Information and Hardness Quantification of Graphs: A Computational Study

Dutson, Brent

01 May 2014

New techniques to measure the information contained within a network of interconnected nodes (such as links between computers in the Internet) have recently been developed. This work studies the relationship between the computer time needed to solve a common network problem and the information contained within the given network.

Hardness Quantification

Graphs

Computational Study

Computer Sciences

Indentation hardness and its relation to mechanical yield in quartz and olivine.

Evans, Brian (James Brian)

January 1978

Thesis. 1978. Ph.D.--Massachusetts Institute of Technology. Dept. of Earth and Planetary Science. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND LINDGREN. / Includes bibliographies. / Ph.D.

Earth and Planetary Sciences

Quartz

Olivine

Hardness

A comparison of hardness and abrasion resistance of two sealant materials after polymerization from different distances by different light sources

Ritchie, Craig D.

January 2008

Indiana University-Purdue University Indianapolis (IUPUI) / BACKGROUND The efficacy of sealants to aid in the prevention of pit and fissure caries is well documented. In order for the sealants to be effective, they must be placed properly and retained for as long as possible. Clinicians must be aware that the proper placement of sealants is technique-sensitive and must be well controlled in order to achieve the best results. This study aims to determine if certain variables have an effect on curing of the sealant material to a degree that would compromise its integrity, strength, and longevity. METHODS AND MATERIALS Two commonly used sealant materials Ultraseal XT (Ultradent Products Inc., South Jordan, UT) and Delton (Dentsply International, Woodbridge, Ontario, Canada) were chosen and tested for microhardness and abrasion resistance after they were polymerized. This study did not focus on the materials themselves, but rather the technique by which they were polymerized and what effect this had on the materials. Three separate light sources, a traditional halogen light (QHL 75, Dentsply International, Woodbridge, Ontario, Canada), and two newer LED lights (Ultralume LED, Ultradent Products Inc., South Jordan, UT; and 3M Freelight LED, 3M Corp, St Paul, MN) were used in this study. The materials were then cured with each light at each of three different distances: contact (0.5 mm), 2 mm, and 10 mm. The effects of light source variation and distance from the material at the time of polymerization was then evaluated for any significance to sealant placement technique. Specimens were tested for each variable combination of sealant material, light source, and distance between the two while curing. Six samples were tested for each variable grouping for abrasion resistance, and four separate san1ples were tested fron1 the san1e grouping for Knoop hardness. The results were analyzed for significance to determine if certain techniques are or could be beneficial or damaging to the quality of care provided by today's practitioners. RESULTS It was found that materials and light sources varied in combination and with different techniques (e.g., distance). In general, the top surface polymerized best when cured at a distance of 2 mm to 10 mm, while the bottom surface polymerized best at a distance of 0.5 mm. The halogen light consistently outperformed the two LED lights, with the 3M LED consistently producing the worst results. CONCLUSIONS The halogen curing light used in this study outperformed the LED lights in almost every category, despite the LED light manufacturer's claims of equality. For more reliable polymerization, the halogen light should be used. SIGNIFICANCE The practitioner must be aware of the material that he/she is using and how the chosen light source polymerizes that material. Manufacturers' claims and recommendations cannot be trusted to accurately produce the best results with every product on the market today, sometimes not even with the manufacturers' own products. It is crucial for practitioners to be well versed and knowledgeable about the products that they use, based on current research and not manufacturers' claims.

