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Course Outline Wednesday (21 August 2013)
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Morning (8:30-11:30) ��`_v�B+a�
Welcome address kW@,$�_�cK
Innovations of DDA `�.%J�jsD<
Geological Engineering input for Block Theory and DDA _Ov�;4n�t!
Advances and Challenges of DDA n�V*y�`.�+
Prof DU Xiuli(杜修力) 'zZ�cn" +!
Dr SHI Genhua(石根华) 5D Y��\:AF
Prof Yossef H.Hatzor ��O�akb'�
Prof MA Guowei(马国伟) j*v40mXl`2
Afternoon (2:30-5:30) ccFn.($p?,
Introduction to block theory using the stereographic projection 7nU6�k%_�%
Prof Yossef H.Hatzor Thursday (22 August 2013) l�_�rn++��
Morning (8:30-11:30) w|[RDa�A�b
Finding Key Blocks of slope and tunnels )��~J>X{hy
Drawing single key blocks of slopes and tunnels Ih��}1%�Jq
Key blocks on the tunnel surfaces ?,�� �r~�=
P. Londe method for dam foundation stability .|qK��+Hnc
Dr SHI Genhua(石根华) )D&M2CUw"f
Afternoon (2:30-5:30) +|iY���g/2
Forming 2D or 3D blocks from joints S~Z|PL�t�F
Statistically producing 2d or 3d joints =sJ
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Forming 2d or 3d tunnel systems Y-mK+1���2
Dr SHI Genhua(石根华) Friday (23 August 2013) ��(-77[+�2
Morning (8:30-11:30) �u�lFz�ZHJ
Rock stability computations of tunnels by 2D DDA
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Rock bolting computation by 2D DDA }A=y�=+4�j
Rock falling of different tunnel directions by 2D DDA gi�/@��j�
Dr SHI Genhua(石根华) A�-
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Afternoon (2:30-5:30) /�cr}N%HZB
Arch dam foundation stability analysis by 2D DDA 2&��PPz}Sw
Gravity dam foundation stability analysis by 2D DDA h%�; e0Xz|
Buttress dam foundation stability analysis by 2D DDA �M 3 '��$[
Dr SHI Genhua(石根华) Saturday (24 August 2013) �PNO�G�N|D
Morning (8:30-11:30) $r�F=_D6�
Slope sliding limit equilibrium analysis by 2D DDA Uxfl_@lJ�
Slope cable support computations by 2D DDA im7nJQ^H$q
Slope toppling stability computation by 2D DDA L4u�;|-znw
Dr SHI Genhua(石根华) �9^"�b*&>P
Afternoon (2:30-5:30) #`�TgZKDg2
2D NMM physical and math mesh producing '^BV_��QQ�
2D NMM computations for continuous materials 9Jf)!o8���
2D NMM computations for block and joint systems Rlnb�db;!k
What is “Contact Theory” -jgysBw+Xb
Dr SHI Genhua(石根华) Sunday (25 August 2013) 9/+Nj���/
Morning (8:30-11:30) 1�@�u2im-O
Application of DDA to rock engineering problems. A,4f��EmWM
A few new developments of the numerical manifold method NQ6��s�GL�
Application of DDA in hydraulic engineering projects N�C38fiH_N
Simulation of water permeability using the NMM method ^_��m�9K�A
New development of key block theory and applications ��\eFR(gO+
Coupled thermo-hydro-mechanical DDA models for simulating rock fracturing f;��b[w� �
Prof Yossef H Hatzor h*v8#\b$J_
Prof ZHENG Hong (郑宏) &?�(?vDFfZ
Prof WU Aiqing (邬爱清) KVJ_�E�!i
Prof WANG Yuan(王媛) ? �YG)I�;(
Prof ZHANG Zixin(张子新) !/wt�Y�I-`
Prof JIAO Yuyong(焦玉勇) ��p��x��a(
Afternoon (2:30-5:30) $*?,��#ta�
An explicit version of the numerical manifold method cb}[S:&��|
Shi’s theory and engineering applications _�F`lq_C��
Simulation of hydraulic fracturing with DDA /bVoEr�f��
Visualization modeling for key block analysis @/31IOIV]`
Key block search and applications �aca=yDs2�
Block identification ��*��Em,*!
Prof MA Guowei (马国伟) ���*I0�T{~
Prof PENG Xiaochu(彭效初) R~6$oeW�Aw
Prof BEN Yuxing (贲宇星) ��UN��BH �
Dr XUE Jian(薛健) :*KH�x|Q�
Prof WANG Shuhong(王述红) 2=^��m9%�
Prof YU Qingchun(于青春) n~V��� ]Z
Evening Kh_Lp$'0uM
6:30-8:30 uwy��:t!(j
Banquet dinner hosted by Research Centre for Rock Mass Mechanics and Engineering, Beijing University of TechnologyDDA Training Course and Seminars 2013 �&*a�IEa�^
21-25 August 2013 ��w {�3<{
Organized by Research Centre for Rock Mass Mechanics and Engineering, Beijing University of Technology �qO|R�^De�
ISRM Discontinuous Deformation Analysis (DDA) Commission �V��B�*oGG
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