Thin Film Deposition on Powder Substrates using ALD and its Characterization using XPS, TEM, and SE

Shah, Dhruv

28 April 2020

The major part of my dissertation consists of thin films deposited using atomic layer deposition on flat and powder substrates. It details the various optimization experiments for process parameters like dose time, purge time, temperature, and pressure on silicon shards and powder substrates. Spectroscopic ellipsometry (SE) was used to characterize these films over a wide wavelength range (191-1688 nm). An optical model with a BEMA (Bruggeman effective medium approximation) layer was used to fit the ellipsometric data to investigate the optical properties of the alumina surface. The optimized process parameters on the flat surfaces were used for coating powder substrates. I propose a set of experiments to optimize the conditions for coating of powders and high aspect ratio structures by atomic layer deposition (ALD). The coated powders were analyzed by surface analytical techniques like X-ray photoelectron spectroscopy, spectroscopic ellipsometry, transmission electron microscopy, energy X-ray dispersive spectroscopy (EDAX), and BET. The first chapter introduces the technique of atomic layer deposition, and details its advantages and limitations over conventional thin film deposition techniques like chemical vapor deposition and physical vapor deposition. The second chapter details the initial deposition experiments performed on flat surfaces and characterization of thin films using surface analytical tools. I conducted multi-sample analysis on eleven different thin films for calculation of optical constants of alumina. The third chapter introduces thin film deposition experiments performed on powder substrates, several challenges associated with achieving conformal thin films and characterization. The fourth chapter details the experiments to achieve unilateral ALD achieved on one side of the substrates. The fifth chapter details various unconventional materials including liquid water, Coca-Cola, a coffee bean, nitrogen gas, human tooth, and printed office paper, which were analyzed by near ambient pressure XPS (NAP-XPS). This dissertation contains appendices of other tutorial articles I wrote on obtaining optical constants liquid samples using spectroscopic ellipsometry, and good experimental techniques for maintenance of vacuum equipment.

ALD

Alumina

powder coating

XPS

ESCA

TMA

spectroscopic ellipsometry

optical model

MSA

Sellmeier

GPC

TEM

SEM

BET

Physical Sciences and Mathematics

Phase Transformations in Solid Pharmaceutical Materials Studied by AFM, ESCA, DSC and SAXS

Mahlin, Denny

January 2004

<p>Mixing excipients is a common way to produce pharmaceutical materials with suitable properties for drug formulation. An understanding of the basic mechanisms involved in the formation and transformation of the structures of solid state mixtures is crucial if one is to be able to produce materials with the desired properties in a reliable way. </p><p>In the first part of the thesis, the atomic force microscopy (AFM) technique was used to visualise the re-crystallisation of spray-dried amorphous particles comprised of lactose and PVP. The transformation was quantified on a single particle level and analysed with a common kinetic model, the JMAK-equation. The way in which the PVP was incorporated into the particles and the impact this had on their physical stability on exposure to increasing levels of humidity was investigated. The amount and, to a certain extent, the molecular weight of the PVP affected the moisture induced crystallisation of the particles. The inhibition was further discussed in terms of nucleation and growth. </p><p>In the second part of the thesis, the formation of phases in solid dispersions of monoolein (MO) in PEGs was studied by the use of SAXS and DSC. Upon solidification of a melt, the components phase separated, resulting in a PEG-rich phase and an MO phase. MO was intercalated into the amorphous domains of the lamellar structure of PEG. A second MO phase appeared in the mixtures where the average molecular weight of PEG was 1500 and 4000 g/mol. It was hypothesised that this second phase was formed in conjunction with the expulsion of MO as the PEG unfolded. </p><p>This thesis describes the application of two relatively unexplored solid state techniques on two different solid mixtures of pharmaceutical interest and, in so doing, contributes to the knowledge of phase formation and transformations in the solid state.</p>