Pit and Fissure Sealants

Hardness

Surface Properties

Light

Post-fire Mechanical Properties of Aluminum Alloys and Aluminum Welds

Matulich, Ryan Douglas

07 June 2011

The focus of this research was to quantify the post-fire mechanical properties of 5083-H116 and 6082-T6 aluminum alloys. Post-fire exposure is considered heating the material to a particular temperature then cooling the material back to room temperature. The research included evaluating parent materials as well as welded samples. Post-fire mechanical properties of parent materials were evaluated at temperatures ranging from ambient to 500oC with isothermal and transient heating. Changes in material properties were evaluated through static tensile tests and hardness testing on cooled samples. Using this data, an assessment was performed to investigate the relationship between hardness and mechanical properties. For the alloys evaluated, empirical relationships were found between Vickers hardness and post-fire strength. Testing was also performed on butt welded samples of 6082-T6 exposed isothermally to temperatures ranging from ambient to 500oC. Vickers hardness profiles were measured across a sample to quantify the hardness of the weld, heat affected zone, and parent material. This was performed at room temperature and following different heat exposures. Static tensile tests were used to evaluate the effect of reheating on the welded samples. Post-fire strength of welded samples was strongly affected by weld geometry. Parent material hardness varied with reheating while weld hardness remained constant. At select temperatures, this resulted in the weld having a higher Vickers hardness than the parent material. Despite this tensile failure always occurred within the weld. / Master of Science

Fire

Vickers Hardness

Mechanical Properties

Welds

Aluminum

Micro-Scale Characterization of Quartzitic and Carbonate Sand Grains Using Nanoindentation

Geyin, Mertcan

27 June 2016

Many offshore energy infrastructures are built on carbonate sands which are skeletal remains of marine organisms. Carbonate sands have a porous grain structure and are more compressible compared to quartzitic sand grains which are abundant in alluvial depositional environments. Consequently, there is a stark difference in material behavior of carbonate sands and it is difficult to characterize this distinct behavior with conventional methods. This study focuses on micro-scale characterization of carbonate and quartzitic sands to overcome this challenge. Experimental studies consist of nanoindentation tests performed on 17 different sands; 7 quartzitic and 10 carbonate sand samples. Mechanical properties of individual sand grains with different mineralogies are determined using nanoindentation. A force is applied by the nanoindenter on the grain surface and the load-displacement curve is developed. Modulus and hardness of individual sand grains are evaluated. Nanoindentation test results show that modulus and hardness of carbonate sands are significantly lower than quartzitic sands. For quartzitic grains, mechanical properties are relatively independent of indentation depth; whereas, for carbonate grains there is a considerable decrease in both Young's modulus and hardness values with increasing indentation depth. Results from this study can further be used for the evaluation of compressibility and strength characteristics of these two types of sands as part of a multi-scale analysis framework. / Master of Science

Nanoindentation

Quartzitic

Carbonate

Young's Modulus

Hardness

Stiffness

Características da planta hospedeira, ontogênese e comportamento alimentar das larvas de Heliconius erato phyllis (Fabricius, 1775) (Lepidoptera: Nymphalidae)

