Buckling Analysis of Sandwich Pipes Under External Pressure

Hashemian, Rouzbeh

January 2014

A general eigen-value buckling solution is developed for the buckling of long thick pipes subjected to internal and external hydrostatic pressure. The principle of stationary potential energy is used to formulate the conditions of equilibrium, neutral stability conditions, and associated boundary conditions using polar coordinates. The formulation accounts for shear deformation effects and is suited for composite pipe systems with thick cores. It involves destabilizing terms: one is due to the external hydrostatic pressure and incorporates the follower effects, and the other, is due to the pre-bucking stresses undergoing the nonlinear components of strains. The formulation adopts a work conjugate triplet consisting the Cauchy stress tensor, the Green Lagrange strain tensor, and constant constitutive relations. A Fourier series expansion of the displacement fields is adopted to transform the 2D problem into a series of independent 1D problems, thus keeping the computational effort to a minimum while preserving the accuracy of the solution. Two numerical solutions were developed and implemented under MATLAB; the first one is based on the finite difference technique and the second one is based on the finite element solution. Both solutions were shown to converge to the same solution, the finite difference from below, while the finite element converges from above. The finite element solution is then applied to predict the buckling capacity of sandwich pipes consisting of two steel pipes with a soft core. A comprehensive verification study is conducted and the validity of the formulation was established through comparison with other solutions. A parametric study is then conducted to investigate the effect of hydrostatic internal pressure, core material, core thickness, and internal and external pipe thicknesses, on the external buckling pressure of sandwich pipes.

Sandwich Pipes

Buckling Analysis

Finite Element

Eigen-value Analysis

Bio-Inspired Design of Next Generation Honeycomb Sandwich Panel Cores

January 2020

abstract: Honeycomb sandwich panels have been used in structural applications for several decades in various industries. While these panels are lightweight and rigid, their design has not evolved much due to constraints imposed by available manufacturing processes and remain primarily two-dimensional extrusions sandwiched between facings. With the growth in Additive Manufacturing, more complex geometries can now be produced, and advanced design techniques can be implemented into end use parts to obtain further reductions in weight, as well as enable greater multi-functionality. The question therefore is: how best to revisit the design of these honeycomb panels to obtain these benefits? In this work, a Bio-Inspired Design approach was taken to answer this question, primarily since the hexagonal lattice is so commonly found in wasp and bee nests, including the well-known bee’s honeycomb that inspired these panel designs to begin with. Whereas prior honeycomb panel design has primarily focused on the hexagonal shape of the unit cell, in this work we examine the relationship between the various parameters constituting the hexagonal cell itself, specifically the wall thickness and the corner radius, and also examine out-of-plane features that have not been previously translated into panel design. This work reports findings from a study of insect nests across 70 species using 2D and 3D measurements with optical microscopy and X-ray tomography, respectively. Data from these biological nests were used to identify design parameters of interest, which were then translated into design principles. These design principles were implemented in the design of honeycomb panels manufactured with the Selective Laser Sintering process and subjected to experimental testing to study their effects on the mechanical behavior of these panels. / Dissertation/Thesis / Masters Thesis Manufacturing Engineering 2020

Design

Biology

Additive Manufacturing

Bio-Inspired

Honeycomb

Sandwich Panel

Synthesis and Properties of Zwitterionic Compounds Utilizing an Introducing Unit of a Boranuidyl Group / ボラヌイジル基導入ユニットを活用した双性イオン化学種の合成と性質

Iwai, Kento

23 March 2021

京都大学 / 新制・課程博士 / 博士(理学) / 甲第23020号 / 理博第4697号 / 新制||理||1674(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授 時任 宣博, 教授 若宮 淳志, 教授 依光 英樹 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Borate

Zwitterion

Sandwich structure

Ionic group

Triarylmethylium

400

FABRICATION AND PERFORMANCE EVALUATION OF SANDWICH PANELS PRINTED BY VAT PHOTOPOLYMERIZATION

Nath, Shukantu Dev

01 September 2021

Sandwich panels serve many purposes in engineering applications. Additive manufacturing opened the door for easy fabrication of the sandwich panels with different core structures. In this study, additive manufacturing technique, experiments, and numerical analysis are combined to evaluate the mechanical properties of sandwich panels with different cellular core structures. The sandwich panels having honeycomb, re-entrant honeycomb, diamond, square core topologies are printed with the vat photopolymerization technique. Uniaxial compression testing is performed to determine the compressive modulus, strength, and specific strength of these lightweight panels. Elasto-plastic finite element analysis having good similarities with the experimental results provided a preview of the stress distribution of the sandwich panels under applied loading. The imaging of the tested samples showed the fractured regions of the cellular cores. Dynamic mechanical analysis of the panels provided scope to compare the performance of panels and solid materials with the variation of temperature. Sandwich panels with the diamond structure exhibit better compressive properties and specific strength while the re-entrant structure offers high energy absorption capacity. The sandwich structures provided better thermo-mechanical properties than the solid material. The findings of this study offer insights into the mechanical properties of sandwich panels printed with vat photopolymerization technique which can benefit a wide range of engineering applications.

3D printing

Additive manufacturing

Sandwich panels

Vat photopolymerization

Rám závodního automobilu kategorie E2 / Chassis for Race Car Category E2

Šikuta, Lukáš

January 2013

This work deals with the design of chassis for race car category E2 made from aluminium honeycomb sandwich, design of roll cage and conception of engine mount. In the text are FEM analysis, which are focused on torsional rigidity of chassis and strength properties of roll cage.

