Comportement au fluage de poutres hétérogènes bois-BFUP assemblées par collage / Creep behaviour of heterogeneous glulam-UHPFRC beams assembled by bonding

Kong, Kanhchana

15 September 2015

Ce travail de recherche vise à évaluer le comportement au fluage de nouvelles structures composites en associant trois matériaux: le bois, le béton fibré ultra-haute performance (BFUP) et des armatures polymères renforcées de fibres de carbone (PRFC). Le but de la conception d'une telle section hybride est de faire usage des meilleures caractéristiques de chaque matériau afin d'augmenter sa capacité portante à l'ultime et/ou en service. Aussi, d'un point de vue du comportement mécanique, cette solution de renforcement vise à apprécier et hiérarchiser l'intérêt d'une telle solution liée aux effets déférés, particulièrement au fluage. La première étape consiste à mener une analyse expérimentale sur le comportement en statique de poutres hétérogènes bois-BFUP. Elle est exécutée afin de mieux comprendre le mécanisme d'endommagement ainsi que la performance pour définir le comportement au fluage. Pour cela, une campagne expérimentale en flexion quatre points portant sur trois poutres, dont une poutre témoin, a été conduite sous sollicitation statique. Les résultats obtenus confirment que les poutres hétérogènes Bois-BFUP apportent une optimisation de capacité portante ainsi que de la rigidité. Les poutres hybrides ont permis d'obtenir le même mode de rupture en flexion et la première rupture s'est produite dans la partie comprimée de BFUP supérieur. La seconde partie de la recherche est consacrée à l'analyse du comportement au fluage de poutres hétérogènes bois-BFUP nécessaire pour prédire les déformations à long terme dans des structures composites hybrides. Dans cette étude, deux types d'essai ont été réalisés : essai en environnement contrôlé et essai en environnement non contrôlé (extérieur). En environnement contrôlé les essais fluage ont commencé sous une charge constante de 24 kN dans le laboratoire avec des températures de 20±5 °C et une humidité relative entre 40% et 60%. Ces conditions climatiques peuvent être considérées comme un environnement de classe 1, conformément à l'Eurocode 5. Les résultats ont montré que la flèche de fluage de la poutre renforcée augmente peu tout au long de l'essai. A l'inverse de ces résultats, l'essai de fluage en environnement variable à l'extérieur du laboratoire, qui peut être considéré comme environnement de classe 3 suivant l'Eurocode 5, montre que les effets différés du bois et du béton jouent un rôle très important dans l'évolution de la flèche finale / This dissertation aims to evaluate the creep behaviour of a new composite structure combined three materials: the wood, the ultra-high performance fibre-reinforced concrete (UHPFRC) and the polymer fibre reinforced carbon (CFRP) according to their advantages and performances. The conception of such hybrid section is to use the best characteristics of each material to increase its bearing capacity in the ultimate and / or in service. Furthermore, from the point of view of design, this strengthening solution is to assess and prioritize the interests to reduce the deformation caused by the delayed effects, particularly caused by creep. The first part investigated an experimental analysis of the static behaviour of the wood-UHPFRC beam, and should be performed to understand the mechanism of the hybrid beam as well as the performance which are the directions to identify the creep behaviour. A four-points bending test setup on three beams, one beam witness, was conducted under static loading. The results confirm that heterogeneous Timber-UHPFRC beams provide an optimization of bearing capacity and stiffness. The hybrid beams have produced the same flexural mode of failure and the first crack occurred in the upper part of compressed UHPFRC. The second part of the research is devoted to the analysis of creep behaviour of heterogeneous wood beams UHPC necessary to predict long-term deformations in composite structures. In this study, two types of test setups were conducted: test in a sheltered and outdoor environment. In the sheltered environment, the creep test began under a constant load of 24 kN in the laboratory with temperatures of 20 ± 5 °C and a relative humidity between 40% and 60%. These climatic conditions can be considered as the service class 1, according to Eurocode 5. The results showed that the creep deflection of the reinforced beam gradually increases throughout the test. Unlike these results, the creep test in a variable environment outside the laboratory, which can be considered Class Service 3 to Eurocode 5, shows that the effect of time dependency behaviour of wood and concrete plays a very important role in the evolution of the creep deflection of the hybrid beams

Fluage

Poutres

BFUP

PRFC

Collage

Modélisation analytique itérative

Creep

Glulam

UHPFRC

CFRP bars

Pasting

Iterative analytical modelling

624

Effects of heat treatments on the safety and nutritional properties of whole grain barley

Boyd, Lindsey

11 January 2016

Health claims for barley β-glucan (BG) have prompted the development of more food products using barley. Some new products do not use any form of heat treatment which could become an issue as barley has been found to have high microbial contamination. The aim of this research was to evaluate current commercial barley products for microbial and BG quality and determine the effects of different heat treatments on the safety and physicochemical properties of BG of whole grain barley. Three heat treatments (micronization, roasting and conditioning) were performed on 3 cultivars of barley (CDC Rattan, CDC McGwire and CDC Fibar). The microbial quality was measured with standard plate count (SPC), yeast and mould (MYC), and coliforms/E. coli. Only 4 of the 17 commercial barley products tested met acceptable microbial limits used in this study. All 3 heat treatments reduced SPC, MYC and coliforms to acceptable levels. BG was extracted using an in vitro digestion method to determine its viscosity, molecular weight (MW) and solubility. Heat-treated barley increased the BG viscosity and MW compared to the untreated barley. The effect of heat treatment on starch pasting, particle size and colour were also evaluated. Overall, heat treatments improved the safety and potential health benefits of whole grain barley. / February 2016

