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VERSION:2.0
METHOD:PUBLISH
CALSCALE:GREGORIAN
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X-ORIGINAL-URL:https://ottegroup.com/
BEGIN:VEVENT
UID:MEC-fada60ac427a94ddc93f9554c523f402@ottegroup.com
DTSTART:20260916T010000Z
DTEND:20260917T090000Z
DTSTAMP:20260713T073400Z
CREATED:20260713
LAST-MODIFIED:20260714
SUMMARY:S210E: Advanced 3D FE Building Structures Analysis & Design (Singapore)
DESCRIPTION:[vc_row][vc_column][vc_column_text text_larger=”no”]\n\n\n\n	\n\n\n	COURSE OBJECTIVE \n\n\n	This advanced-level course develops competencies in 3D finite element analysis and design of building structures. Participants will apply linear and nonlinear, static and dynamic analysis methods to evaluate structural behavior and support detailed building design. ETABS will be used as the computational analysis tool for practical modelling, analysis and interpretation exercises. The course also provides an overview of modelling considerations for Prefabricated Prefinished Volumetric Construction (PPVC) systems and the application of seismic loading requirements in accordance with Eurocode 8 (EC8).\n\n\n	COURSE OUTLINE \n\n\n	\n\n\n	i. ETABS advanced features\n\n\n	• Overview of ETABS advanced analysis and design capabilities\n• Advanced analysis examples:\n  i) Nonlinear analysis of a Steel Frame Structure\n  ii) Dynamic vibration analysis for a Pedestrian bridge\n• Performance Based Design overview\n\n\n	ii. Overview of FE Method (FEM)\n\n\n	• FEM objects used in ETABS\n• Understanding elements forces and stresses \n• Meshing of finite elements\n• Proper use of Constraints\n\n\n	iii. Proper modeling of building system\n\n\n	• Elements stiffness with stiffness modifiers for cracks\n• Use of Rigid diaphragm\n• Modal analysis for building response\n• P-delta analysis\n• Modeling for imperfections\n\n\n\n	iv. Advance Modeling Techniques\n\n\n	• Virtual works diagram to optimize building performance\n• Sequential construction analysis\n• Modeling with flexible foundation\n• Direct Analysis Method (DAM) for steel framed structures\n\n\n	v. Modeling for PPVC Building\n\n\n	• Overview of PPVC modelling concepts  \n• Modelling of PPVC connecting components \n• Modelling of composite PPVC elements\n• Global vs Part model for PPVC elements design\n\n\n\n	vi. Seismic loadings on building\n\n\n	• Seismic design concepts overview\n• Overview of structural dynamics\n• Application of seismic loads per EC8\ni) Equivalent lateral Force\nii) Response Spectrum Analysis\n\n\n\n\n[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column]			 						 			\n		\n			\n			\n				LEARNING OBJECTIVES\n							\n			\n			\n			\n		\n		\n					 						\n				\n					Upon completion of this course, participants will be able to use advanced ETABS features to develop accurate structural models, perform linear, nonlinear, static, dynamic, and seismic analyses, apply finite element and PPVC modelling techniques, and evaluate building performance using industry best practices and Eurocode 8 (EC8) requirements.				\n\n							\n		\n		\n			\n			\n				TARGET AUDIENCE\n							\n			\n			\n			\n		\n		\n					\n				\n					Practicing structural engineers involved in the analysis and design of reinforced concrete building structures subjected to gravity, lateral and seismic load effects, particularly those working with Eurocode-based design requirements.				\n\n							\n		\n		\n			\n			\n				PREREQUISITE\n							\n			\n			\n			\n		\n		\n					\n				\n					Participants are required to have completed S110E: Intermediate Building Structures Analysis & Design with 3D FEM, or to possess equivalent knowledge and practical experience in 3D structural modelling, analysis and design.				\n\n							\n		\n		\n			\n			\n				TERMS AND CONDITIONS\n							\n			\n			\n			\n		\n		\n					\n				\n					\n\nDue to limited seats, registration is on a first-come-first-served basis. Training seats will be confirmed upon receipt of payment.\nCancellation of registration notice must be made in writing if you are unable to attend. Course fees refund as follows:\n\nNotice received 14 days prior to course date – 90% refund.\nNotice received 7 days prior to course date – 75% refund.\nCancellation will not be accepted if notice is received less than 7 days before the event; but a substitute delegate is welcomed at no extra charge.\n\n\n\n				\n\n							\n		[/vc_column][/vc_row][vc_row][vc_column]\n		\n			\n			\n				NOTES\n							\n			\n			\n			\n		\n		\n					\n				\n					\n\nEarly-bird fees only valid for registrations received by 31 July 2026.\n20% discount for registration of a group of 3 and above. This 20% discount is not applicable to Early-bird registration.\nParticipants are required to bring their own laptops with support for WiFi connection and Windows System.\nTraining License will be provided.\n\n				\n\n							\n		[/vc_column][/vc_row]\n
URL:https://ottegroup.com/events/s210e-advanced-3d-fe-building-structures-analysis-design-singapore/
ORGANIZER;CN=Otte International Pte Ltd:MAILTO:sgsales@ottegroup.com
LOCATION:One Pemimpin Singapore 576151
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