Campos, Ábner Elpino

January 2010

No contexto da herbivoria, a interação inseto-planta é um sistema dinâmico. As plantas apresentam características que influenciam a preferência e o desempenho dos herbívoros, como por exemplo, a variação da dureza e espessura do limbo foliar, de forma dependente à espécie e à idade da estrutura considerada. Por sua vez, os insetos podem responder às barreiras das plantas por mecanismos fisiológicos e comportamentais. Há registro de nove espécies de passifloráceas utilizadas por Heliconius erato phyllis (Fabricius, 1775) para o Rio Grande do Sul. As larvas deste herbívoro, entretanto, alimentam-se preferencialmente de Passiflora misera Humbold, Bonplant & Kunth, que confere maior performance, apesar de apresentar menor quantidade de nutrientes que outras hospedeiras utilizadas (ex. Passiflora suberosa Linnaeus). Desta forma, o desempenho associado ao consumo de uma passiflorácea possivelmente relaciona-se, não só ao conteúdo nutricional desta, mas também aos mecanismos morfológicos e comportamentais envolvidos na alimentação. Neste trabalho, verificamos se a dificuldade em acessar o alimento, imposta pela dureza e espessura das folhas das hospedeiras e pelas limitações estruturais das mandíbulas de H. erato phyllis, reflete ou não alterações na utilização da planta, analisando os danos causados a estas e o comportamento das larvas deste herbívoro. Para tanto P. misera, P. suberosa, Passiflora caerulea Linnaeus, Passiflora edulis Sims e Passiflora alata Dryander foram cultivadas, sendo folhas jovens e velhas dessas passifloráceas caracterizadas quanto à dureza e espessura, tanto do limbo como da nervura central. A freqüência dos danos causados à P. misera, P. suberosa, P. caerulea e P. edulis foi avaliada, em relação à idade da folha e ao longo da ontogênese larval. Quantificou-se, também, o índice de microdureza de Vickers das mandíbulas para larvas criadas em P. misera e P. suberosa. Adicionalmente, o tempo relativo aos comportamentos (repousando, alimentando, deslocando, provando e cortando nervura) foi quantificado nas cinco passifloráceas, tanto em folhas jovens quanto nas velhas. Os dados obtidos evidenciaram a existência de variação expressiva em relação à idade da folha, quanto à dureza e espessura para as espécies de passifloráceas utilizadas pelas larvas de H. erato phyllis. O tipo e a freqüência do dano (corte do limbo, raspagem e corte da nervura central) foram influenciados pela variação desses parâmetros físicos, sendo que a raspagem do limbo ocorreu quando larvas de primeiro ínstar foram criadas em folhas velhas. Houve influência ontogenética no incremento de dureza das mandíbulas, porém não foram detectados indícios de que a planta hospedeira influencie no aumento deste parâmetro nessas estruturas. As larvas empregaram grande parte do tempo em repouso, independente da espécie de hospedeira e, na maioria dos casos, dedicaram mais tempo à alimentação em P. misera. Larvas observadas em P. alata dedicaram mais tempo ao repouso e menos tempo à alimentação realizando de uma a duas refeições com pequena duração, a cada seis horas. Esta discrepância no tempo destinado a todos os comportamentos das larvas em P. alata se deve, provavelmente, a fatores químicos inerentes a esta passiflorácea. Lagartas de primeiro ínstar em folhas velhas de P. suberosa e P. caerulea despenderam maior tempo no deslocamento, demonstrando que a procura por um sítio de alimentação favorável é de fundamental importância para esta fase do desenvolvimento, evidenciando assim que a dureza foliar constitui fator limitante para ínstares iniciais, neste heliconíneo. / The plant-insect interaction is a dynamic system. Variation in plant morphological traits such as hardness and thickness of the leaves can influence preference and performance of herbivores, depending upon the species and age of the plant structure taking into. On the other hand, insects can respond to these barriers through physiological and behavioral mechanisms. Nine species of passion vine are used by Heliconius erato phyllis (Fabricius, 1775) in Rio Grande do Sul State. However, their larvae feed preferentially on Passiflora misera Humbold, Bonplant & Kunth, which provide greater performance, despite having a lower amount of nutrients when compared to other host plants (e.g. Passiflora suberosa Linnaeus). Thus, the performance related to consumption of a particular passion vine possibly relates not only to their nutritional value, but also to morphological and behavioral mechanisms involved on feeding by these butterfly larvae. In this study, we investigate whether the difficulty in accessing food, imposed by the hardness and thickness of host leaves when in association to structural limitations on the mandibles of H. erato phyllis larvae, lead in turn to changes in host plant use. We examined the plant hosts damages and also larval behavior of this herbivore on five cultivated passion vine: P. misera, P. suberosa, Passiflora caerulea Linnaeus, Passiflora edulis Sims and Passiflora alata Dryander. Young and old leaves of these passion vine species were characterized in terms of hardness and thickness for the blade and the midrib. The frequency of differences on damage caused to P. misera, P. suberosa, P. caerulea and P. edulis was evaluated in relation to leaf age throughout larval ontogeny. Vickers hardness index was quantified for mandibles dissected from larvae reared on P. misera and P. suberosa. Additionally, the time spent in different behaviors (resting, feeding, walking, tasting and vein cutting) was quantified for the five passion vine, while feeding on both young and old leaves. The data showed the existence of expressive variation in hardness and thickness according to leaf age for the passion vine species used by H. erato phyllis larvae. The type (cutting blade, scraping and vein cutting) and frequency of damages were influenced by the variation of such leaf parameters. Scraping occurred when first instar were reared on old leaves. There was an ontogenetic influence on mandibular hardness, which increases with larval age. However, there was no evidence that the host plant influences the hardness in these structures throughout ontogeny. Independently of the host tanken into account, larvae employed most of the time resting. In several cases, they devoted more time feeding in P. misera. In P. alata, they spent more time resting and less time feeding, having up to only two meals of short duration each, at every six hours. This discrepancy in time is probably due to the presence of deterrent chemicals present in this passion vine. In old leaves of P. suberosa and P. caerulea, first instar larvae spent more time moving, thus showing that the search for an suitable food site is extremely important for this stage of development. Thus, we demonstrate that leaf hardness is a limiting factor for the early larval instars in this heliconian butterfly.

