Spelling suggestions: "subject:"matematerials bimechanical properties"" "subject:"matematerials bymechanical properties""
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The mechanics of biomaterials studied at micro- and nano-scalesZhou, Zhuolong, 周卓龍 January 2014 (has links)
abstract / Mechanical Engineering / Doctoral / Doctor of Philosophy
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An experimental investigation of the effect of microstructural features on mechanical properties of EN8 steelMoleejane, Cullen Mayuni January 2009 (has links)
Thesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2009. / Materials in almost all components are subjected to some kind of loading that must
be correctly predicted to produce reliable designs. The understanding of a material's
properties significantly impacts appropriate selection for a structure. This kind of
material characterization is also important in the development of improved or new
materials for high strength and novel applications. There are numerous metallurgical
variables (composition and process parameters) that influence the physical and
mechanical properties of materials.
The aim of this work has been to study the influence of microstructure on mechanical
properties of steel, specifically the effect of grain sizes within solid phase mixtures.
Parameters for simple models of the variation of material properties with grain size
can be determined. These models can then be incorporated in the material data sets
of Finite Element Analysis programs which will then allow for structural analysis with
zones in a material having different grain sizes.
The deformation and damage behaviour of EN 8 steel have been stUdied with
emphasis on the effects of grain size on the elastic-plastic response of the material.
For that purpose, EN 8 specimens with a range of microstructures (grain size and
phase) were prepared by heat treatment The microstructural features were carefully
characterized using two different experimental surface microscopy techniques; Light
Optical Microscope and Scanning Electron Microscope. The deformation and
hardness characteristics have been studied with the help of tensile and hardness
tests. The mechanical properties were determined as a function of microstructure
(grain size and phase). The yield stress followed the classical Hall-Petch relation.
The results indicated that tensile strength and hardness increases with decrease in
grain size while elongation decreases.
The main philosophy behind this research has been the study of the microstructure
and information from the iron-carbon phase diagram together with numerical analysis
of stress-strain data, in order, to understand the influence of grain size on mechanical
behaviour of EN8 steel. This combination was then used to make general
conclusions on mechanical behaviour of EN 8 based on heat treatment history.
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Mechanical properties of nanostructured Pd₈₂Si₁₈ alloy. / 納米鈀硅合金之機械特性 / Mechanical properties of nanostructured Pd₈₂Si₁₈ alloy. / Na mi ba gui he jin zhi ji xie te xingJanuary 2001 (has links)
by Ng Kwok Leung = 納米鈀硅合金之機械特性 / 吳國良. / Thesis submitted in 2000. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2001. / Includes bibliographical references. / Text in English; abstracts in English and Chinese. / by Ng Kwok Leung = Na mi ba gui he jin zhi ji xie te xing / Wu Guoliang. / Acknowledgements --- p.ii / Abstract --- p.iii / 摘要 --- p.iv / Chapter Chapter 0 --- Prelude- A brief history of materials --- p.1 / Chapter Chapter 1 --- Introduction --- p.4 / Chapter 1.1 --- Introduction --- p.4 / Chapter 1.2 --- How are nanostructured materials produced? --- p.5 / Chapter 1.3 --- General properties of nanostructured materials --- p.7 / Chapter 1.4 --- Mechanical behaviour of nanostructured materials --- p.8 / Chapter 1.5 --- The solution --- p.12 / References --- p.20 / Figures --- p.22 / Chapter Chapter 2 --- Experimental --- p.30 / Chapter 2.1 --- Specimen preparation --- p.30 / Chapter 2.2 --- Means of analysis --- p.32 / Figures --- p.36 / Chapter Chapter 3 --- Synthesis of large nanostructured Pd82Si18 alloy --- p.39 / Abstract --- p.39 / References --- p.44 / Table and Figures --- p.45 / Chapter Chapter 4 --- Tensile behaviour of nanocrystalline Pd82Si18 alloy --- p.54 / Introduction --- p.54 / Experimental --- p.55 / Results --- p.57 / Discussions --- p.58 / References --- p.59 / Table and Figures --- p.60
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Micromechanical investigation of the behavior of granular materialsDai, Beibing., 戴北冰. January 2010 (has links)
published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy
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Tribological behaviour of anodised alumina nanohoneycombsWang, Shuo, 王硕 January 2012 (has links)
Anodic alumina nanohoneycombs (AAO) have been widely used because of its convenient fabrication and controllable pores’ geometry. A lot of investigations have been conducted to study its physical and chemical properties. However, the mechanical properties, especially tribological properties, of such a popular nanomaterial still remain almost unknown.