Physical chemistry

polymer

lipid

lactose

phase transformation

phase formation

crystallisation

AFM

X-ray diffraction

ESCA

DSC

solid dispersion

Fysikalisk kemi

Physical chemistry

Fysikalisk kemi

Spray-Dried Powders for Inhalation : Particle Formation and Formulation Concepts

Elversson, Jessica

January 2005

<p>Spray drying is a method with a high potential in the preparation of protein particles suitable for pulmonary delivery. However, surface induced denaturation of bio-molecules during atomization and subsequent drying can be substantial and it is therefore important to develop new formulation concept for concurrent encapsulation and stabilization of proteins during spray drying. Hence, with an overall objective to increase the knowledge of the formation of particulate systems for systemic administration of proteins by spray drying, the first part of this thesis, systematically investigated the particle formation by droplet size and particle size measurements. It was described how specific properties, such as the solubility and the crystallization propensity of the solute, can affect the product, e.g. the particle size, internal structures, and possibly particle density. A new method using atomic force microscopy (AFM) for the assessment of the effective particle density of individual spray-dried particles was demonstrated. In the second part, two different formulation concepts for encapsulation of protein during spray drying were developed. Both systems used non-ionic polymers for competitive adsorption and displacement of protein from the air/water interface during spray drying. The aqueous two-phase system (ATPS) of polyvinyl alcohol (PVA) and dextran, and the surface-active polymers, hydroxypropyl methylcellulose (HPMC) and triblock co-polymer (poloxamer 188) used for in situ coating, proved efficient in encapsulation of a model protein, bovine serum albumin (BSA). Inclusion of polymeric materials in a carbohydrate matrix also influenced several particle properties, such as the particle shape and the surface morphology, and was caused by changes in the chemical composition of the particle surface and possibly the surface rheology. In addition, powder performance of pharmaceutical relevance, such as dissolution and flowability, were affected.</p>

Pharmaceutics

Spray drying

Particle formation

Density

Protein formulation

Encapsulation

Coating

Competitive adsorption

Polymer

ESCA

AFM

FTIR

Galenisk farmaci

Pharmaceutics

Galenisk farmaci

Phase Transformations in Solid Pharmaceutical Materials Studied by AFM, ESCA, DSC and SAXS

Mahlin, Denny

January 2004

Mixing excipients is a common way to produce pharmaceutical materials with suitable properties for drug formulation. An understanding of the basic mechanisms involved in the formation and transformation of the structures of solid state mixtures is crucial if one is to be able to produce materials with the desired properties in a reliable way. In the first part of the thesis, the atomic force microscopy (AFM) technique was used to visualise the re-crystallisation of spray-dried amorphous particles comprised of lactose and PVP. The transformation was quantified on a single particle level and analysed with a common kinetic model, the JMAK-equation. The way in which the PVP was incorporated into the particles and the impact this had on their physical stability on exposure to increasing levels of humidity was investigated. The amount and, to a certain extent, the molecular weight of the PVP affected the moisture induced crystallisation of the particles. The inhibition was further discussed in terms of nucleation and growth. In the second part of the thesis, the formation of phases in solid dispersions of monoolein (MO) in PEGs was studied by the use of SAXS and DSC. Upon solidification of a melt, the components phase separated, resulting in a PEG-rich phase and an MO phase. MO was intercalated into the amorphous domains of the lamellar structure of PEG. A second MO phase appeared in the mixtures where the average molecular weight of PEG was 1500 and 4000 g/mol. It was hypothesised that this second phase was formed in conjunction with the expulsion of MO as the PEG unfolded. This thesis describes the application of two relatively unexplored solid state techniques on two different solid mixtures of pharmaceutical interest and, in so doing, contributes to the knowledge of phase formation and transformations in the solid state.