Heliconius erato phyllis

Passifloraceae

Comportamento alimentar

Heliconians

Passiflora

Behavioral ecology

Herbivory

Leaf hardness

Mandibular hardness

Características da planta hospedeira, ontogênese e comportamento alimentar das larvas de Heliconius erato phyllis (Fabricius, 1775) (Lepidoptera: Nymphalidae)

Campos, Ábner Elpino

January 2010

No contexto da herbivoria, a interação inseto-planta é um sistema dinâmico. As plantas apresentam características que influenciam a preferência e o desempenho dos herbívoros, como por exemplo, a variação da dureza e espessura do limbo foliar, de forma dependente à espécie e à idade da estrutura considerada. Por sua vez, os insetos podem responder às barreiras das plantas por mecanismos fisiológicos e comportamentais. Há registro de nove espécies de passifloráceas utilizadas por Heliconius erato phyllis (Fabricius, 1775) para o Rio Grande do Sul. As larvas deste herbívoro, entretanto, alimentam-se preferencialmente de Passiflora misera Humbold, Bonplant & Kunth, que confere maior performance, apesar de apresentar menor quantidade de nutrientes que outras hospedeiras utilizadas (ex. Passiflora suberosa Linnaeus). Desta forma, o desempenho associado ao consumo de uma passiflorácea possivelmente relaciona-se, não só ao conteúdo nutricional desta, mas também aos mecanismos morfológicos e comportamentais envolvidos na alimentação. Neste trabalho, verificamos se a dificuldade em acessar o alimento, imposta pela dureza e espessura das folhas das hospedeiras e pelas limitações estruturais das mandíbulas de H. erato phyllis, reflete ou não alterações na utilização da planta, analisando os danos causados a estas e o comportamento das larvas deste herbívoro. Para tanto P. misera, P. suberosa, Passiflora caerulea Linnaeus, Passiflora edulis Sims e Passiflora alata Dryander foram cultivadas, sendo folhas jovens e velhas dessas passifloráceas caracterizadas quanto à dureza e espessura, tanto do limbo como da nervura central. A freqüência dos danos causados à P. misera, P. suberosa, P. caerulea e P. edulis foi avaliada, em relação à idade da folha e ao longo da ontogênese larval. Quantificou-se, também, o índice de microdureza de Vickers das mandíbulas para larvas criadas em P. misera e P. suberosa. Adicionalmente, o tempo relativo aos comportamentos (repousando, alimentando, deslocando, provando e cortando nervura) foi quantificado nas cinco passifloráceas, tanto em folhas jovens quanto nas velhas. Os dados obtidos evidenciaram a existência de variação expressiva em relação à idade da folha, quanto à dureza e espessura para as espécies de passifloráceas utilizadas pelas larvas de H. erato phyllis. O tipo e a freqüência do dano (corte do limbo, raspagem e corte da nervura central) foram influenciados pela variação desses parâmetros físicos, sendo que a raspagem do limbo ocorreu quando larvas de primeiro ínstar foram criadas em folhas velhas. Houve influência ontogenética no incremento de dureza das mandíbulas, porém não foram detectados indícios de que a planta hospedeira influencie no aumento deste parâmetro nessas estruturas. As larvas empregaram grande parte do tempo em repouso, independente da espécie de hospedeira e, na maioria dos casos, dedicaram mais tempo à alimentação em P. misera. Larvas observadas em P. alata dedicaram mais tempo ao repouso e menos tempo à alimentação realizando de uma a duas refeições com pequena duração, a cada seis horas. Esta discrepância no tempo destinado a todos os comportamentos das larvas em P. alata se deve, provavelmente, a fatores químicos inerentes a esta passiflorácea. Lagartas de primeiro ínstar em