Gotowe bibliografie tematyczne / Advanced materials and technologies

Gotowa bibliografia na temat „Advanced materials and technologies”

Autor: Grafiati
Data publikacji: 14 marca 2023

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Spis treści

  1. Artykuły w czasopismach
  2. Rozprawy doktorskie
  3. Książki
  4. Części książek
  5. Streszczenia konferencji
  6. Raporty organizacyjne

Artykuły w czasopismach na temat "Advanced materials and technologies":

1

You, Zhanping, Qingli Dai i Feipeng Xiao. "Advanced Paving Materials and Technologies". Applied Sciences 8, nr 4 (9.04.2018): 588. http://dx.doi.org/10.3390/app8040588.

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Natesan, K. "Materials performance in advanced fossil technologies". JOM 43, nr 11 (listopad 1991): 61–67. http://dx.doi.org/10.1007/bf03222723.

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Novák, Pavel. "Advanced Powder Metallurgy Technologies". Materials 13, nr 7 (8.04.2020): 1742. http://dx.doi.org/10.3390/ma13071742.

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Powder metallurgy is a group of advanced processes for the synthesis, processing, and shaping of various kinds of materials. Initially inspired by ceramics processing, the methodology comprising of the production of a powder and its transformation to a compact solid product has attracted great attention since the end of World War II. At present, there are many technologies for powder production (e.g., gas atomization of the melt, chemical reduction, milling, and mechanical alloying) and its consolidation (e.g., pressing and sintering, hot isostatic pressing, and spark plasma sintering). The most promising ones can achieve an ultra-fine or nano-grained structure of the powder, and preserve it during consolidation. Among these methods, mechanical alloying and spark plasma sintering play a key role. This Special Issue gives special focus to the advancement of mechanical alloying, spark plasma sintering and self-propagating high-temperature synthesis methods, as well as to the role of these processes in the development of new materials.
4

Hernandez‐Sosa, Gerardo. "InnovationLab Special Section in Advanced Materials Technologies". Advanced Materials Technologies 6, nr 2 (luty 2021): 2001069. http://dx.doi.org/10.1002/admt.202001069.

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Titov, A. "Advanced materials and technologies for modern constructions". Nanoindustry Russia, nr 5 (2015): 48–54. http://dx.doi.org/10.22184/1993-8578.2015.59.5.48.54.

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Powell, Cynthia A., i Bryan D. Morreale. "Materials Challenges in Advanced Coal Conversion Technologies". MRS Bulletin 33, nr 4 (kwiecień 2008): 309–15. http://dx.doi.org/10.1557/mrs2008.64.

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AbstractCoal is a critical component in the international energy portfolio, used extensively for electricity generation. Coal is also readily converted to liquid fuels and/or hydrogen for the transportation industry. However, energy extracted from coal comes at a large environmental price: coal combustion can produce large quantities of ash and CO2, as well as other pollutants. Advanced technologies can increase the efficiencies and decrease the emissions associated with burning coal and provide an opportunity for CO2 capture and sequestration. However, these advanced technologies increase the severity of plant operating conditions and thus require improved materials that can stand up to the harsh operating environments. The materials challenges offered by advanced coal conversion technologies must be solved in order to make burning coal an economically and environmentally sound choice for producing energy.
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Włosiński, Władysław. "Environmentally friendly welding technologies for advanced materials". Welding International 25, nr 12 (grudzień 2011): 923–26. http://dx.doi.org/10.1080/09507116.2010.540845.

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(Sam) Froes, F. H. "Advanced Materials and Processing Technologies (AMPT-2003)". Materials Technology 19, nr 1 (styczeń 2004): 40–44. http://dx.doi.org/10.1080/10667857.2004.11753166.

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YAMANAKA, TATSUO. "Advanced Materials are innovating in Space Technologies". Sen'i Gakkaishi 42, nr 5 (1986): P158—P161. http://dx.doi.org/10.2115/fiber.42.5_p158.

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OHMORI, Hitoshi. "Advanced Materials Fabrication for Nano/Micro Technologies". Journal of the Society of Mechanical Engineers 108, nr 1040 (2005): 533. http://dx.doi.org/10.1299/jsmemag.108.1040_533.

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Artykuły w czasopismach Rozprawy doktorskie Książki

Rozprawy doktorskie na temat "Advanced materials and technologies":

1

Aricci, G. "ELECTROCHEMICAL TECHNOLOGIES: ADVANCED ELECTRODE MATERIALS FOR ENVIRONMENTAL APPLICATION". Doctoral thesis, Università degli Studi di Milano, 2010. http://hdl.handle.net/2434/150133.

