Resilience and Toughness Behavior of 3D-Printed Polymer Lattice Structures: Testing and Modeling

Al Rifaie, Mohammed Jamal

21 August 2017

No description available.

Mechanics

Mechanical Engineering

Aerospace Engineering

Design

Additive Manufacturing

AM

Absorption Energy

BCC

3D Printing

Lattice Structures

Compression Test

Low-Velocity Impact Test

Load-Displacement Curve

Acrylonitrile Butadiene Styrene

ABS

Vyhodnocení zatěžovacích zkoušek pilot z tryskové injektáže / Evaluation of loading test of jet-grouted piles

Čechová, Simona

January 2021

The master thesis consists of a theoretical part and a practical part. In the theoretical part jet-grouting technology is described briefly. Mechanical properties of jet-grouted piles were characterized. Various estimation methods of ultimate pile bearing capacity are described in this thesis – analytical calculation of ultimate bearing capacity for bored piles and estimation of ultimate pile bearing capacity by analysis of load-displacement curve defined by CHIN (1970; 1972). Load transfer method for piles and hyperbolic load-transfer curve are introduced. As a part of the load-trasfer method analysis, a method of estimating ultimate pile shaft friction called beta method is defined. In the practical part were evaluated several static load tests of jet-grouted piles and were constructed their load-displacemnt curves. Then reverse analysis of the results from static load tests was performed using load-transfer method. Then ultimate pile bearing capacity was estimated using analytical calculation of pile bearing capacity for bored piles and using analysis of load-displacement curve with method by CHIN (1970; 1972). By evaluation of load transfer method and beta method ultimate shaft resistence for each pile was estimated. Results and load-displacement curves were compared.