folhas velhas de P. suberosa e P. caerulea despenderam maior tempo no deslocamento, demonstrando que a procura por um sítio de alimentação favorável é de fundamental importância para esta fase do desenvolvimento, evidenciando assim que a dureza foliar constitui fator limitante para ínstares iniciais, neste heliconíneo. / The plant-insect interaction is a dynamic system. Variation in plant morphological traits such as hardness and thickness of the leaves can influence preference and performance of herbivores, depending upon the species and age of the plant structure taking into. On the other hand, insects can respond to these barriers through physiological and behavioral mechanisms. Nine species of passion vine are used by Heliconius erato phyllis (Fabricius, 1775) in Rio Grande do Sul State. However, their larvae feed preferentially on Passiflora misera Humbold, Bonplant & Kunth, which provide greater performance, despite having a lower amount of nutrients when compared to other host plants (e.g. Passiflora suberosa Linnaeus). Thus, the performance related to consumption of a particular passion vine possibly relates not only to their nutritional value, but also to morphological and behavioral mechanisms involved on feeding by these butterfly larvae. In this study, we investigate whether the difficulty in accessing food, imposed by the hardness and thickness of host leaves when in association to structural limitations on the mandibles of H. erato phyllis larvae, lead in turn to changes in host plant use. We examined the plant hosts damages and also larval behavior of this herbivore on five cultivated passion vine: P. misera, P. suberosa, Passiflora caerulea Linnaeus, Passiflora edulis Sims and Passiflora alata Dryander. Young and old leaves of these passion vine species were characterized in terms of hardness and thickness for the blade and the midrib. The frequency of differences on damage caused to P. misera, P. suberosa, P. caerulea and P. edulis was evaluated in relation to leaf age throughout larval ontogeny. Vickers hardness index was quantified for mandibles dissected from larvae reared on P. misera and P. suberosa. Additionally, the time spent in different behaviors (resting, feeding, walking, tasting and vein cutting) was quantified for the five passion vine, while feeding on both young and old leaves. The data showed the existence of expressive variation in hardness and thickness according to leaf age for the passion vine species used by H. erato phyllis larvae. The type (cutting blade, scraping and vein cutting) and frequency of damages were influenced by the variation of such leaf parameters. Scraping occurred when first instar were reared on old leaves. There was an ontogenetic influence on mandibular hardness, which increases with larval age. However, there was no evidence that the host plant influences the hardness in these structures throughout ontogeny. Independently of the host tanken into account, larvae employed most of the time resting. In several cases, they devoted more time feeding in P. misera. In P. alata, they spent more time resting and less time feeding, having up to only two meals of short duration each, at every six hours. This discrepancy in time is probably due to the presence of deterrent chemicals present in this passion vine. In old leaves of P. suberosa and P. caerulea, first instar larvae spent more time moving, thus showing that the search for an suitable food site is extremely important for this stage of development. Thus, we demonstrate that leaf hardness is a limiting factor for the early larval instars in this heliconian butterfly.