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An investigation on a new class on electrocatalytic materials for the electroreduction of organic halides is presented and discussed. The electrocatalysts are based on silver nanoparticles (Ag_NP and Ag_NC), ad hoc synthesised by two different synthetic path (Polyol assisted and Wet chemical reduction). The obtained nanoparticles are then supported on carbon black (pre-treated or untreated) (20% or 10% loading) for further characterisation and use. The electrocatalytic properties of the Ag_NP/carbon and Ag_NC/carbon composites towards the dehalogenation of halocompounds are tested by cyclic voltammetry and by preparative electrolysis. The hydrodehalogenation of trichloromethane, is selected as a model reaction, because of its relevance for the detoxification of wastes. The voltammetric characterisation is performed both in an aqueous and non aqueous solution, supporting the composites on cavity microelectrodes. Gas-diffusion electrodes (GDE) based on the most promising Ag_NP composite – and, for reference, on a commercial Ag/C oxygen reduction electrocatalyst – are then tested in an electrolytic process for the progressive conversion of gaseous trichloromethane to less chlorinated compounds, and ultimately to methane.
2

Fan, Liangdong. "Development and characterization of functional composite materials for advanced energy conversion technologies". Doctoral thesis, KTH, Kraft- och värmeteknologi, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-134111.

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The solid oxide fuel cell (SOFC) is a potential high efficient electrochemical device for vehicles, auxiliary power units and large-scale stationary power plants combined heat and power application. The main challenges of this technology for market acceptance are associated with cost and lifetime due to the high temperature (700-1000 oC) operation and complex cell structure, i.e. the conventional membrane electrode assemblies. Therefore, it has become a top R&D goal to develop SOFCs for lower temperatures, preferably below 600 oC. To address those above problems, within the framework of this thesis, two kinds of innovative approaches are adopted. One is developing functional composite materials with desirable electrical properties at the reduced temperature, which results of the research on ceria-based composite based low temperature ceramic fuel cell (LTCFC). The other one is discovering novel energy conversion technology - Single-component/ electrolyte-free fuel cell (EFFC), in which the electrolyte layer of conventional SOFC is physically removed while this device still exhibits the fuel cell function. Thus, the focus of this thesis is then put on the characterization of materials physical and electrochemical properties for those advanced energy conversion applications. The major scientific content and contribution to this challenging field are divided into four aspects except the Introduction, Experiments and Conclusions parts. They are: Continuous developments and optimizations of advanced electrolyte materials, ceria-carbonate composite, for LTCFC. An electrolysis study has been carried out on ceria-carbonate composite based LTCFC with cheap Ni-based electrodes. Both oxygen ion and proton conductance in electrolysis mode are observed. High current outputs have been achieved at the given electrolysis voltage below 600 oC. This study also provides alternative manner for high efficient hydrogen production.  Compatible and high active electrode development for ceria-carbonate composite electrolyte based LTCFC. A symmetrical fuel cell configuration is intentionally employed. The electro-catalytic activities of novel symmetrical transition metal oxide composite electrode toward hydrogen oxidation reaction and oxygen reduction reaction have been experimentally investigated. In addition, the origin of high activity of transition metal oxide composite electrode is studied, which is believed to relate to the hydration effect of the composite oxide. A novel all-nanocomposite fuel cell (ANFC) concept proposal and feasibility demonstration. The ANFC is successfully constructed by Ni/Fe-SDC anode, SDC-carbonate electrolyte and lithiated NiO/ZnO cathode at an extremely low in-situ sintering temperature, 600 oC. The ANFC manifests excellent fuel cell performance (over 550 mWcm-2 at 600 oC) and a good short-term operation as well as thermo-cycling stability. All results demonstrated its feasibility and potential for energy conversion. Fundamental study results on breakthrough research Single-Component/Electrolyte-Free Fuel Cell (EFFC) based on above nanocomposite materials (ion and semi-conductive composite) research activities. This is also the key innovation point of this thesis. Compared with classic three-layer fuel cells, EFFC with an electrolyte layer shows a much simpler but more efficient way for energy conversion. The physical-electrical properties of composite, the effects of cell configuration and parameters on cell performance, materials composition and cell fabrication process optimization, micro electrochemical reaction process and possible working principle were systematically investigated and discussed. Besides, the EFFC, joining solar cell and fuel cell working principle, is suggested to provide a research platform for integrating multi-energy-related device and technology application, such as fuel cell, electrolysis, solar cell and micro-reactor etc. This thesis provides a new methodology for materials and system innovation for the fuel cell community, which is expected to accelerate the wide implementation of this high efficient and green fuel cell technology and open new horizons for other related research fields.

QC 20131122

3

Fendrich, Murilo Alexandre. "Solar concentration for the environment industry: photocatalytic materials and application technologies". Doctoral thesis, Università degli studi di Trento, 2021. http://hdl.handle.net/11572/285695.

