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L'industrie invisible : Les draperies du Midi xviie - xxe siècles - Essai sur l'originalité d'une trajectoire

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ISBN: 9782271129949 DOI: 10.4000/books.editionscnrs.22593 Language: French
Publisher: CNRS Éditions
Subject: Business and Management
Added to DOAB on : 2019-12-06 13:15:29
License: OpenEdition Licence for Books

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La renommée des draps du nord de la France, d'Elbeuf, de Lille, de Reims ou de Sedan, leur domination et leur triomphe au xixe siècle, semblent avoir occulté et rendu invisible l'industrie du sud du pays. Et pourtant, le Midi fut l'une des grandes régions industrielles françaises. À partir du xviie siècle, en Languedoc, dans une partie de la Gascogne et des pays pyrénéens, la draperie joue un rôle économique majeur. La Révolution va bouleverser cette géographie industrielle, faisant disparaître ou marginalisant progressivement les plus petites manufactures au cours du xixe siècle. Parallèlement, d'autres territoires du textile émergent et se recomposent. Dans le Haut-Languedoc, dans le Tarn et l'Ariège, des transformateurs de laine se développent discrètement. S'adaptant sans cesse, réformant progressivement leur appareil de production, tissant des relations avec de nombreuses entreprises, ils prendront la tête de la production française dans le cardé et le tissage d'habillement de la laine au xxe siècle. En exploitant l'intégralité de la documentation, Jean-Michel Minovez rend enfin visibles ces industries longtemps ignorées et retrace des aventures manufacturières inédites. Un livre de référence, un exercice magistral d'histoire sur le temps long et une véritable découverte scientifique.

Keywords

économie --- draperie --- manufacture

Immunoglobulin therapy in the 21st century: the dark side of the moon

Authors: --- ---
Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889197033 Year: Pages: 124 DOI: 10.3389/978-2-88919-703-3 Language: English
Publisher: Frontiers Media SA
Subject: Medicine (General) --- Allergy and Immunology
Added to DOAB on : 2016-08-16 10:34:25
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In the early decades since the introduction in the early '80s of immunoglobulin therapy many studies tried to identify which clinical indications might benefit from the therapy, which treatment’s schedules are effective and safe. It is universally accepted that immunoglobulin therapy is a life-saving treatment in patients with PID. The rise of new indications for further different clinical conditions resulted in a steady increase in demand for immunoglobulins. Currently the consumption of immunoglobulin for PID represents a small fraction of the market. In the recent past we have been observing:1) An increase in the demand for plasma and in the consequent need to increase the number of donors;2) Changes in methods to improve IgG recovery and to increase productivity as a response to growing clinical demand;3) Introduction of immunoglobulin treatments with higher concentration;4) Changes in the timing of administration with an increase in the rate of infusion;5) Introduction of immunoglobulin treatment administered subcutaneously mainly confined initially to patients with PID and later extended to other clinical indications which often require higher volumes of infusion. Doctors following patients with PID were initially alarmed only to a possible risk of shortage. More relevant and less discussed appear the possible consequences of:1) the risk of an improper transfer of information on treatments from a clinical indication to another. In particular, the idea of a mere replacement function in patients with PID might possibly be borrowed from the model of other clinical conditions requiring a replacement such as haemophilia. In PID, immunoglobulin treatment instead is obviously replacing a missing feature. However, other immune alterations are responsible for the large number of PID-associated diseases including inflammatory manifestations and tumors, common causes of morbidity and mortality. The immunomodulatory effects of immunoglobulin administered at replacement dosages on multiple cells and immune system functions are still largely to be checked in in vitro studies and in vivo.2) the changes in the immunoglobulin production and schedules of administration. These should have been assessed in studies of drug surveillance, necessary in order to evaluate on large numbers of what it is initially reported on patients enrolled in the pivotal clinical trials, usually in the absence of most of the main disease-associated clinical conditions affecting pharmacokinetics, efficacy and tolerability. Severe side effects are now more frequently reported. This requires surveillance studies in order to verify the tolerability. Nowadays, personalized health research presents methodologic challenges, since emphasis is placed on the individual response rather than on the population. Even within a universally accepted indication, such as in PID, the identification of prognostic markers should guide the therapeutic intervention.3) the risk of a decrease in the surveillance and monitoring of PID-associated clinical conditions. In fact, self- administration of immunoglobulins administered subcutaneously increased the independence of a number of patients. On the other hand, it led to the reduction in the number of contacts between specialized centers and patients who often require a close monitoring of disease-associated conditions. A wide debate between experts is necessary to afford the new challenge on immunoglobulin usage.