Heliconius erato phyllis

Passifloraceae

Comportamento alimentar

Heliconians

Passiflora

Behavioral ecology

Herbivory

Leaf hardness

Mandibular hardness

Desenvolvimento de equipamento para avaliação em campo da dureza de madeiras para dormente ferroviário

Colenci, Roberto Antonio [UNESP]

28 April 2006

Made available in DSpace on 2014-06-11T19:31:35Z (GMT). No. of bitstreams: 0 Previous issue date: 2006-04-28Bitstream added on 2014-06-13T20:02:25Z : No. of bitstreams: 1 colenci_ra_dr_botfca.pdf: 998064 bytes, checksum: 8c2f921462491c32d9ae3f78277e6aed (MD5) / Universidade Estadual Paulista (UNESP) / A propriedade mecânica denominada dureza é largamente utilizada na especificação de materiais, nos estudos e pesquisas mecânicas e metalúrgicas e no controle de qualidade de diversos materiais. No caso particular da madeira, dentre as diversas propriedades mecânicas empregadas como ferramentas para avaliação da sua qualidade e de seu potencial tecnológico, tem destaque a dureza Janka, que avalia a relação entre uma força de penetração superficial de uma pequena esfera de aço na madeira e a endentação promovida por essa esfera. Constitui-se em ensaios simples, rápido, e com boas correlações com a resistência à compressão paralela às fibras da madeira, referência maior na classificação estrutural deste material. Mais recentemente, trabalhos internacionais reportaram o uso da dureza Brinell para avaliação de madeiras. Além das vantagens já reportadas para a dureza Janka, a dureza Brinell traria a facilidade de realização dos ensaios em condições de campo, sobretudo pela menor magnitude dos esforços envolvidos na cravação do endentador na superfície do material. Dando continuidade a estudos já desenvolvidos, este trabalho teve como objetivo estudar critérios ou práticas, aplicáveis no campo e em exemplares individuais, para a qualificação mecânica de algumas espécies de madeira com a finalidade de classificação, e aprovação ou reprovação de lotes de dormentes de madeira para uso ferroviário. Os estudos iniciais conduziram ao projeto e desenvolvimento de equipamento 2 para avaliação em campo da dureza de madeiras - Durômetro portátil para madeiras embasado, no geral, na metodologia Brinell com mensuração dos diâmetros da calota endentada no material sob análise. Os ensaios de teste funcional e de calibração do equipamento foram conduzidos utilizando-se 16 lotes de madeiras de reflorestamentos e nativas... / The mechanical property called hardness is largely used in material specifications, in mechanical and metallurgical studies and research and in the quality control of several kinds of materials. Specifically for timber, among the several mechanical properties used as tools for its quality control and technological potential, Janka hardness, which evaluate the relation between a superficial penetration force of a small steel sphere in wood and the indentation produced by such sphere, are highlighted. It is constituted by simple, quick and easily performed test, with good correlations with the compression parallel to grain strength, a high reference in structural classification for this material. More recently, international studies have reported the use of Brinell hardness for timber assessment. Besides the advantages previously mentioned for Janka hardness, the Brinell one would make it easier to perform the tests in field conditions, especially for its lower magnitude in terms of the involved loads. Continuing studies already developed with such property for timber, this work had the objective of studying criteria or practices applicable on field and in individual wood elements, for the mechanical qualification of some timber species towards its classification, and approval or failing of timber sleeper lots for rail usage. The initial studies led to the project and development of an equipment for timber hardness field evaluation - portable Hardometer for timber. 4 The functional and calibration test of the equipment were carried out using 16 native and exotic timber lots, among there E.citriodora, E. tereticornis, E. saligna, E. urophylla, E. grandis, Goupia glabra (Cupiúba) and Bagassa guianenses (Tatajuba), with variation of origins beyond species. Each lot had 12 specimens. The calibration tests, performed with timber on its moisture above the FSP (fiber saturation point)... (Complete abstract click electronic access below)

Madeira - Testes

Dormentes de ferrovias

Equipamento de ferrovia - Industria

Timber

Janka hardness

Brinell hardness

Portable equipment

Características da planta hospedeira, ontogênese e comportamento alimentar das larvas de Heliconius erato phyllis (Fabricius, 1775) (Lepidoptera: Nymphalidae)