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This thesis presents the achievements pursued during the doctoral course. The work was carried out in the context of the project ERiCSol (Energia RInnovabile e Combustili SOLari), as part of the University of Trento strategic plan for the years 2017-2021. The project was conceived to establish an interdepartmental area to promote the challenge of developing scientific research and technological innovation to increase the competitiveness of Trento at national and international level in the areas of energy and environment. Among all the goals of the project, this work dedicates special attention to 1) development of novel materials for solar photocatalytic reactions and 2) use of renewable energy to push forward applications in water remediation. To accomplish these goals, the research brings a full collection of experimental activities regarding the employment of solar concentration for the environment industry and therefore this document is organized in 9 chapters. In chapter 1, it is presented the introduction outlining the overview of the environment industry, the employment of solar light as energy source and the general and specific objectives. Chapter 2 presents a literature review regarding the last 30 years of applications correlating the use of solar light towards wastewater purification. The chapter reviews the engineering features of solar collectors, photocatalyst materials employed and the panorama of the pollutants investigated up to the present date in solar photocatalysis, presenting comparisons between models and real wastewater approaches. Chapter 3 details the experimental techniques and characterizations employed to sustain the investigation proposed in the thesis. The first part of the chapter explains the features of parabolic dish solar concentrator designed and manufactured by the IdEA group at the physics department of the university of Trento. After, it is presented the pulsed laser deposition, a thin films fabrication technique employed to produce the photocatalysts used on water purification experiments. The second part of the chapter presents the description of the characterization techniques used to reveal the fabricated photocatalyst materials properties. Based on the review on the fundamentals of solar photocatalysis and the experimental techniques, chapters 4 and 5 present a discussion in the field of novel photocatalytic materials capable to operate under concentrated sunlight irradiation. Chapter 4 in special presents the investigation regarding the fabrication of tungsten trioxide (WO3) thin film coatings, bringing the novelty of using pulsed laser deposition as the fabrication method and the evaluation of this material in photocatalysis for the degradation of methylene blue dye model pollutant. Chapter 5 instead, presents the development on Zinc Oxide (ZnO) nanoparticles, bringing an innovative point of view on a “green-synthesis” approach and the material immobilization in film for heterogeneous photocatalysis routes. Chapters 6 and 7 discuss solar photocatalysis aiming to shift applications from model pollutants to real wastewater remediation conditions. Important comparisons are performed and discussed regarding the advantages and existing drawbacks. To fulfill this purpose, chapter 6 presents an application case of solar photocatalysis to the degradation of a surfactant-rich industrial wastewater whereas chapter 7 presents the approach focused on the remediation of organic lead contaminants present on a local water well site in the city of Trento. The last experimental approach of concentrated solar light is presented on chapter 8, dedicated to the application of concentrated sunlight towards waste biomass valorization. Conversely to the application on water previously described, this chapter presents the activity on designing, fabricating and coupling a hydrothermal reactor with concentrated sunlight using it as the driving force to promote degradation of grape seeds evolving into hydrochars with possible valorization of the carbonized material. Lastly, chapter 9 presents the conclusions and suggestions, this item expresses the final considerations on the results of the experimental investigations, advantages and limitations observed, and suggests possible actions for future works.
4

Fendrich, Murilo Alexandre. "Solar concentration for the environment industry: photocatalytic materials and application technologies". Doctoral thesis, Università degli studi di Trento, 2021. http://hdl.handle.net/11572/285695.

