� !�� #��(

X�" � O$ � ��@ �� . �� : *��!��Al2O-F(OH)2 2[SiO4] :

�� 4 � C�� #�$ � ,� ��;�� :"; ��%�!7 ��,� �� E #!�;�"� �� '�� :"; � .�� )�� *&�A�� *�+��

��4�� #�=��-� � ��!��. *��=Al2 O Fe (OH)2 [SiO4] :

��%� �� #�� 4�� ,-� : �� ) �� ,�← �� % ��,�← #�=�2�� ,�(9� �H �� P$� � �� !�-�

�� %��.�H� #��4�� ,� �� 0" �� ,� ��.� #�� 4��) ��2�� ( � � �� #%� ��"� �@�= �. ��2� �. �� O��;��

�� =� �� =��"�� ; �� 2�� O��!"��P��= �� .

28

*?� >�� &�>��: : ��%� �� ,�� &�� "�� %�� !�� &�� :";�

��" :�" :"; <�� "� F�% �� ,�� %. � � �% :��"�� :�% �� 8��,�� 0� � �9�� '�" �� *�+�� % ��

:�% �� + �9 *�� 9= � ��2; :Y+2

3X+3

2 3]SiO4.[ F�%: Y =Q��"�� &��0 #��": Mn

+2 .Ca

+2.Mg

+2.Fe

+2 .

X =#��" Q��"�� 030 :Cr+3

.Tc+3

.Al+3

.Fe+3

. . ;�� F�% � ��!� �� = <�� J=�� 4�� &�� . �� )��%� � 9��%7 :"

�� <�� *��!��") Ca( �H . �� )��%� R N�,-� � J��H�-� �H9 �H� 9. �H0"-� : �!�" �� HHHH� 3 Fe3 Al2 )SiO4( Almandin

3 Mg3 Al2 )SiO4( pyrope

3Ca3Al2 )SiO4( grossulaire

�!�" ��HHHHHH�

3Ca3Fe3 )SiO4( Andradite

!�� 1��$" ��!�"spessartine")Fe, Ma,Mg(Al2 [SiO4] �H J�H� �H9

�� R�� 4 . ��. )=�� #��"ouvarovite " �� *��" <�� )��%� #�� 9 �� . F�%� ��% ��,.� �H��4�� %� �� ,�� 9�� R� ��4�� 4��

?��!��"��4 #�;�"� �� ?" ��4�� .� 4�� !�!�� ,�� 9�� 4�� ?��!�)�� %�� ( #��4��.�� 4�� 4�� % �H� �9�H�� '��

�� C�� ,�� A"#�� " � #��.

29

):";��18 (��!�!��

?<? ��'�8�� Zr]SiO4[ : ��R� ��,�� E&�; )��0 �� %�!R�� H�� *�+��

:"; �� = C�� )�� *�� ;��. �2��, ��.� �4 � (��! �� %�� #�� "�=�� ?�� #%� �� -�

:0 �� ;R� ��2�� *�� Th *��"�=�� C�� )$��Zr .

):";��19 ( ��'�8�� !�� #��(

30

ІX2X �� 7�'� ��Sorosilicates : -� #�� 0� *%�� "��;H ?�Q�H�� H%. ��H!��

��$»O« D�� !�!-� �9�$�-6]Si2O7[. �� O$9 �� *9. � �:

):";��20 ( %� J�� 7�� -�� 0�' ��7�'� ��

? � &��7�� : (Epidote)

��. #�� &�� "�� =� �� = �N�,.� ��"�;H� �� 9� � ��2� �� 4�� :� �� )��%. *�+� �� F�% � �� 2� � ��9 � :

Ca2 (Fe,Al)3O(OH)]SiO)4] (Si2O7[ � ��H� �� &�� O$9 *� �H9 : #H�=��=��"Clinozoisite #H��

piemontite #��R-� � Allanite . ��H� #�$ �H�� ;�� . ��. �. #��% :"; <�� #��-� �� "�

��,.)�� #�� )�� A�(�� "�� ,� �� #!�;�� .