Physical chemistry

polymer

lipid

lactose

phase transformation

phase formation

crystallisation

AFM

X-ray diffraction

ESCA

DSC

solid dispersion

Fysikalisk kemi

Physical chemistry

Fysikalisk kemi

Spray-Dried Powders for Inhalation : Particle Formation and Formulation Concepts

Elversson, Jessica

January 2005

Spray drying is a method with a high potential in the preparation of protein particles suitable for pulmonary delivery. However, surface induced denaturation of bio-molecules during atomization and subsequent drying can be substantial and it is therefore important to develop new formulation concept for concurrent encapsulation and stabilization of proteins during spray drying. Hence, with an overall objective to increase the knowledge of the formation of particulate systems for systemic administration of proteins by spray drying, the first part of this thesis, systematically investigated the particle formation by droplet size and particle size measurements. It was described how specific properties, such as the solubility and the crystallization propensity of the solute, can affect the product, e.g. the particle size, internal structures, and possibly particle density. A new method using atomic force microscopy (AFM) for the assessment of the effective particle density of individual spray-dried particles was demonstrated. In the second part, two different formulation concepts for encapsulation of protein during spray drying were developed. Both systems used non-ionic polymers for competitive adsorption and displacement of protein from the air/water interface during spray drying. The aqueous two-phase system (ATPS) of polyvinyl alcohol (PVA) and dextran, and the surface-active polymers, hydroxypropyl methylcellulose (HPMC) and triblock co-polymer (poloxamer 188) used for in situ coating, proved efficient in encapsulation of a model protein, bovine serum albumin (BSA). Inclusion of polymeric materials in a carbohydrate matrix also influenced several particle properties, such as the particle shape and the surface morphology, and was caused by changes in the chemical composition of the particle surface and possibly the surface rheology. In addition, powder performance of pharmaceutical relevance, such as dissolution and flowability, were affected.

Pharmaceutics

Spray drying

Particle formation

Density

Protein formulation

Encapsulation

Coating

Competitive adsorption

Polymer

ESCA

AFM

FTIR

Galenisk farmaci

Pharmaceutics

Galenisk farmaci

The effects of cellulosic fiber charges on polyelectrolyte adsorption and fiber-fiber interactions

Horvath, A. Elisabet

January 2006

The surface charges of cellulosic fibers contribute to several papermaking operations that influence the manufacture and final properties of paper. This thesis investigates the effect of the surface charges on wet-end chemistry, e.g. through the interaction of cationic polyelectrolytes with the fiber surface charges, and on the network strength of pulp suspensions. The polyelectrolyte titration method was used to investigate the interaction of the fiber charges with cationic polyelectrolytes. Techniques were developed to fluorescent label the adsorbing cationic polyelectrolyte in order to visualize the adsorption behavior. Fluorescent confocal laser scanning microscopy (CLSM) was used to determine the extent to which the cationic polyelectrolyte adsorbs into the porous fiber wall. It was shown that the polyelectrolyte charge density limits the adsorption to the surface under electrolyte-free conditions. Adsorption into the fiber wall only occurs for two conditions: 1) if the molecular mass is sufficiently low or 2) the electrolyte concentration is high enough to screen the charges along the polyelectrolyte backbone but not the interactions between the polyelectrolyte and the fiber charges. Aside from the polyelectrolyte properties, the fiber charge density contributes to the adsorption behavior of cationic polyelectrolytes. The fiber charge profile was altered by bulk and surface carboxymethylation. The electrolyte concentration at which a deviation from 1:1 stoichiometry occurs was shown to be dependent on the amount of surface charges, such that the deviation in stoichiometry occurs at a higher electrolyte concentration for pulps having a higher surface charge. A hypothesis was developed to test the conditions at which the deviation in adsorption stoichiometry occurs, which was defined as the critical electrolyte concentration (CEC). It was found that the CEC corresponded to the electrolyte concentration at which the distance between the fiber charges was on the order of the Debye length. Electron spectroscopy for chemical analysis (ESCA) was used as an independent calibration procedure to validate for which a 1:1 stoichiometry occurs. The analysis with ESCA agreed well with the polyelectrolyte titration method for measurement of fiber surface charges. When measured under appropriate conditions, i.e. electrolyte concentration and molecular properties, the fiber surface charge can accurately be measured by the polyelectrolyte titration method. The charge profiles of various pulp types and treatments were also examined. Having been established as a valid technique, the polyelectrolyte titration method was again used to measure the surface charge while conductometric titration was used to measure the total charge content. The amount of bulk and surface charges vary depending on the pulping method and type of wood, although the ratio between the bulk and surface charge (i.e. the charge ratio) is similar for chemical pulps. The mechanical pulp has a higher charge ratio because it contains more fines material than chemical pulp. Bleaching of the chemical pulp decreases the amount of bulk and surface charges, although the charge ratio remains essentially constant. However, methods such as beating or carboxymethyl cellulose (CMC) grafting are available to increase the charge ratio. The effect of the charge profile on fiber-fiber interactions was studied on both a microscopic and macroscopic level. Colloidal probe microscopy (CPM) was used to investigate the microscopic interactions between two cellulose surfaces. Cellulose surfaces, prepared by spin-coating a dissolving pulp onto silica, were used to model the fiber surface, which is too rough for surface force measurements. The charge density of the model surface was increased by CMC grafting. Results showed that increasing the surface charge density created large electrosteric repulsions, due to CMC the chains protruding out from the surface. These interactions on the microscopic scale affect the fiber network strength, which was measured with a parallel plate rheometer. When the repulsion is increased between the fibers, caused by the increase in the surface charge, fiber flocs break apart more easily due to a reduced friction between the fiber surfaces. The forces acting on the fiber network can also be mechanical in origin. The fiber length and flexibility were altered in order to study the influence of mechanical surface linking and elastic fiber bending on the fiber network strength. Using the storage modulus (G’0) as a measure of fiber network strength, longer fibers were found to create a stronger network due to an increased amount of fiber contacts. Flexible fibers have a lower network strength than stiff fibers because the fibers come to rest in a less strained position such that the the influence of elastic fiber bending on the fiber network strength is predominant. / QC 20100831