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This thesis presents the achievements pursued during the doctoral course. The work was carried out in the context of the project ERiCSol (Energia RInnovabile e Combustili SOLari), as part of the University of Trento strategic plan for the years 2017-2021. The project was conceived to establish an interdepartmental area to promote the challenge of developing scientific research and technological innovation to increase the competitiveness of Trento at national and international level in the areas of energy and environment. Among all the goals of the project, this work dedicates special attention to 1) development of novel materials for solar photocatalytic reactions and 2) use of renewable energy to push forward applications in water remediation. To accomplish these goals, the research brings a full collection of experimental activities regarding the employment of solar concentration for the environment industry and therefore this document is organized in 9 chapters. In chapter 1, it is presented the introduction outlining the overview of the environment industry, the employment of solar light as energy source and the general and specific objectives. Chapter 2 presents a literature review regarding the last 30 years of applications correlating the use of solar light towards wastewater purification. The chapter reviews the engineering features of solar collectors, photocatalyst materials employed and the panorama of the pollutants investigated up to the present date in solar photocatalysis, presenting comparisons between models and real wastewater approaches. Chapter 3 details the experimental techniques and characterizations employed to sustain the investigation proposed in the thesis. The first part of the chapter explains the features of parabolic dish solar concentrator designed and manufactured by the IdEA group at the physics department of the university of Trento. After, it is presented the pulsed laser deposition, a thin films fabrication technique employed to produce the photocatalysts used on water purification experiments. The second part of the chapter presents the description of the characterization techniques used to reveal the fabricated photocatalyst materials properties. Based on the review on the fundamentals of solar photocatalysis and the experimental techniques, chapters 4 and 5 present a discussion in the field of novel photocatalytic materials capable to operate under concentrated sunlight irradiation. Chapter 4 in special presents the investigation regarding the fabrication of tungsten trioxide (WO3) thin film coatings, bringing the novelty of using pulsed laser deposition as the fabrication method and the evaluation of this material in photocatalysis for the degradation of methylene blue dye model pollutant. Chapter 5 instead, presents the development on Zinc Oxide (ZnO) nanoparticles, bringing an innovative point of view on a “green-synthesis” approach and the material immobilization in film for heterogeneous photocatalysis routes. Chapters 6 and 7 discuss solar photocatalysis aiming to shift applications from model pollutants to real wastewater remediation conditions. Important comparisons are performed and discussed regarding the advantages and existing drawbacks. To fulfill this purpose, chapter 6 presents an application case of solar photocatalysis to the degradation of a surfactant-rich industrial wastewater whereas chapter 7 presents the approach focused on the remediation of organic lead contaminants present on a local water well site in the city of Trento. The last experimental approach of concentrated solar light is presented on chapter 8, dedicated to the application of concentrated sunlight towards waste biomass valorization. Conversely to the application on water previously described, this chapter presents the activity on designing, fabricating and coupling a hydrothermal reactor with concentrated sunlight using it as the driving force to promote degradation of grape seeds evolving into hydrochars with possible valorization of the carbonized material. Lastly, chapter 9 presents the conclusions and suggestions, this item expresses the final considerations on the results of the experimental investigations, advantages and limitations observed, and suggests possible actions for future works.
5

Komatsu, Hideyuki. "Elucidation of Reaction Mechanism for High Energy Cathode Materials in Lithium Ion Battery using Advanced Analysis Technologies". Kyoto University, 2019. http://hdl.handle.net/2433/242753.

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Kyoto University (京都大学)
0048
新制・課程博士
博士(人間・環境学)
甲第21876号
人博第905号
新制||人||216(附属図書館)
2018||人博||905(吉田南総合図書館)
京都大学大学院人間・環境学研究科相関環境学専攻
(主査)教授 内本 喜晴, 教授 田部 勢津久, 教授 吉田 鉄平
学位規則第4条第1項該当
6

Klein, Mario, Frank Podlesak, Kevin Höfer, Holger Seidlitz, Colin Gerstenberger, Peter Mayr i Lothar Kroll. "Advanced Joining Technologies for Load and Fibre Adjusted FRP-Metal Hybrid Structures". Universitätsbibliothek Chemnitz, 2015. http://nbn-resolving.de/urn:nbn:de:bsz:ch1-qucosa-177669.

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Multi-material-design (MMD) is commonly realized through the combination of thin sheet metal and fibre reinforced plastics (FRP). To maximize the high lightweight potential of the material groups within a multi-material system as good as possible, a material-adapted and particularly fibre adjusted joining technology must be applied. The present paper focuses on two novel joining technologies, the Flow Drill Joining (FDJ) method and Spin-Blind-Riveting (SBR), which were developed for joining heavy-duty metal/composite hybrids. Tests were carried out with material combinations which are significant for lightweight constructions such as aluminium (AA5083) and carbon fibre-reinforced polyamide in sheet thickness of 1.8 mm. The mechanical testing and manufacturing of those multi-material joints was investigated.
7

Dragusanu, Mihai. "Design of Soft–Rigid Devices for Rehabilitative and Assistive Robotics". Doctoral thesis, Università di Siena, 2023. https://hdl.handle.net/11365/1225317.