Protecting the Body in War and Combat

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ISBN: 9783700177418 Year: Pages: 381 Seiten Language: English
Publisher: Verlag der Österreichischen Akademie der Wissenschaften Grant: Austrian Science Fund - PUB 337
Added to DOAB on : 2018-02-23 11:02:20
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This monograph provides an overview of all metal body armour from the European Bronze Age from a typo-chronological perspective but also in focusing on the manufacture and usage of such armour. This was enabled through the re-evaluation of central and eastern European finds in particular and their material analyses. The research history, distribution and chronology, as well as manufacture and use of helmets, greaves and cuirasses is discussed.

Sugar, Steam and Steel: The Industrial Project in Colonial Java, 1830-1850

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ISBN: 9781922064998 Year: Pages: 322 DOI: 10.20851/steam-and-steel Language: English
Publisher: University of Adelaide Press
Subject: History --- Migration
Added to DOAB on : 2014-12-19 00:53:15
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Sugar, Steam and Steel is about cane sugar and the transformation of an Indonesian island into the â Oriental Cubaâ during the middle decades of the nineteenth century. Between the 1830s and the 1880s, sweetener manufacture in Dutch-controlled Java â the crown jewel of the erstwhile Netherlands Indies â drew decisively away in matters of technology and sugar science from other Asian centres of production which had once equaled or, more often, surpassed it in terms of both output and know-how. Along with its larger and altogether more famous Caribbean counterpart, Javaâ s industry came to occupy a position at the apex of the trade in what had become by this date a key global commodity.

Flexible Electronics: Fabrication and Ubiquitous Integration

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ISBN: 9783038978282 9783038978299 Year: Pages: 160 DOI: 10.3390/books978-3-03897-829-9 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering --- Electrical and Nuclear Engineering
Added to DOAB on : 2019-06-26 08:44:06
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Flexible Electronics platforms are increasingly used in the fields of sensors, displays, and energy conversion with the ultimate goal of facilitating their ubiquitous integration in our daily lives. Some of the key advantages associated with flexible electronic platforms are: bendability, lightweight, elastic, conformally shaped, nonbreakable, roll-to-roll manufacturable, and large-area. To realize their full potential, however, it is necessary to develop new methods for the fabrication of multifunctional flexible electronics at a reduced cost and with an increased resistance to mechanical fatigue. Accordingly, this Special Issue seeks to showcase short communications, research papers, and review articles that focus on novel methodological development for the fabrication, and integration of flexible electronics in healthcare, environmental monitoring, displays and human-machine interactivity, robotics, communication and wireless networks, and energy conversion, management, and storage.