adsorption

electrolyte

polyelectrolyte

polyelectrolyte titration

stoichiometry

fluorescence

CLSM

carboxymethylation

ESCA

charge ration

colloidal interactions

mechanical forces

network strength

floc

CPM

rehometer

Cellulose and paper engineering

Cellulosa- och pappersteknik

Characterization of Cr 2 O 3 catalysts for Cl/F exchange reactions

Uenveren, Ercan

11 May 2004

Der Cr2O3 ist einer der wichtigsten Katalysatoren im Chlor/Fluor (Cl/F) Austauschreaktionen für die Produktion von chlorofluorocarbon (CFC) Alternativen. Es wird als ein ausgezeichneter heterogener Katalysator für Fluorierung Reaktionen gegründet. Die Dismutierung von CCl2F2 wurde verwendet, um die Wirkung von Halogenierung von Chrom(III) Oxyd auf Cl/F-Austauschreaktionen zu untersuchen und um den Unterschied zwischen den inaktiven und aktiven Katalysatoren herauszufinden. Die heterogenen Reaktionen wurden in einem tubular-flow Ni Reaktor und auch unter simulierten Reaktionsbedingungen in einem Reaktor durchgeführt, wo nach der Reaktion die Photoelektronspektroskopie (XPS) und die Auger-Elektronspektroskopie (XAES) Analysen konnte direkt ohne Luftkontakt, unter so genannt "in - situ" Bedingungen gefolgt werden. Es wurde gezeigt, dass die Probleme der Behandlung von Cr (III) 2p Photoelektronenspektren so gelöst werden können, dass ihnen relevante Daten für die chemische Charakterisierung von Oberflächen entnommen werden können. Hochaufgelöste Photoelektronspektroskopie von Cr2O3 Pulverproben zeigte deutlich die Existenz von spektralen Strukturen, die mit Multiplet-Aufspaltungen im jeweiligen Cr 2p Spektrum verbunden sind. Das Spektrum kann durch eine Peakfit-Analyse vertieft interpretiert werden in dem die Anfangswerte für die Peakparameter der Multiplet-Strukturen den jeweiligen Cr L2,3 XANES Spektren entnommen werden. Vom theoretischen Gesichtspunkt sollte dasselbe Verfahren auch eine Analyse der Cr 2p Photoelektronenspektren von alpha-CrF3, CrCl3 und anderen Chrom (III) Verbindungen ermöglichen. Die Unterschiede, die im Experiment für die Cr2O3, alpha-CrF3 und CrCl Photoelektronenspektren beobachtet werden, deuten auf die Tatsache, dass, obwohl in all diesen Fällen dieselben Multiplet-Aufspaltungen für Cr3+ erwartet werden, individuelle Einflüsse der Symmetrie und Ligandenfelder die Endgestalt des jeweiligen Cr 2p Photoelektronenspektrums definieren. Eine Analyse von Cr 3s Spektren kann zusätzlich wertvolle Finger-print Informationen zu chemischen Zuständen von Chrom in Cr (III) Verbindungen erbringen. Sowohl ex-situ als auch ´´in-situ´´ ESCA zeigen, dass sobald CCl2F2 zu Cr2O3 an 390 °C geführt wird, Fluorierung sowie Chlorierung an der Katalysator-Oberfläche findet statt. Wenn die XPS Oberflächenzusammensetzung etwa 4 Atom - % Fluorierung und 6 Atom - %-Chlorierung erreicht, wird die maximale katalytische Aktivität erhalten. Die längeren Reaktionszeiten ändern bedeutsam die erhaltene Oberflächenzusammensetzung von aktiviertem Chrom(III) Oxyd nicht. Der Fluorierung und Chlorierung von Chrom(III) Oxyd wurden weiter durch verschiedenen HF und HCl Behandlungen ebenso untersucht. Die aktivierten Chrom(III) Oxyd Proben und Referenzproben mit der weithin bekannten chemischen Struktur wurden auch durch Kantennahe Röntegenabsorptionsuntersuchungen (XANES), Flugzeit-statischesekundärionenmassenspektroskopie (TOF-SSIMS), Rasterelektronenmikroskopie (SEM), Fluor-Festkörper-NMR, Pyridin-FTIR, Nasschemie (F und Cl) Analyse, Pulver Röntgensbeugung (XRD) und Oberflächen (BET) Analyse untersucht. Die Ergebnisse der Referenzproben Cr2O3, Cr (OH) 3, CrF2 (OH), CrF3.3H2O, Alpha-CrF3, Beta-CrF3 und CrCl3 und