Campos, Ábner Elpino

January 2010

No contexto da herbivoria, a interação inseto-planta é um sistema dinâmico. As plantas apresentam características que influenciam a preferência e o desempenho dos herbívoros, como por exemplo, a variação da dureza e espessura do limbo foliar, de forma dependente à espécie e à idade da estrutura considerada. Por sua vez, os insetos podem responder às barreiras das plantas por mecanismos fisiológicos e comportamentais. Há registro de nove espécies de passifloráceas utilizadas por Heliconius erato phyllis (Fabricius, 1775) para o Rio Grande do Sul. As larvas deste herbívoro, entretanto, alimentam-se preferencialmente de Passiflora misera Humbold, Bonplant & Kunth, que confere maior performance, apesar de apresentar menor quantidade de nutrientes que outras hospedeiras utilizadas (ex. Passiflora suberosa Linnaeus). Desta forma, o desempenho associado ao consumo de uma passiflorácea possivelmente relaciona-se, não só ao conteúdo nutricional desta, mas também aos mecanismos morfológicos e comportamentais envolvidos na alimentação. Neste trabalho, verificamos se a dificuldade em acessar o alimento, imposta pela dureza e espessura das folhas das hospedeiras e pelas limitações estruturais das mandíbulas de H. erato phyllis, reflete ou não alterações na utilização da planta, analisando os danos causados a estas e o comportamento das larvas deste herbívoro. Para tanto P. misera, P. suberosa, Passiflora caerulea Linnaeus, Passiflora edulis Sims e Passiflora alata Dryander foram cultivadas, sendo folhas jovens e velhas dessas passifloráceas caracterizadas quanto à dureza e espessura, tanto do limbo como da nervura central. A freqüência dos danos causados à P. misera, P. suberosa, P. caerulea e P. edulis foi avaliada, em relação à idade da folha e ao longo da ontogênese larval. Quantificou-se, também, o índice de microdureza de Vickers das mandíbulas para larvas criadas em P. misera e P. suberosa. Adicionalmente, o tempo relativo aos comportamentos (repousando, alimentando, deslocando, provando e cortando nervura) foi quantificado nas cinco passifloráceas, tanto em folhas jovens quanto nas velhas. Os dados obtidos evidenciaram a existência de variação expressiva em relação à idade da folha, quanto à dureza e espessura para as espécies de passifloráceas utilizadas pelas larvas de H. erato phyllis. O tipo e a freqüência do dano (corte do limbo, raspagem e corte da nervura central) foram influenciados pela variação desses parâmetros físicos, sendo que a raspagem do limbo ocorreu quando larvas de primeiro ínstar foram criadas em folhas velhas. Houve influência ontogenética no incremento de dureza das mandíbulas, porém não foram detectados indícios de que a planta hospedeira influencie no aumento deste parâmetro nessas estruturas. As larvas empregaram grande parte do tempo em repouso, independente da espécie de hospedeira e, na maioria dos casos, dedicaram mais tempo à alimentação em P. misera. Larvas observadas em P. alata dedicaram mais tempo ao repouso e menos tempo à alimentação realizando de uma a duas refeições com pequena duração, a cada seis horas. Esta discrepância no tempo destinado a todos os comportamentos das larvas em P. alata se deve, provavelmente, a fatores químicos inerentes a esta passiflorácea. Lagartas de primeiro ínstar em folhas velhas de P. suberosa e P. caerulea despenderam maior tempo no deslocamento, demonstrando que a procura por um sítio de alimentação favorável é de fundamental importância para esta fase do desenvolvimento, evidenciando assim que a dureza foliar constitui fator limitante para ínstares iniciais, neste heliconíneo. / The plant-insect interaction is a dynamic system. Variation in plant morphological traits such as hardness and thickness of the leaves can influence preference and performance of herbivores, depending upon the species and age of the plant structure taking into. On the other hand, insects can respond to these barriers through physiological and behavioral mechanisms. Nine species of passion vine are used by Heliconius erato phyllis (Fabricius, 1775) in Rio Grande do Sul State. However, their larvae feed preferentially on Passiflora misera Humbold, Bonplant & Kunth, which provide greater performance, despite having a lower amount of nutrients when compared to other host plants (e.g. Passiflora suberosa Linnaeus). Thus, the performance related to consumption of a particular passion vine possibly relates not only to their nutritional value, but also to morphological and behavioral mechanisms involved on feeding by these butterfly larvae. In this study, we investigate whether the difficulty in accessing food, imposed by the hardness and thickness of host leaves when in association to structural limitations on the mandibles of H. erato phyllis larvae, lead in turn to changes in host plant use. We examined the plant hosts damages and also larval behavior of this herbivore on five cultivated passion vine: P. misera, P. suberosa, Passiflora caerulea Linnaeus, Passiflora edulis Sims and Passiflora alata Dryander. Young and old leaves of these passion vine species were characterized in terms of hardness and thickness for the blade and the midrib. The frequency of differences on damage caused to P. misera, P. suberosa, P. caerulea and P. edulis was evaluated in relation to leaf age throughout larval ontogeny. Vickers hardness index was quantified for mandibles dissected from larvae reared on P. misera and P. suberosa. Additionally, the time spent in different behaviors (resting, feeding, walking, tasting and vein cutting) was quantified for the five passion vine, while feeding on both young and old leaves. The data showed the existence of expressive variation in hardness and thickness according to leaf age for the passion vine species used by H. erato phyllis larvae. The type (cutting blade, scraping and vein cutting) and frequency of damages were influenced by the variation of such leaf parameters. Scraping occurred when first instar were reared on old leaves. There was an ontogenetic influence on mandibular hardness, which increases with larval age. However, there was no evidence that the host plant influences the hardness in these structures throughout ontogeny. Independently of the host tanken into account, larvae employed most of the time resting. In several cases, they devoted more time feeding in P. misera. In P. alata, they spent more time resting and less time feeding, having up to only two meals of short duration each, at every six hours. This discrepancy in time is probably due to the presence of deterrent chemicals present in this passion vine. In old leaves of P. suberosa and P. caerulea, first instar larvae spent more time moving, thus showing that the search for an suitable food site is extremely important for this stage of development. Thus, we demonstrate that leaf hardness is a limiting factor for the early larval instars in this heliconian butterfly.