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The innovation of rehabilitation and assistive technology nowadays is now driven by a double thrust. On one side, the average age of people is increasing as a result of the improved lifestyle in the last twenty years, which focuses on human well-being, consequently, the overall social impact of chronic diseases related to the musculoskeletal and nervous system is becoming relevant. On the other side, technology, spreading more and more now in everyday life, is acquiring an increasingly important role in preserving and ensuring a high quality of life even in the presence of temporary and/or chronic disorders. Technological advancements in the healthcare medical rehabilitative and assistive system allow people with disabilities to live a life in many cases independently. These advances, which translate into the realization of new devices and supports for the individual, can help in the autonomy of Activities of Daily Living (ADLs), in communication, study, learning, and more generally, to increase the degree of self-esteem by facilitating social inclusion and participation. The aim of this thesis is to combine aspects of robotics with the themes of assistance and rehabilitation, presenting new solutions in the Human Robot Interaction (HRI) field. In this manuscript, concerning rehabilitation and assistance, two major robotics areas are investigated, i.e. the exoskeleton and the haptic fields. The upper limb plays an important role in all daily activities. This thesis presents devices for rehabilitation and assistive application to help people with upper limb impairment, especially wrist and hand functions. The charm of these technologies lies in the possibility of following a rehabilitation path from home comfort, improving the medical health system, facilitating ADLs by eliminating constraints in terms of time, physiotherapist’s strength and costs, improving the rehabilitation path process. In this context, the exoskeletons, first for the wrist, then for the hand and finally an integration of the two just mentioned, are presented in the first thesis part. A user--centered design perspective is used throughout all design and development phases of the prototypes showing the effectiveness of developing tailor-made devices specifically designed on the user’ needs. Further, by exploiting haptic for rehabilitation and assistance, portable haptic grounded devices and wearable, are reported. Also, in this case, the focus of the thesis is on the hand providing solutions that can be used to help people in recovering and performing rehabilitation from remote without the physical presence of a doctor/specialist. Moreover, with regard to the topic of assistance only, the field of robotic grippers is exploited. Advanced design and manufacturing techniques are opening up opportunities in various technological applications, including end-effector design. In this context, grasping and manipulating objects in unstructured environments by means of simple, yet versatile and robust grippers and hands, is still an open challenge. In this thesis, it is presented a methodology for designing soft-rigid grippers that exploits compliant structures and implements a new type of actuation to vary its rigidity, able of performing different manipulation tasks. Similarly, in the final part of the thesis it is presented a soft-rigid gripper that combines a compliant and safe structure with a synergy between tendon and magnetic actuation for dressing assistance, which provides various advantages and can perform various grasping and manipulation tasks.
8

Hoffmann, Viola [Verfasser]. "Conductive advanced carbon materials from biomass for the application in energy storage and conversion technologies (Electrochemical Double-Layer Capacitors and Direct Carbon Fuel Cells) / Viola Hoffmann". Düren : Shaker, 2020. http://d-nb.info/1222396181/34.

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Houdouin, Alexandre. "Vers une paroi acoustique absorbante en technologie MEMS". Thesis, Le Mans, 2014. http://www.theses.fr/2014LEMA1020/document.

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Les travaux présentés portent sur l'élaboration d'une paroi acoustique absorbante de faible épaisseur capable d'absorber des ondes acoustiques de basses fréquences (500 - 1500 Hz). Le bruit est en effet la première source de nuisances environnementales évoquée par le public. Cette gêne nécessite la mise en place de traitements acoustiques dans le but d'améliorer le confort. Cependant, dans certaines conditions, les contraintes portant sur l'encombrement des solutions absorbantes limitent fortement leur utilisation. En effet, de manière générale, plus les fréquences du son à atténuer sont basses plus les éléments à utiliser doivent être épais. La paroi acoustique absorbante conçue dans le cadre de cette thèse est basée sur un réseau de transducteurs électrodynamiques, réalisés en technologie MEMS. Ce type de paroi permet de contrôler l'absorption obtenue à partir de charges électriques adaptées, connectées aux bornes des transducteurs. Afin de dimensionner les différents éléments de cette paroi absorbante, un modèle analytique de l'absorption de la paroi prenant en compte le comportement des transducteurs électrodynamique utilisés ainsi que les couplages acoustiques entre les différentes sources qui sont particulièrement importants dans le domaine des basses fréquences, a été développé. Ce modèle a été validé par 2 moyens : i) des modélisations par éléments finis et ii) la mesure de l'absorption acoustique des prototypes réalisés, mesure obtenue pour deux types de transducteurs. L’une est basée sur des micro-haut-parleurs commerciaux, l'autre sur un transducteur miniature MEMS de dimensions similaires mais dont le rendement de conversion est d’un ordre de grandeur supérieur aux micro-haut-parleurs conventionnels. La modélisation analytique a montrée deux voies d'améliorations qui ont été entreprises, la première sur la suppression des courts-circuits présents au niveau du transducteur, la seconde sur l'optimisation du facteur de force permettant l'amélioration du rendement de conversion électro-mécanique. Les résultats d'absorption acoustique obtenus à partir des transducteurs MEMS montrent que la solution possède un réel intérêt dans le domaine des basses fréquences là où les solutions conventionnelles sont peu efficaces
The work presented in this thesis focuses on the development of a sound absorbent thin solution able to absorb sound waves of low frequency (500 - 1500 Hz). Noise is, actually, the primary source of environmental pollution raised by the public. This discomfort requires the establishment of acoustic solutions in order to improve the acoustic comfort. However, under certain conditions, the thickness of absorbent solutions strongly limit their use. Indeed, in general, more frequencies are low more the acoustic solutions used must be thick. The sound absorption noise of the solution presented in this work is based on a network of miniature electrodynamic transducers controlled from appropriate electrical loads connected to the terminals of the transducers. An analytical model of the behavior of sound absorbing wall was developed. This model takes into account the behavior of electrodynamic transducers used and the acoustic coupling between the various sources that are particularly important in the area of low frequencies. This model has been validated by two means : i) finite element modeling and ii) measuring the absorption of acoustic prototypes. Two types of absorbent walls were made. One is based on commercial micro-speakers, the other on a miniature MEMS transducer of similar dimensions but the conversion efficiency is an order of magnitude greater than conventional micro-speakers. Analytical modeling has shown two ways of improvements that have been undertaken, the first on the removal of short circuits present at the transducer, the second on optimizing the force factor for improving the conversion efficiency of electro-mechanics. The results sound absorption obtained from the MEMS transducers show that the solution has a real interest in the low frequency range where conventional solutions are not very effective
10