31

):";��21 (#��R� ��

<?7�� !� Ca Al2(OH)2 H2O (Lawsonite) ]Si2O7[ :

CH�� H� *&�A�� *�+�� . ��%&�2� ��;�� 2�7 �$ ��= �� B�� D�� *�� !� ��,�H�� H� �� )��A�� =3"��3

��A�� "��4�� " �� . � " #!�;�� " �H ��@L� :�H%�� H� B��%��"� � �� 4�� 2,� �� '%�� "��4��

�?7��0�� !� :(Vesuvianite)

Ca10(Mg , F2)Al14(OHF)4])SiO4)(Si2O7([ :

� ��H�� *�+�� #�;��, : %� ��;� �. ��%&�2� #�� ,�� 4 � ��= C�� $�� H��" �H�4�� "!H�� !H�"��

��4�� *�,�� ,� >� �� 3�!��.

32

І?3? �� 7�'� �� '��"��$ �" Cyclosilicates ,: :�� %�� O$9 �� 3 �. 4 �. 6�� H��-� #��4-

]SiO4[ H�� " H �A�% ��.

):";��22 ( %� J�� 7�� Q�8� �� '7�'�

� 9. �� r�� <�� O$9 )��%�:

І?3?D?�� !� : 3 Al6 y3 Na(OH,F)4 )BO3([Si6O18]: F�% :

#�� Dravite Mg #��;y (Fe,Mn) Schorlite

#�� Rubellite )Fe,Al(

��,�� E&�; �� 9 �� ,�� %� �� O�� <� :"; ��H;��

�H� ��=�4�� !�Z� ��$� � �� 030�� *�+�� >� � =��"�� C�� #�� 4�� ,� J��. � #��4�� "� ��; �0"-� J��

%�� J�� . F�% ��%�� 4�� !-� �� 9 ��,. )=��4 �� !. �� )�� !. �. . #��% �� =�� "�=�� #�!�!� �� % �� #R� #�$

*=��"��.

33

):";��23 (��

І-3?B?*�� !� Béryl [Si6O18] Al2Be3

�� ;�� &�9 <�� "� C�= ��,. �� $ �� !��!�� *�+�� , �� ,� � #�� 4�� #!�;�"� ��.

І?3?<?7��'�� !� Al 3(Fe,Mg)2 ]Si5 O18Al[ : E&�; '"� �9� :�� '�A� )�� "; � �H� �!�&� ��%.� �� ,�H�

��%� �� @L�� !� �� :�%�� ,�� *&�A�� *�+�� " #!�;�"� ��– ?��4�� – ��4�� #� " ��,� �� " #��4�� ) #��

� #��"! �� ( ��H 0 � �H!��! EH�A #�$ ��@ ��;�� O�� !H2�� ! ��, <�7 �"� �� D&�2� � )#�!��! (#��"�� .

ص.رة م��ن ال/.ردی�ی+) ��24;":(

34

І?4? �� R�7�'� �� Inosilicates: ��-� #�� #�$ �� !3! � :!3!�� "� �@ �2�� . ��!:

IX4X.X 7�'� �� *�C�� -��)��'��(: ��-� #�� : ;� ��H� :H" FH�% :";�� ; ��!�! ��"�� E �

?.�� ,S ��0G �� O�� $ �� "O "��"� :";�� O�$�-4 ]Si2O6[ ��!"�� O$9 =� � F�%.

*'�25 : �� 7�'� �� -�� '�� !� %�

*� &��'�� :

��&�� 9 � ��" �� H ��&�H� =H�� )��H;� :"; #�$ �� 2�L� � �� #� 90° C�� . � .�� "� ��%-� >� �� H� �H��

��%� �� ,�� >� � ��A�� ,�� , ��!"��. )�� +� '!% ��!"�� &�� *!A�� H�&�� "�� "�� '!%� <H�7 �H030

#�� : - ��!"��4 �� %�� % �� = *&�H@ ��H� �� *�H+�� (OPX)

Orthopyroxène

- ��!��"�� =��4 �� %�� !"�� )*��!��"�� ( *�H+�� )��H%. :� ��(CPX) .Clinopyroxène

- �� !"��)*�� (*�+�� :� �� )��%. .