Heliconius erato phyllis

Passifloraceae

Comportamento alimentar

Heliconians

Passiflora

Behavioral ecology

Herbivory

Leaf hardness

Mandibular hardness

Synthesis and mechanical properties of hierarchical nanoporous metals

Liu, Ran

21 September 2015

Nanoporous (NP) metals are a unique class of materials that are characterized by extremely high surface-to-volume ratios and possess such desirable properties of metals as high electrical conductivity, catalytic activity, and mechanical strength. At the same time, understanding of their physical properties is often lacking, especially for hierarchical NP metals where individual struts and joints that make up open cell 3D network are nanocrystalline. The aim of this work is to employ a dedicated experimental campaign to understand the structure property relation of nanostructured nanoporous metals. Towards this goal, NP Pt and NP Cu have been synthesized for a range of strut sizes and their mechanical properties have been investigated via ex-situ and in-situ nanoindentation experiments. Both NP Pt and NP Cu exhibit relatively high hardness in the range of 0.2 to 1.3 GPa. The relative role of material effects arising from small dimensions of the struts/joints and the geometrical features of NP metals are discussed. Selected applications of the systems synthesized during this work in electrochemistry and catalysis are demonstrated. In the examined applications the NP metals exhibited catalytic activity comparable to or significantly exceeding the best available alternative systems, while offering superior stability.

Modulus

Hardness

Experiments

Nanoindentation

Nanoporous metals

Mechanical properties