Choi, Hyeok. "Novel Preparation of Nanostructured Titanium Dioxide Photocatalytic Particles, Films, Membranes, and Devices for Environmental Applications". University of Cincinnati / OhioLINK, 2007. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1176943161.

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Książki na temat "Advanced materials and technologies":

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Ismail, Azman, Wardiah Mohd Dahalan i Andreas Öchsner, red. Advanced Materials and Engineering Technologies. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-92964-0.

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Attmann, Osman. Green architecture: Advanced technologies and materials. New York: McGraw-Hill, 2010.

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Attmann, Osman. Green architecture: Advanced technologies and materials. New York: McGraw-Hill, 2010.

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The Ceramic Society of Japan. Advanced Ceramic Technologies & Products. Tokyo: Springer Japan, 2012.

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Wang, Guanglin. Progress in advanced manufacturing technologies: Special topic volume on advanced manufacturing technologies. Durnten-Zurich, Switzerland: Trans Tech Publications Ltd., 2012.

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United States. Bureau of Mines., red. Material use patterns, intermaterial competition, advanced materials technologies: Information & analysis materials program. Washington, D.C.?: U.S. Dept. of the Interior, Bureau of Mines, 1991.

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Upadhyayula, Sreedevi, i Amita Chaudhary. Advanced Materials and Technologies for Wastewater Treatment. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003138303.

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Yuan, Xianxia, Hansan Liu i Jiujun Zhang. Lithium-ion batteries: Advanced materials and technologies. Boca Raton: Taylor & Francis, 2012.

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Kolisnychenko, Stanislav. Advanced Materials and Technologies. Trans Tech Publications, Limited, 2021.

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Kolisnychenko, Stanislav. Advanced Materials and Technologies. Trans Tech Publications, Limited, 2020.

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Części książek na temat "Advanced materials and technologies":

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Rani, Manviri, i Uma Shanker. "Advanced Treatment Technologies". W Handbook of Environmental Materials Management, 1289–339. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-319-73645-7_33.

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Rani, Manviri, i Uma Shanker. "Advanced Treatment Technologies". W Handbook of Environmental Materials Management, 1–52. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-58538-3_33-1.

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Maitra, Soumyajit, Souhardya Bera i Subhasis Roy. "Application to Advanced Materials Simulation". W Computational Technologies in Materials Science, 19–48. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003121954-2.

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Meszaros, Mark W. "Advanced Recycling Technologies for Plastics". W Conversion And Utilization Of Waste Materials, 53–75. Boca Raton: Routledge, 2023. http://dx.doi.org/10.1201/9781315140360-6.

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Kumari, Neeraj, Sushma i Firdaus Parveen. "Need for Advanced Materials and Technologies". W Advanced Materials and Technologies for Wastewater Treatment, 35–58. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003138303-3.

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Reza Rezaie, Hamid, Hassan Beigi Rizi, Mojdeh Mahdi Rezaei Khamseh i Andreas Öchsner. "3D-Printing Technologies for Dental Material Processing". W Advanced Structured Materials, 201–10. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-48931-1_6.

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Zhang, Dingyou, i James J. Q. Lu. "3D Integration Technologies: An Overview". W Materials for Advanced Packaging, 1–26. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-45098-8_1.

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Chanchani, Rajen. "3D Integration Technologies – An Overview". W Materials for Advanced Packaging, 1–50. Boston, MA: Springer US, 2009. http://dx.doi.org/10.1007/978-0-387-78219-5_1.