aktivierte Cr2O3 Proben wurden verglichen. Die angewandten Charakterisierungsmethoden schlagen vor, dass die Bildung der Chrom-Oxydchlorid-Fluorid-Arten, bzw. Chrom-Oxyd Halogenide, an der Oberfläche ist genügend die katalytische Aktivität zu versorgen. Die Anwesenheit jedes CrF3 und/oder CrCl3 Phasen auf den aktivierten Chrom(III) Oxyd Proben wurde nicht entdeckt. / The Cr2O3 is one of the most important catalysts in the chlorine/fluorine (Cl/F) exchange reactions for the production of chlorofluorocarbon (CFC) alternatives. It is established as an excellent heterogeneous catalyst for fluorination reactions. The dismutation of CCl2F2 was used to probe the effect of halogenation of chromia on Cl/F exchange reactions in order to find out the difference between the inactive and active catalysts. The heterogeneous reactions were performed in a continuous flow Ni reactor and also under simulated reaction conditions in a reactor where after the reaction the X-ray photoelectron spectroscopy (XPS) and the X-ray excited Auger electron spectroscopy (XAES) analyses could be followed directly without air contact, under so called ´´in-situ´´ conditions. In order to be able to apply the Cr(III) 2p XPS analysis in the proper manner the spectroscopic features of the chromium(III) compounds of O, F and Cl were re-investigated. Latest generation of XPS spectrometers, which are able to analyze non-conductive powders with ultimate energy resolution, were used to reveal multiplet splitting features and satellite emission in the Cr 2p spectra. The energy positions of the multiplets were determined by total electron yield (TEY)- X-ray absorption near edge structure (XANES) spectroscopy. Using both high resolution XPS and XANES spectra a peak-fit analysis, which is also applicable for normally resolved Cr 2p XPS spectrum, was proposed. In order to overcome the known background problem by drawing the background in the broad Cr 2p window including the high binding energy satellite, a modified Shirley background, which is a combination of a linear and Shirley function, was used. Moreover, the spectroscopic features of the Cr(III) 3s XPS spectrum, which is relatively simpler than the Cr 2p one, were also surveyed. An alternative chemical analysis was proposed by using chemical state plots for Cr 3s. Both ex- and in-situ ESCA show that as soon as Cr2O3 is conducted to CCl2F2 at 390 °C fluorination as well as chlorination takes place at the catalyst surface. When the XPS surface composition reaches approximately 4 atom-% fluorination and 6 atom-% chlorination, maximum catalytic activity is obtained. Applying longer reaction times do not change significantly the obtained surface composition of the activated chromia. The fluorination and chlorination of chromia was further investigated by various HF and HCl treatments as well. The activated chromia samples and reference samples with well known chemical structure were also characterized by XANES, time of flight - static secondary ion mass spectroscopy (TOF-SSIMS), scanning electron microscopy (SEM), fluorine solid state NMR, pyridine-FTIR, wet chemical (F and Cl) analysis, X-ray powder diffraction (XRD) and surface area (BET) analysis. The results for the references Cr2O3, Cr(OH)3, CrF2(OH), CrF3.3H2O, alpha-CrF3, beta-CrF3 and CrCl3 and activated Cr2O3 samples were compared. The applied characterization methods suggest that the formation of chromium oxide chloride fluoride species, e.g. chromium oxide halides, at the surface is sufficient to provide catalytic activity. The presence of any CrF3 and/or CrCl3 phases on the activated chromia samples was not detected.

