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1 qualitative properties
Автоматика: характеристики качества (изделия)Универсальный англо-русский словарь > qualitative properties
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2 qualitative properties
English-Croatian chemistry dictionary > qualitative properties
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3 qualitative properties
English-Russian dictionary of mechanical engineering and automation > qualitative properties
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4 qualitative properties of solutions
English-Croatian dictionary > qualitative properties of solutions
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5 kvalitativna svojstva rješenja
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6 property
1) свойство; характеристика2) качество•- antiweld properties
- associative properties
- bulk properties
- converting property
- corrosion-inhibiting properties
- corrosion-preventive property
- damping property
- free boring properties
- free cutting properties
- free drilling properties
- free grinding properties
- free machining properties
- free milling properties
- free turning properties
- high-temperature properties
- loading property
- lubricating property
- memory property
- part material properties
- protecting property
- qualitative properties
- running properties
- temporal property
- wear properties
- wear-preventive propertyEnglish-Russian dictionary of mechanical engineering and automation > property
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7 характеристики качества
Automation: qualitative properties (изделия)Универсальный русско-английский словарь > характеристики качества
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8 характеристики качества
( изделия) qualitative propertiesРусско-английский исловарь по машиностроению и автоматизации производства > характеристики качества
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9 property
1) свойство; характеристика; качество; способность; характерная [отличительная\] особенность•-
acoustic properties
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adhesion property
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adsorption property
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aerodynamic properties
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antiknock properties
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antioxygenic properties
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antireflection properties
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antisquawk property
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antiwear properties
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antiwelding properties
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associative property
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blocking property
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bonding property
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boundary properties
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bulk properties
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caking property
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carbon forming property
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casting properties
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cementing properties
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coking property
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cold resisting property
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colligative property
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commutative property
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compounding properties
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constitutive properties
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cornering property
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creasing property
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creep property
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cryoprotective properties
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cycle-and-add property
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decay property
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deplastering properties
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directional property
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distributive property
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drainage property
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ductility property
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elastic properties
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electrochemical properties
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electrode properties
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end-use properties
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extensive property
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extremal property
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extreme pressure properties
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extrinsic properties
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fatigue properties
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flexural properties
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flow property
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fluid loss properties
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friction and wear properties
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gelling property
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general properties
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geophysical properties
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geotechnical properties
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greasy property
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group property
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gum-forming property
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heat-transfer properties
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hiding property
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hydrophobic property
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hydrophylic property
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hygroscopic property
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image transfer property
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intensive property
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interfacial properties
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intrinsic properties
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leveling property
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lightfastness property
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linear property
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low-temperature mechanical properties
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lubricating property
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metric property
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minimal property
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minimax property