35

1/ ��)�� 8��:�� '� :(Orthopyroxène)

��!"��. < !� ��"� �*9 � �� @ �� "�;� ��!�! � �� : #��!�-�Enstatite Mg2) Si2O6(

�!� �� Hypersthène (Mg, Fe)2 )Si2O6( R #��!��-� �� :0 �� >% �� )��%�� '�A�� 7 �� .

��Enstatite � . � ��= C�� #�$ �� N�� (��, ��;�� :";

Hypersthène �� )�%� )20←40(% � FeO �"� �� C�� !. �� $ � J�� 9!�� !� #�=�� 9 FeO �� g�� )05←15(%

�� J�� $9 �!2� <�7 ��, :�%�� ! ��!"��1 � ��! ��%&�2H� �� ,�� !�&� �. ��0 �� O$9 ��Q�.

):";��26 (#��!�R� ��

2/? ��'��' ��8��:� �� : (Clinopyroxène)

� ��!�! �9;� ��"�):";�� 0� � ( )��% '�@ � )=��4 '�@ �� .

◘ ��!��)Diopside ( Ca Mg )Si2O6(

◘ ��9 �� #��)Hedenbergite( ) Ca Fe (Si2O6 - #�� : ��H!� �H�� *��!��"�� 2�� !� �$ ��!"�� H

!�� "�;� �� !�!��#�� .

36

- #��-� : �9 � < !� ��!"�� J�� #��-�(Augite) :";�� H��

*�� -� ��!�� #0�(Al) ��*�� (Ti) . *��H�� !H� �� t�� . �" �%5 ��!-� �� #�=�� !. �� $ �� #��. < !�� H! <�7 :�%��

� � #��"1�� #�!��" � � :��2 � <�7 ) �+��R�#�� .( �� ,�� !�!. �� !"�� Q�.

3/? ��'�� (:

� �� :"; ��"�;� ):";�� 0� � ( )��% '�@� �� . '�@ ��

: ;� : * ��SAegyrine Fe Na )Si2O6(. * #��Jadeîte Al Na )Si2O6.(

��,�� !�&� �� S �� :";H ��H� �� %� �H�� ,�H�� CH�� FH�% � ��= �A�� (��! �. (��, ��7 ��;��

#��2�� %��. � � #�� . �� >� �� ,�� %� �� H�2, �H��, �H��

�� .

):";��27 ( 7�� !�� #��(

37

* 7��>�H�0�� Ca3) Si3O9( : � J�� 9 ��!"�� ,�H�� H� :";H� ��!�"�� :"; <�� %� �� >�. �� #�@� :"; E �� ,. ��H�G B��

�� C�� #�!��"�� <�7 ?��!�� !. 3Ca CO3 + 3SiO2 (Si3O9) Ca3 + 3CO2

І?4?B? �0��)� *�C� 7�� )*��0�� : (

:";�� ; �� #�$ ��!"��!�� :!3! � � �% :%� � :!3! ��%�� O$9 �� 2�� H!�!-� �9�$�� "� 6-]Si4O11[ �. 12-]Si8O22[ �

#�� 1�� " �� :";�� +%3�� " #�� -� Z � �H9 � ��; ). ��&� #�"� OH �� :��2 -� ��!"��9 �� .

- �0�� &�� *�

��%� �� ,�� . � �� %�� !�� ,�� :��2 -� =M� � FH�% R #�H��. ��H�� !H� J�H2��L� �H��@ ��% #�� R7 ��0 ��"�)OH( �H�

� �"��. ��= � �� :";� #� ��2�L� � ��&�� =�� 60°.

):";��28 ( �0��)�� C�� 7�'� ��R� ��)*��0�� !�(

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