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Kleiner, Felix, i Wolfgang Fleischmann. "Technologies of Threadlocking and Interference-Fit Adhesive Joints". W Advanced Structured Materials, 227–55. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/8611_2010_39.

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Agee, John T., Andrew Obok Opok i Marie de Lazzer. "Solar Tracker Technologies: Market Trends and Field Applications". W Advanced Materials Research, 339–44. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-450-2.339.

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Streszczenia konferencji na temat "Advanced materials and technologies":

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Kozlova, Olga V., Anvar R. Zimnurov i Olga I. Odintsova. "Advanced finish technologies textile materials". W INTERNATIONAL SCIENTIFIC-TECHNICAL SYMPOSIUM (ISTS) «IMPROVING ENERGY AND RESOURCE-EFFICIENT AND ENVIRONMENTAL SAFETY OF PROCESSES AND DEVICES IN CHEMICAL AND RELATED INDUSTRIES». The Kosygin State University of Russia, 2021. http://dx.doi.org/10.37816/eeste-2021-1-235-238.

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Streszczenie:
The paper reflects the problems of coloring and describes promising ways to solve problems in the field of finishing para-aramid fabrics. Theoretical and practical aspects of the preparation and use of pigment-polymer compositions for the para-aramid tissues kolorirovaniya are presented. The positive role of the preliminary plasma-chemical treatment on the qualitative characteristics of the resulting colors is shown.
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Kurimura, Sunao. "Advanced quasi-phase-matched materials and technologies". W 2016 IEEE Photonics Conference (IPC). IEEE, 2016. http://dx.doi.org/10.1109/ipcon.2016.7831239.

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Hasegawa, Tatsuo. "Advanced Printed Electronics – Materials and Junction Technologies". W 2019 19th International Workshop on Junction Technology (IWJT). IEEE, 2019. http://dx.doi.org/10.23919/iwjt.2019.8802890.

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TITRAN, ROBERT, TONI GROBSTEIN i DAVID ELLIS. "Advanced materials for space nuclear power systems". W Conference on Advanced SEI Technologies. Reston, Virigina: American Institute of Aeronautics and Astronautics, 1991. http://dx.doi.org/10.2514/6.1991-3530.

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Martin-Luengo, M. A., L. Gonzalez Gil, A. M. Martinez Serrano, E. Ruiz-Hitzky, M. Yates, M. Ramos, J. L. Salgado i in. "Renewable Raw Materials for advanced applications". W 2011 World Congress on Sustainable Technologies (WCST). IEEE, 2011. http://dx.doi.org/10.1109/wcst19361.2011.6114229.

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Lynam, Niall R. "Automotive applications of chromogenic materials". W Institutes for Advanced Optical Technologies, redaktorzy Carl M. Lampert i Claes-Göran Granqvist. SPIE, 1990. http://dx.doi.org/10.1117/12.2283607.

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Wilder, A. T. "Materials for advanced electric machines: an overview". W 2005 IEEE Electric Ship Technologies Symposium. IEEE, 2005. http://dx.doi.org/10.1109/ests.2005.1524718.

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Dubowski, Jan J. "Laser technologies for manufacturing of advanced materials and devices". W Symposium on High-Power Lasers and Applications, redaktorzy Henry Helvajian, Koji Sugioka, Malcolm C. Gower i Jan J. Dubowski. SPIE, 2000. http://dx.doi.org/10.1117/12.387595.

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Hoffelner, Wolfgang. "Materials Databases and Knowledge Management for Advanced Nuclear Technologies". W ASME 2009 Pressure Vessels and Piping Conference. ASMEDC, 2009. http://dx.doi.org/10.1115/pvp2009-77692.

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International collaborations like the Generation IV initiative have the aim to create the technical basis for design and operation of advanced nuclear plants. Materials data shall be created in joint international materials projects. Data will be aggregated in databases like the “Generation IV materials handbook”. Mechanical data, but also microstructural information and information concerning materials production shall be included. This information will be used to create or amend code rules, to provide a basis for life-time analysis, damage assessments and for safety analyses. Such considerations need not only raw materials data but also tools for data analysis and evaluation. Multiscale modeling, establishing constitutive equations, development of advanced life-time prediction methods, quantitative correlation of mechanical properties with microstructure, quantification of environmental effects, tools for non destructive evaluation and condition based monitoring etc. are important analysis techniques needed for safe design and operation of advanced plants. These needs led the author to ask the question if current databases could not be enlarged by data evaluation and methods tools which could even end some day in the availability of web-based design codes and safety analyses. The database could also be used as a web-based discussion and development space. It could become then a powerful tool for knowledge management The paper will discuss this concept on basis of some examples.
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Paniez, Patrick J., Benedicte P. Mortini, Severine Gally, Alain Prola, Charles Rosilio i Pierre-Olivier Sassoulas. "Understanding advanced lithographic materials: challenges and new characterization techniques". W Microelectronic Manufacturing Technologies, redaktorzy Chris A. Mack i Tom Stevenson. SPIE, 1999. http://dx.doi.org/10.1117/12.346879.