Experimental and Simplified Analytical Investigation of Full Scale Sandwich Panel Walls

Al-Rubaye, Salam Adil

01 December 2017

Concrete sandwich wall panels have been used for decades in the precast concrete construction industry because of their thermal efficiency. To achieve full or partial-composite action in concrete sandwich panel walls, the engineer must obtain a percent composite action from a connector manufacturer, making some engineers uncomfortable. Engineers are dependent upon the recommendations given by the connector manufacturers to establish their designs. This project tested six full scale sandwich panel walls to evaluate the percent composite action of various connectors and compare the results to those provided by the composite connector manufacturers. This project aimed to validate current procedures using these methods, and to develop simpler, more efficient methods for predicting overall strength of this innovative building system. This study concluded that the reported degrees of composite action from each manufacturer are considered conservative in all instances for the connectors tested. Additionally, the intensity and type of connectors are important factors in determining the degree of partial composite action in a panel.

experimental

investigation

concrete

sandwich walls

construction industry

Civil and Environmental Engineering

Full Scale Experimental Testing of Partially Composite Precast Concrete Sandwich Panels

Cox, Brandon L.

01 May 2018

Precast concrete sandwich panels are a structural system consisting of concrete layers with insulation layers in between. The concrete layers are connected through the insulation with specially designed connectors. For engineers to properly design and analyze the strength characteristics of sandwich panels and their connectors, the engineers need to obtain recommendations from the individual connector manufacturers, which can be a very rigorous process. This project tested eight full scale precast concrete sandwich panels with two concrete layers on either side of an insulation layer with connectors concentrated at either end of each panel. The objectives of this project were to evaluate the interaction between the two concrete layers and how well the connectors transferred forces between the layers (percent of composite action) and to validate simplified methods of predicting properties of the panels by comparing the predicted panel properties to the results of the testing series. Additionally, this study evaluated the panel’s different thicknesses and lengths and compared their results.

Full Scale Testing

Sandwich Panels

Civil and Environmental Engineering

Design of Protein Immobilization and Elasticity of Polymer Hydrogels for Cell Culture / 細胞培養のためのタンパク質固定化と高分子ハイドロゲル弾性率のデザイン

Toda, Hiroyuki

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19743号 / 工博第4198号 / 新制||工||1647(附属図書館) / 32779 / 京都大学大学院工学研究科高分子化学専攻 / (主査)教授 田畑 泰彦, 教授 秋吉 一成, 教授 木村 俊作 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

culture substrate

immobilization

orientation

elasticity

sandwich culture

500

Bending of Sandwhich Beams and Columns

Betancourt-Angel , Fernando

January 1972

<p> A detailed synopsis of the state-of-the-art in the field of the Structural Analysis of sandwich beams is presented. Deficiencies, inaccuracies, lack of clarity, and the imposition of unnecessary assumptions of behaviour found in the related bibliography are presented in a comparative fashion. A method of analysis with obvious advantages over the others studied in this thesis is derived, and its use is suggested. The presentation of all methods of analysis is made under the most general cases of dimensions and loadings to make them as applicable as possible to the common cases encountered in sandwich components for the building industry.</p> <p> Experimental work carried out on several materials with some potential to be used in sandwich members for buildings and the tests carried out on some sandwich beams and beam-columns are reported.</p> / Thesis / Master of Engineering (MEngr)

structural analysis

sandwich beams

methods of analysis

dimensions and loadings

Synthese, Untersuchung und Polymerisation neuartiger Sandwichkomplexe / Synthesis, Investigation and Polymerization of new Sandwich Compounds

Dück, Klaus

January 2015

In dieser Dissertation werden die Ergebnisse zur Synthese und Polymerisation gespannter Manganoarenophane vorgestellt. Weiterhin wird die Reaktivität von Bis(benzol)titan und die Synthese von ansa-Verbindungen dieses Komplexes, sowie Untersuchungen zu deren Eigenschaften beschrieben. Zum Vergeleich wird auch der Komplex Bis(mesityl)titan untersucht. Die Polymerisation von zinnverbrückten, gespannten Vanadium-Sandwichkomplexen und die Untersuchungen der paramagnetischen Eigenschaften ist ebenso in dieser Dissertationsschrift beschrieben. Zusätzlich wird die Synthese heteroleptischer Sandwichkomplexe des Scandiums und Yttriums dargestellt, sowie deren Ringsubstitution. Die Vorarbeiten zur Synthese heteroleptischer Sandwichkomplexe der Lanthanoide bildet ebenso einen Bestandteil dieser Schrift, wie die Synthese von ansa-Komplexen des Thorocens und Uranocens via flytrap-Methode. / This Dissertation presents the results of the synthesis and polymerization of strained Manganoarenophanes. Furthermore the reactivity of bis(benzene)titanium and the synthesis of its ansa-compounds, as well as property investigations are shown. Comparative studies of the complex bis(mesityl)titanium are also described. The polymerization of tin-bridged, strained Vanadium sandwich compounds and the investigations of their paramagnetic properties are also described within this dissertation. Additionally the synthesis of heteroleptic sandwich complexes of Scandium and Yttrium and their ring substitution are presented. First results concerning the synthesis of heteroleptic sandwich complexes of the Lanthanides are a part of this work as well as the synthesis of ansa-compounds of Thorocene and Uranocene via flytrap-method.

Sandwich-Verbindungen

Überbrückte Verbindungen

Polymerisation

Lanthanoide

Actinoide

ddc:546