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minimum property
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moisture barrier property
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mud-making properties
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oil-resisting property
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oil-retaining property
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oil-sweeping properties
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optical properties
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optoelectronic properties
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oxygen barrier property
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partition property
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paste forming properties
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photoelastic properties
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photovoltaic properties
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plastering properties
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plastic properties
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plasto-elastic properties
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plugging properties
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post-yield properties
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proknock properties
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qualitative property
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quantitative property
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refractory property
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reservoir petrophysical properties
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resolving-power properties
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riding properties
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rimming property
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sanding property
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sealing property
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short transverse properties
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shrinking property
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sorption properties
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sound-proofing properties
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storage property
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strength property
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stress-optic properties
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stretching properties
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superconducting properties
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thermal fatigue properties
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thermal properties
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thermodynamic properties
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thermophysical properties
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toxicological properties
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uniqueness property
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variable properties
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vatting property
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viscoelastic properties
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wall-building properties
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wear property
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wear resisting property
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wetting property -
10 Brain
Among the higher mammals the great development of neocortex occurs.In each group of mammals there is a steady increase in the area of the association cortex from the most primitive to the evolutionarily most recent type; there is an increase in the number of neurons and their connections. The degree of consciousness of an organism is some function of neuronal cell number and connectivity, perhaps of neurons of a particular type in association cortex regions. This function is of a threshold type such that there is a significant quantitative break with the emergence of humans. Although the importance of language and the argument that it is genetically specified and unique to humans must be reconsidered in the light of the recent evidence as to the possibility of teaching chimpanzees, if not to speak, then to manipulate symbolic words and phrases, there are a number of unique human features which combine to make the transition not merely quantitative, but also qualitative. In particular these include the social, productive nature of human existence, and the range and extent of the human capacity to communicate. These features have made human history not so much one of biological but of social evolution, of continuous cultural transformation. (Rose, 1976, pp. 180-181)[S]ome particular property of higher primate and cetacean brains did not evolve until recently. But what was that property? I can suggest at least four possibilities...: (1) Never before was there a brain so massive; (2) Never before was there a brain with so large a ratio of brain to body mass; (3) Never before was there a brain with certain functional units (large frontal and temporal lobes, for example); (4) Never before was there a brain with so many neural connections or synapses.... Explanations 1, 2 and 4 argue that a quantitative change produced a qualitative change. It does not seem to me that a crisp choice among these four alternatives can be made at the present time, and I suspect that the truth will actually embrace most or all of these possibilities. (Sagan, 1978, pp. 107-109)The crucial change in the human brain in this million years or so has not been so much the increase in size by a factor of three, but the concentration of that increase in three or four main areas. The visual area has increased considerably, and, compared with the chimpanzee, the actual density of human brain cells is at least 50 percent greater. A second increase has taken place in the area of manipulation of the hand, which is natural since we are much more hand-driven animals than monkeys and apes. Another main increase has taken place in the temporal lobe, in which visual memory, integration, and speech all lie fairly close together. And the fourth great increase has taken place in the frontal lobes. Their function is extremely difficult to understand... ; but it is clear that they're largely responsible for the ability to initiate a task, to be attentive while it is being done, and to persevere with it. (Bronowski, 1978, pp. 23-24)The human brain works however it works. Wishing for it to work in some way as a shortcut to justifying some ethical principle undermines both the science and the ethics (for what happens to the principle if the scientific facts turn out to go the other way?). (Pinker, 1994, p. 427)Historical dictionary of quotations in cognitive science > Brain
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11 использовать