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Raporty organizacyjne na temat "Advanced materials and technologies":

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Kim, H., M. C. Clifford, S. B. Darling, S. W. Snyder, C. Chen, M. Kaminski, A. Heifetz i in. Advanced Materials and Technologies for Resilient Infrastructure Systems. Office of Scientific and Technical Information (OSTI), marzec 2018. http://dx.doi.org/10.2172/1433498.

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Yang, Z., P. Dong, S. Liu, S. Babu, G. Olson i T. DebRoy. Virtual Welded-Joint Design Integrating Advanced Materials and Processing Technologies. Office of Scientific and Technical Information (OSTI), kwiecień 2005. http://dx.doi.org/10.2172/940295.

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Liby, Alan L., i Hiram Rogers. Advanced Materials in Support of EERE Needs to Advance Clean Energy Technologies Program Implementation. Office of Scientific and Technical Information (OSTI), październik 2013. http://dx.doi.org/10.2172/1095669.

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Sorrell, C. A. The Advanced Industrial Materials (AIM) program office of industrial technologies fiscal year 1995. Office of Scientific and Technical Information (OSTI), kwiecień 1997. http://dx.doi.org/10.2172/494105.

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Pavlicek, Anna, red. Advanced Materials for innovative solar cell technologies - part 2 (NanoTrust-Dossier No 057en - February 2022). Vienna: self, 2022. http://dx.doi.org/10.1553/ita-nt-057en.

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Gazsó, André, red. Advanced Materials for innovative solar cell technologies - part 1 (NanoTrust-Dossier No 056en - November 2021). Vienna: self, 2022. http://dx.doi.org/10.1553/ita-nt-056en.

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Durkee, Joe W., Ben Cipiti, Scott Francis Demuth, Andrew James Fallgren, Ken Jarman, Shelly Li, Dave Meier i in. Material Protection, Accounting, and Control Technologies (MPACT) Advanced Integration Roadmap. Office of Scientific and Technical Information (OSTI), wrzesień 2016. http://dx.doi.org/10.2172/1329653.

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Miller, Mike, Ben Cipiti, Scott Francis Demuth, Joe W. Durkee, Jr., Andrew James Fallgren, Ken Jarman, Shelly Li i in. Material Protection, Accounting, and Control Technologies (MPACT) Advanced Integration Roadmap. Office of Scientific and Technical Information (OSTI), styczeń 2017. http://dx.doi.org/10.2172/1341846.

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Kennedy, Alan, Jonathon Brame, Taylor Rycroft, Matthew Wood, Valerie Zemba, Charles Weiss, Matthew Hull, Cary Hill, Charles Geraci i Igor Linkov. A definition and categorization system for advanced materials : the foundation for risk-informed environmental health and safety testing. Engineer Research and Development Center (U.S.), wrzesień 2021. http://dx.doi.org/10.21079/11681/41803.

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Streszczenie:
Novel materials with unique or enhanced properties relative to conventional materials are being developed at an increasing rate. These materials are often referred to as advanced materials (AdMs) and they enable technological innovations that can benefit society. Despite their benefits, however, the unique characteristics of many AdMs, including many nanomaterials, are poorly understood and may pose environmental safety and occupational health (ESOH) risks that are not readily determined by traditional risk assessment methods. To assess these risks while keeping up with the pace of development, technology developers and risk assessors frequently employ risk-screening methods that depend on a clear definition for the materials that are to be assessed (e.g., engineered nanomaterial) as well as a method for binning materials into categories for ESOH risk prioritization. In this study, we aim to establish a practitioner-driven definition for AdMs and a practitioner-validated framework for categorizing AdMs into conceptual groupings based on material characteristics. The definition and categorization framework established here serve as a first step in determining if and when there is a need for specific ESOH and regulatory screening for an AdM as well as the type and extent of risk-related information that should be collected or generated for AdMs and AdM-enabled technologies.
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Huang, Xiaodi, i Richard Gertsch. IMPROVEMENT OF WEAR COMPONENT'S PERFORMANCE BY UTILIZING ADVANCED MATERIALS AND NEW MANUFACTURING TECHNOLOGIES: CASTCON PROCESS FOR MINING APPLICATIONS. Office of Scientific and Technical Information (OSTI), lipiec 2001. http://dx.doi.org/10.2172/785195.

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