Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
➤ Gửi thông báo lỗi ⚠️ Báo cáo tài liệu vi phạmNội dung chi tiết: Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
VIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FORFRACTURE MO Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials ODELING IN ADVANCED FUNCTIONALC OMPOSITE MATERIALSPHD THESIS IN ENGINEERINGHO CHI MINH CITY7-2018VIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FOR FRACTURE MODELING IN ADVANCED FUNCTIONAL COMPOSITE MATERIALSMaj Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials or Subject: Engineering MechanicsCodes: 62 52 02 01Independent Examiner 1: Assoc. Prof. Dr. Nguyen Xuân HùngIndependent Examiner 2: Assoc. Prof. Dr. NExtended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
guyền Mạnh CườngExaminer 1: Assoc. Prof. Dr. Nguyen Đinh KiênExaminer 2: Assoc. Prof. Dr. Lê Văn CànhExaminer 3: Assoc. Prof. Dr. Lưong Văn HáiSCIENTIVIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FORFRACTURE MO Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials in the Department of Engineering Mechanics, Faculty of .Applied Science, Ho Chi Minh city University of Technology, VNU - HCM, Vietnam. I declare surely that this document has been created by myself and that has not been submitted for any other degree or qualification except as specified.AuthorNguyề Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials n Thanh NhãABSTRACTThis thesis deals with the numerical computation of 2-D linear fracture problems using the two extended Galerkin meshless methods iExtended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
ncluding radial point interpolation method (RPTM) and improved moving Kriging (MK) interpolation method. Enrichment techniques including the use of stVIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FORFRACTURE MO Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials . The meshless moving Kriging method is improved by using three types of correlation function (i.e. quartic polynomial, truncated quartic polynomial and Gaussian functions) to eliminate the effect of the user numerical experience parameter and applied to crack problems. The developed methods are app Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials lied for crack analyzing in several types of material including isotropic, orthotropic and functionally graded composite materials. Various crack probExtended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
lems such as static, dynamic behavior of crack models and quasi-static crack propagation are numerically investigated and compared with solutions giveVIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FORFRACTURE MO Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials methods show the correction of the developed approaches.iiACKNOWLEDGEMENTSThis doctoral dissertation is the outcome of many years working at the Department of Engineering Mechanics (DEM). Faculty of Applied Science, Ho Chi Minh City University of Technology. I would like to sincerely thank my princ Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials ipal supervisor Assoc. Prof. Truong Tich Thien for his helpful advices and guidance during my study work. I express my special gratitude to my scientiExtended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
fic supervisor Assoc. Prof. Bui Quoc Tinh from the Department of Civil and Environmental Engineering. Tokyo Institute of Technolog)', Japan, for his iVIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FORFRACTURE MO Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials d like to thank Assoc. Prof. Nguyen Luong Dung. Prof. Ngo Kieu Nhi, Assoc. Prof. Vu Cong Hoa and other members for their useful advice and supports, and for creating such a friendly and comfortable working atmosphere.In addition, I am grateful for the support from my department colleagues, Nguyen Th Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials ai Hien. Tran Thai Duong. Nguyen Duy Khuong, Tran Kim Bang. Le Duong Hung Anil who has been always with me in difficult limes, special thanks go to myExtended galerkin meshfree methods for fracrure modeling in advanced functional composite materials
close colleague and friend. Nguyen Ngoc Minh, for his useful discussions, ideas and programming experience.Last but not least. I would like to expresVIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FORFRACTURE MO Extended galerkin meshfree methods for fracrure modeling in advanced functional composite materials eir continuous encouragement, support and love, I would not have been able to pursue my work and ambition.VIETNAM NATIONAL UNIVERSITY HO CHI MINH CITYHO CHI MINH CITY UNIVERSITY OF TECHNOLOGYNGUYỀN THANH NHÀEXTENDED GALERKIN MESHFREE METHODS FORFRACTURE MOGọi ngay
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