Heterogene Katalyse

Katalysator Charakterisierung

Cr2O3 Katalysatoren

Halogen Austauschreaktionen

XPS

ESCA

TOF-SIMS

XANES

Multiplet-Aufspaltung

Satelliten

Shake-up

Heterogeneous catalysis

Catalyst characterization

Cr2O3 catalysts

Halogen exchange reactions

XPS

ESCA

TOF-SIMS

XANES

Multiplet splitting

Satellites

Shake-up

540 Chemie

30 Chemie

VE 7047

VH 5507

ddc:540

Aqueous Processing of WC-Co Powders

Andersson, Karin M.

January 2004

The object of this work is to obtain a fundamentalunderstanding of the principal issues concerning the handlingof an aqueous WC-Co powder suspension. The WO3 surface layer on the oxidised tungsten carbidepowder dissolves at pH&gt;3 with the tungsten concentrationincreasing linearly with time. Adding cobalt powder to thetungsten carbide suspension resulted in a significant reductionof the dissolution rate at pH&lt;10. Electrokinetic studiesindicated that the reduced dissolution rate may be related tothe formation of surface complexes; the experiments showed thatCo species in solution adsorb on the oxidised tungsten carbidepowder. The surface forces of oxidised tungsten and cobalt surfaceswere investigated using the atomic force microscope (AFM)colloidal probe technique. The interactions at various ionicstrengths and pH values are well described by DLVO theory. Theadsorption of cobalt ions to tungsten oxide surfaces resultedin an additional non-DLVO force and a reduced absolute value ofthe surface potential. It was shown that the adsorption ofpoly(ethylene imine) (PEI) to the WO3 surfaces induces anelectrosteric repulsion. The properties of spray-dried WC-Co granules were related tothe WC primary particle size, and the poly(ethylene glycol)(PEG) binder and PEI dispersant content in aqueous WC-Cosuspensions. The granule characterisation includes a new methodfor measuring the density of single granules. The increase inthe fracture strength of granules produced from suspensionsthat were stabilised with PEI was related to a more densepacking of the WC-Co particles. The AFM was used to study the friction and adhesion ofsingle spray-dried WC-Co granules containing various amounts ofPEG binder. The adhesion and friction force between two singlegranules (intergranular friction) and between a granule and ahard metal substrate (die-wall friction) have been determinedas a function of relative humidity. The granule-wall frictionincreases with binder content and relative humidity, whereasthe granule-granule friction is essentially independent of therelative humidity and substantially lower than the granule-wallfriction at all PEG contents. Key words:Hard Metal, Cemented Carbide, WC-Co, TungstenCarbide, Cobalt, Oxidation, Dissolution, Surface Complexation,XPS, AFM, Colloidal Probe, Hamaker Constant, Cauchy, WO3,CoOOH, ESCA, Zeta-Potential, Surface Potential, Poly(ethyleneimine), PEI, Suspension, van der Waals, Steric, Spray-Dried,Poly(ethylene glycol), Strength, Density, Friction, Adhesion,Granule, PEG, Pressing, FFM. / <p>QC 20161027</p>

Hard Metal

Cemented Carbide

WC-Co

Tungsten Carbide

Cobalt

Oxidation

Dissolution

Surface Complexation

XPS

AFM

Colloidal Probe

Hamaker Constant

Cauchy

WO3

CoOOH

ESCA

Zeta-Potential

Surface Potential

Poly(ethylene imine)

PEI

Suspensi

Transfert et transport colloïdal de polluants métalliques<br />Applications en assainissement routier