Barley

Heat treatments

Microbiology

Safety

Beta-glucan

Viscosity

Molecular weight

Particle size

Colour

Starch Pasting

Whole grain

Kilning

Micronization

Roasting

Steam

Volume Fraction Dependence of Linear Viscoelasticity of Starch Suspensions

Jinsha Li (6400343)

25 June 2020

<p>When starch granules are gelatinized, many complex structural changes occur as a result of large quantity of water being absorbed. The enlargement of granule sizes and the leaching out water-soluble macromolecules contribute to the viscoelasticity. Starch pasting behavior greatly influences the texture of a variety of food products such as canned soup, sauces, baby foods, batter mixes etc. It is important to characterize the relationship between the structure, composition and architecture of the starch granules with its pasting behavior in order to arrive at a rational methodology to design modified starch of desirable digestion rate and texture. Five types of starch used in this study were waxy maize starch (WMS), normal maize starch (NMS), waxy rice starch (WRS), normal rice starch (NRS) and STMP cross linked normal maize starch. Evolution of volume fraction φ and pasting of 8% w/w starch suspension when heated at 60, 65, 70, 75, 80, 85 and 90 °C were characterized by particle size distribution and G’, G” in the frequency range of 0.01 to 10 Hz respectively. As expected, granule swelling was more pronounced at higher temperatures. At a fixed temperature, most of the swelling occurred within the first 5 min of heating. The pastes exhibited elastic behavior with G’ being much greater than G”. G’ increased with time for waxy maize and rice starch at all times. G’ and G’’ were found to correlated only to the temperature of pasting and not change much with the rate of heating. For WMS, WRS and STMP crosslinked NMS, G’ approached a limiting value for long heating times (30 min and above) especially at heating temperatures of 85°C and above. This behavior is believed to be due to the predominant effect of swelling at small times. For normal maize and rice starch, however, G’ reached a maximum and decreased at longer times for temperatures above 80 °C due to softening of granules as evidenced by peak force measurements. For each starch sample, the experimental data of G’ at different heating temperatures and times could be collapsed into a single curve. The limiting value of G’ at high volume fraction was related to granule size and granule interfacial energy using a foam rheology model. The interfacial free energy of granules were obtained from contact angle measurements and was employed to evaluate the limiting G’. The experimental data of G’ for all starches when subjected to different heating temperatures and times were normalized with respect to the limiting value at high volume fractions. The master curve for normalized G’ was employed to predict the evolution of G’ with time for different starches which was found to agree well with experimental data of storage modulus. A mechanistic model for starch swelling that is based on Flory Huggins polymer swelling theory was employed to predict the evolution of volume fraction of swollen granules. The model accounts for the structure and composition of different types of starches through starch-solvent interaction as quantified by static light scattering, gelatinization temperature and enthalpy of gelatinization, porosity and its variation with swelling and crosslinking of starch molecules within the granule from equilibrium swelling. Consequently, one could predict the evolution of texture of these starch suspension from the knowledge of their swelling behavior. Expressing the limiting storage modulus of complete swelling (volume fraction approaching unity) of starch suspension in terms of foam rheology, we were able to normalize the storage modulus of different types of starches with respect to its limiting value which is found to fall into a master curve. This master curve when employed along with the swelling model resulted in the successful prediction of development of texture for different types of starches. The above methodology can quantify the effects of structure and composition of starch on its pasting behavior and would therefore provide a rational guideline for modification and processing of starch-based material to obtain desirable texture and rheological properties.</p> <p> </p>

Biomaterials

Food Engineering

Food Processing

Food Sciences not elsewhere classified

starch

viscoelasticity master curves

texture

food processing

swelling kinetics

pasting behavior

Extração e caracterização do amido de lobeira (solanum lycocarpum) / Extraction and characterization of the starch lobeira (solanum lycocarpum)