Additive Manufacturing: Alloy Design and Process Innovations

Authors: ---
ISBN: 9783039283521 / 9783039283538 Year: Pages: 372 DOI: 10.3390/books978-3-03928-353-8 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2020-06-09 16:38:57
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Additive manufacturing (AM) is one of the manufacturing processes that warrants the attention of industrialists, researchers and scientists, because of its ability to produce materials with a complex shape without theoretical restrictions and with added functionalities. There are several advantages to employing additive manufacturing as the primary additive manufacturing process. However, there exist several challenges that need to be addressed systematically. A couple such issues are alloy design and process development. Traditionally alloys designed for conventional cast/powder metallurgical processes were fabricated using advanced AM processes. This is the wrong approach considering that the alloys should be coined based on the process characteristics and meta-stable nature of the process. Hence, we must focus on alloy design and development for AM that suits the AM processes. The AM processes, however, improve almost every day, either in terms of processing capabilities or processing conditions. Hence, the processing part warrants a section that is devoted to these advancements and innovations. Accordingly, the present Special Issue (book) focuses on two aspects of alloy development and process innovations. Here, 45 articles are presented covering different AM processes including selective laser melting, electron beam melting, laser cladding, direct metal laser sintering, ultrasonic consolidation, wire arc additive manufacturing, and hybrid manufacturing. I believe that this Special Issue bears is vital to the field of AM and will be a valuable addition.

Keywords

concrete --- slag --- valorization --- cement --- circular economy --- wire feeding additive manufacturing --- wire lateral feeding --- macro defects --- side spatters --- selective laser melting --- numerical analysis --- thermal behaviour --- AlSi10Mg alloy --- design --- disc brake --- 3D metal printing --- direct metal laser sintering --- thermal stress analysis --- radial grooves --- nickel alloys --- Hastelloy X alloy --- additive manufacturing --- microstructure --- scanning electron microscopy (SEM) --- laser powder bed fusion (LPBF) --- selective laser melting --- titanium alloy --- heat treatment --- microstructure --- microhardness measurement --- arc additive manufacturing --- Al–5Si alloy --- pulse frequency --- arc current --- microstructure --- porosity --- 2219 aluminum alloy --- constitutive model --- microstructural evolution --- continuous dynamic recrystallization --- hot deformation --- selective laser melting --- amorphous alloy --- finite element analysis --- residual stress --- 2219 aluminum alloy --- intermediate thermo-mechanical treatment --- storage energy --- CuAl2 phase --- grain refinement --- selective laser melting --- GH4169 --- temperature and stress fields --- simulation --- model --- selective laser melting --- divisional scanning --- residual stress --- deformation --- thermal conductivity --- tensile strength --- inoculation --- gray cast iron --- additive manufacturing --- selective laser melting --- AlSi10Mg --- Al6061 --- SLM process parameters --- performance characteristics --- AlSi10Mg --- multi-laser manufacturing --- selective laser melting --- microstructure --- mechanical property --- additive manufacturing --- metal powders --- powder flowability --- powder properties --- aluminum --- water absorption --- laser cladding deposition --- 12CrNi2 alloy steel powder --- substrate preheating --- microstructure and properties --- residual stress --- ultrafast laser --- femtosecond --- ablation --- scanning --- additive surface structuring --- hydrophobicity --- parts design --- additive manufacturing --- fused filament fabrication --- fatigue --- Taguchi --- ABS --- additive manufacturing --- selective laser melting --- AlSi10Mg --- Al6061 --- SLM process parameters --- quality of the as-built parts --- aluminum alloys --- selective laser melting (SLM) --- mechanical properties --- selective laser melting --- H13 tool steel --- process parameters --- scanning strategy --- support strategy --- porosity reduction --- selective laser melting --- Ti6Al4V alloy --- martensitic transformation --- texture evolution --- mechanical properties --- M300 mold steel --- elastic abrasive --- PSO-BP neural network algorithm --- parameter optimization --- WxNbMoTa --- refractory high-entropy alloy --- laser cladding deposition --- rapid solidification --- bulk metallic glasses --- selective laser melting --- Cu50Zr43Al7 --- mechanical properties --- Ti-6Al-4V --- wear --- additive manufacturing --- properties --- in-process temperature in MPBAM --- analytical modeling --- high computational efficiency --- molten pool evolution --- laser power absorption --- latent heat --- scanning strategy --- powder packing --- graphene nano-sheets (GNSs) --- epoxy solder --- intermetallic compound (IMC) --- laser powder bed fusion --- additive manufacturing --- aluminum --- composition --- mechanical properties --- localized inductive heating --- hot stamping steel blanks --- tailored properties --- magnetizer --- selective laser melting --- AlSi10Mg alloy --- dynamic properties --- impact --- crystallographic texture --- Additive manufacturing --- selective laser melting --- volumetric heat source --- thermal capillary effects --- melt pool size --- selective laser melting --- Inconel 718 --- crystallographic texture --- subgranular dendrites --- epitaxial growth --- 3D printing --- continuous carbon fiber --- thermosetting epoxy resin --- mechanical properties --- Powder bed --- fatigue --- Hot Isostatic Pressure --- Electron Beam Melting --- stability lobe diagram --- milling --- process-damping --- dynamic characteristics --- thin-walled weak rigidity parts --- Al–Si --- selective laser melting (SLM) --- microstructure --- mechanical properties --- selective laser melting --- microstructure --- defects --- Inconel 718 --- laser energy density --- selective laser melting --- molten pool dynamic behavior --- equivalent processing model --- workpiece scale --- nickel-based superalloy --- numerical simulation --- metallic glasses --- composite materials --- interfaces --- additive manufacturing --- ultrasonic bonding --- 3D printing --- Al–Mg–Si alloy --- quenching rate --- microstructures --- mechanical properties --- paint bake-hardening --- precipitates --- additive manufacturing --- powder bed fusion --- selective laser melting --- regular mixing --- ball milling --- flowability --- Ti-6Al-4V --- microstructure --- element segregation --- laves phase --- vanadium --- laser cladding --- arc additive manufacture --- Al–Mg alloy --- Mg content --- microstructure --- mechanical properties --- n/a