Durin, Bertrand

02 June 2006

L'impact des infrastructures de transport sur l'environnement est une des préoccupations du ministère en charge de l'environnement. Le ruissellement des eaux de pluie sur les surfaces urbanisées engendre un effluent complexe plus ou moins pollué. L'objet de ce travail était de préciser le rôle de la fraction colloïdale sur la mobilité des éléments traces en assainissement routier. Pour cela nous avons procédé à deux échelles, d'une part d'une manière globale en instrumentant un bassin d'infiltration des eaux pluviales, afin de collecter et de qualifier l'effluent au cours de la chaîne d'infiltration depuis la route jusqu'aux eaux interstitielles ; d'autre part en simulant à l'échelle de la colonne de laboratoire, les sollicitations subies par le sédiment au cours de l'année, c'est à dire des variations de force ionique et des variations de charge hydraulique. L'isolement de la fraction colloïdale a été assurépar un protocole d'ultrafiltration et la caractérisation a été réalisée en couplant les analyses physicochimiques (ICP-AES, SAA, MEB, MEBE, MET, XPS) et un code de calcul géochimique. Les résultats obtenus sur le terrain mettent en évidence l'existence et la grande variabilité de la fraction colloïdale. Seul le cuivre y est toujours présent entre 4 et 59 % de sa concentration totale. Une méthodologie visant à réduire l'incertitude a été mise au point. La chute de la force ionique entraîne une mobilisation colloïdale d'aluminium, de cuivre, de plomb et de matière organique, alors que les cycles d'arrêt-reprise du débit mobilisent le cuivre, le fer, le zinc, le nickel et des composés organiques. La caractérisation colloïdale des éluats montre que les éléments traces sont associés à des oxydes d'aluminium et de fer accompagnés de substances organiques issues de la dégradation biologique mais qui sont à identifier.

Analyse statistique

Assainissement

Bassin

Colloïdes

Eaux de ruissellement

Hydrogéochimie

Infiltration

MEB

MET

Métaux lourds

Milieu poreux

Modèles

SedFFF

Sédiment

Spectroscopie

Transport couplé

Ultrafiltration

XPS-ESCA

Aqueous Processing of WC-Co Powders

Andersson, Karin M.

January 2004

<p>The object of this work is to obtain a fundamentalunderstanding of the principal issues concerning the handlingof an aqueous WC-Co powder suspension.</p><p>The WO3 surface layer on the oxidised tungsten carbidepowder dissolves at pH>3 with the tungsten concentrationincreasing linearly with time. Adding cobalt powder to thetungsten carbide suspension resulted in a significant reductionof the dissolution rate at pH<10. Electrokinetic studiesindicated that the reduced dissolution rate may be related tothe formation of surface complexes; the experiments showed thatCo species in solution adsorb on the oxidised tungsten carbidepowder.</p><p>The surface forces of oxidised tungsten and cobalt surfaceswere investigated using the atomic force microscope (AFM)colloidal probe technique. The interactions at various ionicstrengths and pH values are well described by DLVO theory. Theadsorption of cobalt ions to tungsten oxide surfaces resultedin an additional non-DLVO force and a reduced absolute value ofthe surface potential. It was shown that the adsorption ofpoly(ethylene imine) (PEI) to the WO3 surfaces induces anelectrosteric repulsion.</p><p>The properties of spray-dried WC-Co granules were related tothe WC primary particle size, and the poly(ethylene glycol)(PEG) binder and PEI dispersant content in aqueous WC-Cosuspensions. The granule characterisation includes a new methodfor measuring the density of single granules. The increase inthe fracture strength of granules produced from suspensionsthat were stabilised with PEI was related to a more densepacking of the WC-Co particles.</p><p>The AFM was used to study the friction and adhesion ofsingle spray-dried WC-Co granules containing various amounts ofPEG binder. The adhesion and friction force between two singlegranules (intergranular friction) and between a granule and ahard metal substrate (die-wall friction) have been determinedas a function of relative humidity. The granule-wall frictionincreases with binder content and relative humidity, whereasthe granule-granule friction is essentially independent of therelative humidity and substantially lower than the granule-wallfriction at all PEG contents.</p><p><b>Key words:</b>Hard Metal, Cemented Carbide, WC-Co, TungstenCarbide, Cobalt, Oxidation, Dissolution, Surface Complexation,XPS, AFM, Colloidal Probe, Hamaker Constant, Cauchy, WO3,CoOOH, ESCA, Zeta-Potential, Surface Potential, Poly(ethyleneimine), PEI, Suspension, van der Waals, Steric, Spray-Dried,Poly(ethylene glycol), Strength, Density, Friction, Adhesion,Granule, PEG, Pressing, FFM.</p>

Hard Metal

Cemented Carbide

WC-Co

Tungsten Carbide

Cobalt

Oxidation

Dissolution

Surface Complexation

XPS

AFM

Colloidal Probe

Hamaker Constant

Cauchy

WO3

CoOOH

ESCA

Zeta-Potential

Surface Potential

Poly(ethylene imine)

PEI

Suspensi