In this project, a series of scratch experiments were conducted on AAO films fabricated by a two-step anodisation method. The testing system is a G200 Nanoindenter provided by Agilent Corporation. A standard diamond Berkovich tip is used as the scratch tip. A scanning electron microscope was used to image the microstructure of the material deformation after scratching. Strengths of AAO domains with different pore regularities were compared by performing the scratch tests at constant normal loads crossing the boundaries separating these domains. Ramping load tests were carried out to show the effects of the normal load on the deformation and friction of the AAO. Scratch cycles and velocities were also varied to see their influence on friction and wear.
The results show that the more ordered AAO structure has higher strength than disordered counterparts under scratch testing. The friction coefficient reduces rapidly on increasing normal load, and an explanation of this unusual behaviour is offered by considering the row-by-row deformation of the AAO structure. In multicycle scratch tests, the friction reaches a maximum at the fourth cycle. A step-like deformation behaviour was observed when the scratch velocity became extremely large, and this is probably due to the dynamic response of the instrument. / published_or_final_version / Mechanical Engineering / Master / Master of Philosophy
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Electro-chemo-mechanics of anodic porous alumina nano-honeycombs: self-ordered growth and actuationCheng, Chuan, 程川 January 2013 (has links)
Self-ordered anodic porous alumina with a nano-honeycomb structure has recently been extensively used as templates for the synthesis of various nanomaterials for diverse applications. However, due to the insufficient knowledge on the combined electro-chemo-mechanical processes, the formation mechanism of self-ordering has been under debate for decades without clear conclusions. Also, fast fabrication of highly self-ordered and mechanically stable anodic porous alumina is still a challenge. Furthermore, the actuation behavior of anodic porous alumina upon external mechanical and electrical triggering in an electrochemical cell has not been exploited.
In this work, firstly, we investigated the self-ordering mechanism by establishing a kinetics model involving the Laplacian electric potential distribution and a continuity equation for current density within the oxide body. Current densities governed by the Cabrera-Mott equation are formed by ion migration within the oxide as well as across the interfaces. The pore channel growth, due to electric-field-assisted reactions, is governed by Faraday’s law. Real-time evolution of pre-patterned pore channel growth was simulated in two-dimensional cases by finite element method. The simulations revealed a parameter domain within which pre-patterned pore channels will continue to grow in a stable manner during the subsequent anodization if the pre-patterns are commensurate with the self-ordered configurations, or these are driven into stable if the pre-patterns do not initially match the self-ordered configurations. This was verified in experimentally observed pore channel growth under the guidance of pre-patterns made by focused-ion-beam milling. Furthermore, the simulations revealed that ionization reaction on (001) oriented Al grain is relatively easier than that on (101) grain, which results in stable and unstable pore channel growth on (001) and (101) Al grains, respectively, both of which were observed from the simulations and experiments.
Secondly, a scheme on quantitative evaluation of self-ordering qualities in anodic porous alumina has been developed, based on which we systematically searched the optimum self-ordering conditions, by varying the key anodization factors, including substrate grain orientation, electrolyte concentration, temperature, voltage, and time. A high acid concentration and high temperature anodization method was found. Compared with conventional methods, the present method can realize fast formation of highly self-ordered, and mechanically stable anodic porous alumina under a continuous range of anodization voltage with tunable interpore distances.
Thirdly, reversible bending was found in anodic porous alumina-Al composites upon cyclic electric actuation, as directly observed by an optical microscope and detected by in situ nanoindentation. The bending is thought to be the result of charge-induced surface stresses in the nanoporous alumina. The results suggest a new type of composite materials for applications as micro-scale actuators to transform electrical energy into mechanical energy. Furthermore, the composite exhibits significant softening during in situ nanoindentation when the estimated maximum stress underneath the indenter is exerted on the metal/oxide interface. Softening was further verified by in situ microindentation. Electron microscopy examination indicated that the softening is due to a combination of high compression stress and electric field acting near the interface, which enhance ionization reaction and cause the interface to move faster into the substrate. / published_or_final_version / Mechanical Engineering / Doctoral / Doctor of Philosophy
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Fatigue life prediction for cord-rubber composite tires using a global-local finite element methodHan, Young-hoon 28 August 2008 (has links)
Not available / text
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Discontinuous Galerkin finite element solution for poromechanicsLiu, Ruijie 28 August 2008 (has links)
Not available / text
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Measurements on the condition of compliant coatings for prediction of acoustic performanceDoane, John William 08 1900 (has links)
No description available.
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An investigation of micropolar moduli and characteristic lengths of heterogeneous materials and a reduction of constants in plane elasticity with eigenstrainsBoccara, Stephane 08 1900 (has links)
No description available.
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