Additive Manufacturing: Alloy Design and Process Innovations

Authors: ---
ISBN: 9783039284146 / 9783039284153 Year: Pages: 352 DOI: 10.3390/books978-3-03928-415-3 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2020-06-09 16:38:57
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Abstract

Additive manufacturing (AM) is one of the manufacturing processes that warrants the attention of industrialists, researchers and scientists, because of its ability to produce materials with a complex shape without theoretical restrictions and with added functionalities. There are several advantages to employing additive manufacturing as the primary additive manufacturing process. However, there exist several challenges that need to be addressed systematically. A couple such issues are alloy design and process development. Traditionally alloys designed for conventional cast/powder metallurgical processes were fabricated using advanced AM processes. This is the wrong approach considering that the alloys should be coined based on the process characteristics and meta-stable nature of the process. Hence, we must focus on alloy design and development for AM that suits the AM processes. The AM processes, however, improve almost every day, either in terms of processing capabilities or processing conditions. Hence, the processing part warrants a section that is devoted to these advancements and innovations. Accordingly, the present Special Issue (book) focuses on two aspects of alloy development and process innovations. Here, 45 articles are presented covering different AM processes including selective laser melting, electron beam melting, laser cladding, direct metal laser sintering, ultrasonic consolidation, wire arc additive manufacturing, and hybrid manufacturing. I believe that this Special Issue bears is vital to the field of AM and will be a valuable addition.