Pascoal, Aline Mendonça

28 March 2014

Submitted by Marlene Santos (marlene.bc.ufg@gmail.com) on 2014-12-18T18:07:39Z No. of bitstreams: 2 Tese - Aline Mendonça Pascoal - 2014.doc: 4428288 bytes, checksum: 759c80688c07f85efa0d5d3663f7dbec (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2014-12-22T10:33:16Z (GMT) No. of bitstreams: 2 Tese - Aline Mendonça Pascoal - 2014.doc: 4428288 bytes, checksum: 759c80688c07f85efa0d5d3663f7dbec (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2014-12-22T10:33:16Z (GMT). No. of bitstreams: 2 Tese - Aline Mendonça Pascoal - 2014.doc: 4428288 bytes, checksum: 759c80688c07f85efa0d5d3663f7dbec (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2014-03-28 / Fundação de Amparo à Pesquisa do Estado de Goiás - FAPEG / This study was conducted to evaluate the chemical, physical-chemical, biochemical and rheological properties of starch from Solanum lycocarpum. The pulp from Solanum lycocarpum fruits was used as raw material for extraction of starch, resulting in a yield of 51%. The starch granules were heterogeneous in size, presenting a conical appearance, very similar to those from high-amylose cassava starch. The elemental analysis (CHNS) revealed 64.33% carbon, 7.16% hydrogen and 0.80% nitrogen. FT-IR spectroscopy showed the peaks characteristic of polysaccharides and NMR analysis confirmed the presence of the α-anomer of D-glucose. The S. lycocarpum starch was characterized by high value of intrinsic viscosity (3515 mPa s) and estimated molecular weight around 645.69 kDa. Furthermore, this starch was classified as a C-type and high amylose content starch, presenting 34.66% of amylose and 38% crystallinity. Endothermic transition temperatures (To = 61.25°C; Tp = 64.5°C; Tc = 67.5°C), gelatinization temperature (∆T = 6.3°C) and enthalpy changes (∆H= 13.21 J g−1) were accessed by DCS analysis. The thermogravimetric analysis of S. lycocarpum starch showed a typical three-step weight loss pattern. Microscopy revealed significant changes in the granule morphology after thermal treatment. Samples treated at 50°C for 10 min lost 52% of their crystallinity, which was partially recovered after storage for 7 days at 4°C. However, samples treated at 65°C for 10 min became were totally amorphous. This treatment was sufficient to completely disrupt the starch granule, as evidenced by the absence of an endothermic peak in the DSC thermogram. The RVA of S. lycocarpum starch revealed 4440.7 cP peak viscosity, 2660.5 cP breakdown viscosity, 2414.1 cP final viscosity, 834.3 cP setback viscosity, and a pasting temperature of 49.6°C. The low content of resistant starch (10.25%) and high content of digestible starch (89.78%) in S. lycocarpum suggest that this starch may be a good source for the production of hydrolysates, such as glucose syrup and its derivatives. These results make the S. lycocarpum fruit a very promising source of starch for biotechnological applications. / Este trabalho foi realizado para avaliar as propriedades químicas, físico- químicas, bioquímicas e reológicas do amido de Solanum lycocarpum. Polpas dos frutos de Solanum lycocarpum foram utilizadas como matéria-prima para a extração de amido, resultando em um rendimento de 51%. Os grânulos de amido apresentaram tamanho heterogêneo, com aparência cônica, muito semelhante ao amido de mandioca, com alto teor de amilose. A análise elementar (CHNS) revelou 64,33% de carbono, 7,16% de hidrogênio e 0,80% de nitrogênio. A espectroscopia FT-IR revelou picos característicos de polissacarídeos e a análise de RMN confirmou a presença do carbono αanomérico da D-glicose. O amido de S. lycocarpum apresentou elevada viscosidade intrínseca (3515 mPa s) e peso molecular estimado de 645,69 kDa. Além disso, este amido foi classificado como um amido do tipo C, apresentando 34,66% de amilose e 38% de cristalinidade. Através de análises por DCS determinou-se as temperaturas de transição endotérmica (To = 61,25°C; Tp = 64,5°C; Tc = 67,5°C), a variação da temperatura de gelatinização (∆T = 6,3°C) e a variação de entalpia (∆H = 13,21 J g-1). A análise termogravimétrica do amido de S. lycocarpum apresentou um padrão típico de perda de peso de três etapas. A microscopia revelou alterações significativas na morfologia dos grânulos após o tratamento térmico. As amostras tratadas a 50°C, durante 10 minutos, perderam 52% de sua cristalinidade, a qual foi parcialmente recuperada após armazenamento a 4°C, por 7 dias. No entanto, as amostras tratadas a 65°C, por 10 minutos, perderam totalmente sua cristalinidade, apresentando estrutura totalmente amorfa. Este tratamento foi suficiente para romper completamente o grânulo de amido, conforme evidenciado pela ausência do pico endotérmico na curva do DSC desta amostra. O RVA do amido de S. lycocarpum revelou um pico de viscosidade de 4440,7 cP, quebra de viscosidade 2660,5 cP, viscosidade final 2414,1 cP, tendência a retrogradação 834,3 cP e temperatura de pasta de 49,6°C. O baixo teor de amido resistente (10,25%) e o elevado teor de amido digerível (89,78%) sugerem que este amido pode ser uma boa fonte para a produção de hidrolisados, tais como xarope de glicose e seus derivados. Os resultados obtidos neste estudo fazem do fruto de S. lycocarpum uma fonte promissora de amido para aplicações biotecnológicas.

Solanum lycocarpum

Amilose

Amilopectina

Cristalinidade

Propriedades de pasta

Retrogradação

Propriedades térmicas

Amido resistente

Digestibilidade

Solanum lycocarpum

Amylose

Amylopectin

Crystallinity

Pasting properties

Retrogradation

Thermal properties

Resistant starch

Digestibility

BIOQUIMICA::BIOLOGIA MOLECULAR