(= воспользоваться, применять, см. также использоваться) make use of, exploit, utilize, use, employ• Альтернативный подход использует такие понятия, как... - The alternative approach uses notions such as...• Безусловно это можно использовать лишь в случае, если... - Of course this applies only if...• Более успешный подход заключался в том, чтобы использовать... - A more successful approach has been to use...• Будет полезно использовать условия, при которых... - It will be useful to explore the circumstances under which...• В данном случае можно использовать другой подход. - In this case a different approach can be used.• В обозначениях, которые мы теперь используем, это означает, что... - In our present notation this means that...• В следующем примере мы используем этот метод, чтобы определить... - In the following examples we use this method to determine...• Давайте использовать это решение, чтобы получить... - Let us use this solution to obtain...• Далее мы не будем это использовать. - We shall make no further use of this.• Данное доказательство использует метод математической индукции по п. - The proof is by induction on n.• Данные результаты могут быть использованы для проверки численного решения. - These results provide a useful check on numerical solutions.• Для нашего доказательства удобно использовать... - For our proof it is convenient to use...• Для удобства мы будем часто использовать более простое обозначение... - For convenience, we will often use the simpler notation...• Если мы используем результат (7), то видим, что... - If we make use of the result (7) we see that...• Желая использовать соотношение (14), мы заметим, что... - Wishing to exploit (14), we note that...• Заметьте, что мы использовали (здесь) только... - Note that we have only used...• Иногда бывает удобно использовать соотношения вида... - It is sometimes convenient to use relations of the form...• Можно использовать любое выражение в зависимости от... - Either expression can be used, depending on whether...• Мы будем использовать это решение, чтобы построить... - We shall use this solution to construct...• Мы будем очень часто использовать... - Extensive use will be made of...• Мы хотим использовать данную тестовую систему, чтобы определить... - We wish to use this test system to determine...• Мы использовали это в качестве отправного пункта нашего исследования. - We have taken this as a starting point for our investigation.• Мы используем обычные договоренности о... - We make use of common conventions on...• Мы используем эти факты несколько позднее. - We shall exploit these facts at a later stage. '• Мы используем этот результат (в, для)... - We shall apply this result to...• Мы используем этот факт позже (= в дальнейшем). - We shall make use of this fact later.• Мы можем использовать преимущество, предоставляемое этим фактом, чтобы... - We can take advantage of this fact to...• Мы можем использовать эти же свойства, чтобы определить... - We can use these same properties to define...• Мы можем использовать этот результат, чтобы определить (= ввести)... - We can use this result to define...• Мы можем также использовать здесь концепцию... - We may also apply the concept of...• Мы продолжим использовать... - We shall continue to use...• Мы также используем (благоприятную) возможность (поблагодарить, отметить и т. п.) (= Пользуясь возможностью, мы благодарим)... - We also take the opportunity to...• Мы уже многократно использовали (формулу, метод и т. п.)... - We have made extensive use of...• Мы часто используем обозначения а, аr для... - We frequently use a, аr to denote...• Некоторые авторы предпочли использовать... - Some authors have preferred to use...• Одна элегантная версия данного метода использует... - An elegant version of this method employs...• Однако здесь мы предпочитаем использовать... - Неге we prefer, however, to employ...• Однако некоторые авторы успешно использовали... - However, some authors have successfully used...• Однако разумно использовать тот факт, что... - But the sensible thing is to use the fact that...• Описанный выше метод может быть использован для построения... - The procedure described above can be used to construct...• Перед тем как начать использовать эту концепцию, честно предупредим читателя, что... - Before we make use of this concept, it is only fair to warn the reader that...• Перед тем как использовать его (метода) преимущество, мы должны... - Before taking advantage of this, we must...• Подобное рассуждение можно использовать, когда... - A similar argument can be used when...• При этих условиях мы по-прежнему можем использовать... - Under these circumstances we may still use...• Развивая данную теорию, мы будем существенно использовать... - In developing the theory we shall make considerable use of...• Разработчики использовали различные подходы для получения... - Designers have used various approaches in arriving at...• С этой целью мы будем использовать... - For this purpose, we shall use...• Теорема может быть использована для нахождения... - This theorem can be used to find all solutions of...• Теперь мы (полностью) готовы использовать методы, разработанные во втором параграфе. - We are now ready to use the methods of Section 2.• Читатель увидит, как можно использовать высшую математику в... - The reader will see how ordinary calculus can be applied to...• Чтобы..., мы используем качественные рассуждения. - We shall use a qualitative argument to...• Чтобы использовать компьютер в данном процессе... - То computerize the process,...• Чтобы проделать это, мы используем тот факт, что... - То do this, we make use of the fact that...• Эйнштейн использовал точно те же самые идеи в... - Einstein applied precisely the same ideas to...• Эта идея уже была использована Смитом [1], который предлагает... - This idea has been exploited by Smith [1], who suggests that...• Эта точка зрения была интенсивно использована Смитом [1]. - This viewpoint has been used extensively by Smith [1].• Эти результаты можно использовать, чтобы установить... - These results can be used to establish...• Это позволяет нам использовать (метод и т. п.)... - This allows us to make use of...• Это рассуждение подобно тому, что было использовано для установления... - The argument is similar to that used to establish...• Это свойство может быть использовано для вывода... - This property can be used to derive...• Это уравнение может быть использовано для вычисления амплитуды... - This equation can be used to calculate the magnitude of...• Этот результат можно использовать без опасений, только если... - It is safe to use this result only if...• Эту теорию можно использовать только тогда, когда... - This theory is applicable only when... -
12 qualité
qualité [kalite]feminine nouna. [de marchandise] quality• de qualité [article, ouvrage, spectacle] quality• c'est de bonne/mauvaise qualité it's good/poor qualityb. [de personne] ( = vertu) quality ; ( = don) skill• qualités humaines/personnelles human/personal qualitiesc. ( = fonction) position* * *kalite1) ( valeur) qualityde bonne qualité — good quality (épith)
de qualité — quality (épith)
2) ( aptitude) qualityses qualités de gestionnaire — his/her skills as an administrator
la franchise n'est pas sa qualité première — openness is not his/her strong point
3) Industrie qualitysa qualité de directeur l'autorise à faire — his/her position as manager allows him/her to do
en (sa) qualité de représentant — in his/her capacity as a representative
nom, prénom et qualité — surname, first name and occupation
5) ( sorte) quality* * *kalite nf1) [produit] qualityCes outils sont de très bonne qualité. — These are very good quality tools.