Keywords

concrete --- slag --- valorization --- cement --- circular economy --- wire feeding additive manufacturing --- wire lateral feeding --- macro defects --- side spatters --- selective laser melting --- numerical analysis --- thermal behaviour --- AlSi10Mg alloy --- design --- disc brake --- 3D metal printing --- direct metal laser sintering --- thermal stress analysis --- radial grooves --- nickel alloys --- Hastelloy X alloy --- additive manufacturing --- microstructure --- scanning electron microscopy (SEM) --- laser powder bed fusion (LPBF) --- selective laser melting --- titanium alloy --- heat treatment --- microstructure --- microhardness measurement --- arc additive manufacturing --- Al–5Si alloy --- pulse frequency --- arc current --- microstructure --- porosity --- 2219 aluminum alloy --- constitutive model --- microstructural evolution --- continuous dynamic recrystallization --- hot deformation --- selective laser melting --- amorphous alloy --- finite element analysis --- residual stress --- 2219 aluminum alloy --- intermediate thermo-mechanical treatment --- storage energy --- CuAl2 phase --- grain refinement --- selective laser melting --- GH4169 --- temperature and stress fields --- simulation --- model --- selective laser melting --- divisional scanning --- residual stress --- deformation --- thermal conductivity --- tensile strength --- inoculation --- gray cast iron --- additive manufacturing --- selective laser melting --- AlSi10Mg --- Al6061 --- SLM process parameters --- performance characteristics --- AlSi10Mg --- multi-laser manufacturing --- selective laser melting --- microstructure --- mechanical property --- additive manufacturing --- metal powders --- powder flowability --- powder properties --- aluminum --- water absorption --- laser cladding deposition --- 12CrNi2 alloy steel powder --- substrate preheating --- microstructure and properties --- residual stress --- ultrafast laser --- femtosecond --- ablation --- scanning --- additive surface structuring --- hydrophobicity --- parts design --- additive manufacturing --- fused filament fabrication --- fatigue --- Taguchi --- ABS --- additive manufacturing --- selective laser melting --- AlSi10Mg --- Al6061 --- SLM process parameters --- quality of the as-built parts --- aluminum alloys --- selective laser melting (SLM) --- mechanical properties --- selective laser melting --- H13 tool steel --- process parameters --- scanning strategy --- support strategy --- porosity reduction --- selective laser melting --- Ti6Al4V alloy --- martensitic transformation --- texture evolution --- mechanical properties --- M300 mold steel --- elastic abrasive --- PSO-BP neural network algorithm --- parameter optimization --- WxNbMoTa --- refractory high-entropy alloy --- laser cladding deposition --- rapid solidification --- bulk metallic glasses --- selective laser melting --- Cu50Zr43Al7 --- mechanical properties --- Ti-6Al-4V --- wear --- additive manufacturing --- properties --- in-process temperature in MPBAM --- analytical modeling --- high computational efficiency --- molten pool evolution --- laser power absorption --- latent heat --- scanning strategy --- powder packing --- graphene nano-sheets (GNSs) --- epoxy solder --- intermetallic compound (IMC) --- laser powder bed fusion --- additive manufacturing --- aluminum --- composition --- mechanical properties --- localized inductive heating --- hot stamping steel blanks --- tailored properties --- magnetizer --- selective laser melting --- AlSi10Mg alloy --- dynamic properties --- impact --- crystallographic texture --- Additive manufacturing --- selective laser melting --- volumetric heat source --- thermal capillary effects --- melt pool size --- selective laser melting --- Inconel 718 --- crystallographic texture --- subgranular dendrites --- epitaxial growth --- 3D printing --- continuous carbon fiber --- thermosetting epoxy resin --- mechanical properties --- Powder bed --- fatigue --- Hot Isostatic Pressure --- Electron Beam Melting --- stability lobe diagram --- milling --- process-damping --- dynamic characteristics --- thin-walled weak rigidity parts --- Al–Si --- selective laser melting (SLM) --- microstructure --- mechanical properties --- selective laser melting --- microstructure --- defects --- Inconel 718 --- laser energy density --- selective laser melting --- molten pool dynamic behavior --- equivalent processing model --- workpiece scale --- nickel-based superalloy --- numerical simulation --- metallic glasses --- composite materials --- interfaces --- additive manufacturing --- ultrasonic bonding --- 3D printing --- Al–Mg–Si alloy --- quenching rate --- microstructures --- mechanical properties --- paint bake-hardening --- precipitates --- additive manufacturing --- powder bed fusion --- selective laser melting --- regular mixing --- ball milling --- flowability --- Ti-6Al-4V --- microstructure --- element segregation --- laves phase --- vanadium --- laser cladding --- arc additive manufacture --- Al–Mg alloy --- Mg content --- microstructure --- mechanical properties --- n/a

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