rapport qualité-prix — value, value for money
de qualité — quality modif
2) [personne] good quality3) (= fonction) position* * *qualité nf1 ( valeur) quality; du cuir de bonne/mauvaise/meilleure qualité good/poor/better quality leather; de qualité [produit, spectacle, médecine, matériel] quality ( épith); être de qualité to be of good quality; de première qualité of the highest quality; qualité de la vie quality of life;2 ( aptitude) quality; avoir beaucoup de qualités to have many qualities; la franchise n'est pas sa qualité première frankness isn't his greatest quality; avoir les qualités requises to have the necessary qualities; avoir des qualités de dirigeant to have leadership qualities; ses qualités de gestionnaire his skills as an administrator;3 Entr, Ind quality; système/audit de qualité quality system/audit; gestion/assurance/maîtrise de la qualité quality management/assurance/control; certificat de qualité certificate of quality; service qualité quality department;4 ( statut) status; ( fonction) position; la qualité de citoyen/réfugié the status of citizen/refugee; sa qualité de directeur l'autorise à faire his position as manager allows him to do; avoir qualité pour faire to be entitled to do; en (sa) qualité de représentant in his capacity as representative; nom, prénom et qualité surname, first name and occupation; ès qualités ex officio;5 ( sorte) quality; nous avons plusieurs qualités de champagne/papier we have several qualities of champagne/paper.qualité de l'air Écol air quality.[kalite] nom fémininqualités morales/intellectuelles moral/intellectual qualitiesqualité ordinaire standard ou regular gradede qualité inférieure low-quality, shoddyla qualité de l'impression est insuffisante/bonne the quality of the printing is inadequate/good4. [statut] positionnom, prénom, âge et qualité name, first name, age and occupationa. [être habilité] to be entitled to do somethingb. [être capable] to be qualified to do something5. [supériorité qualitative] quality————————qualités nom féminin pluriel————————de qualité locution adjectivale————————en qualité de locution prépositionnelleen qualité de tuteur, je peux intervenir (in my capacity) as guardian, I can interveneès qualités locution adverbiale -
13 material
1) материал; мн. ч. грунты; материалы2) материальный, вещественный•material retained on sieve — остаток на сите, надрешётный продукт
- abrasive material - active material - additional materials - adsorbing material - alternate material - antirot material - asbestos-containing construction materials - auxiliary materials - backfilling material - binding material - biostatic material - bituminous road materials - blasting material - brittle material - building materials - bulk material - cartographic materials - cartographical materials - cementing material - check of design material - coating material - constructional materials - consumption of materials - contractor's materials - corroding material - customer's materials - defective materials - delivery of materials - description of materials by weight - direct materials - durable material - emulsified bituminous materials - everyday need for materials - excavated material - expendable materials - experimental constructional material - explosive material - filter material - fireproof material - fire-resistant material - flux material - foam material - frostproof material - geologic materials - geological materials - geophysic materials - geophysical materials - granular materials - graphic material - graphical material - hazardous material - heat-insulating material - high grade material - hydro-geologic materials - hydro-geological materials - import materials - improper materials - indirect material - inflammable material - insulating materials - intrusion material - ion-exchange material - jointing material - lack of materials - lining material - list of materials - load transfer material - local building materials - locally manufactured materials - loose material - low-grade material - manufactured constructional materials - mismatched material - need for materials - nonused material - operational materials - parent material - patching material - paving material - procurement of materials - qualitative roofing material - quality of materials - radioactive material - raw material - refractory material - replacement of imported construction materials - required materials - roofing materials - rough material - sandwich material - sealing material - separation material - sound-damping material - source material - spongy material - standard material - substandard material - topographic material - topographical material - transportation of materials - utilization of materials - waterproofing material - written materialto damage construction materials during transportation — повредить строительные материалы во время транспортировки
* * *1. материал, вещество2. грунт3. материальный, вещественный- abrasion-resisting materialmaterials by structural properties — материалы, классифицируемые по структурным свойствам
- abrasive material
- absorbent material
- acoustic material
- anisotropic material
- architectural constructional materials
- architectural construction materials
- argillaceous material
- artificial pozzolanic material
- backfilling material
- backing material
- bagged material
- ballast material
- binding material
- bituminous materials
- bonding material
- boxing material
- brittle material
- building materials
- calcareous material
- cellular material
- cement-bound granular material
- cementing material
- ceramic materials
- clayey materials
- coated material
- coating material
- combustible material
- combustible building materials
- composite material
- concrete materials
- concrete-making materials
- concrete repair materials
- constituent materials of concrete
- construction materials
- corrugated sheet material
- damping material
- dampproofing material
- defective material
- ductile material
- durable material
- engineering materials
- excavated material
- fast-setting repair material
- faulty material
- fiber reinforced material
- fill material
- filter material
- finishing material
- fire retarding material
- flexible sheet material
- fluid material
- foamed-in-place acoustical materials
- form material
- frost-free material
- graded material
- granular material
- granular subbase material
- gritting materials
- hazardous material
- heat insulating material
- high-grade materials
- highly insulative material
- high insulative material
- incombustible material
- industrial materials
- inorganic material
- insulating materials
- isotropic material
- jointing material
- joint-sealing material
- lagging materials
- laminated material
- lime-containing material
- linear-elastic material
- lining material
- load-bearing structural insulating material
- loose fill acoustical material
- loosely packed material
- low-tensile strength material
- maintenance patching material
- manufactured construction materials
- matrix material
- mineral fill material
- moisture-resistant insulating material
- natural mineral material
- near-by material
- noncombustible material
- nonconductive material
- noncreeping material
- nonhazardous material
- one-component material
- organic material
- original raw materials
- orthotropic material
- packaged material
- packaged dry concrete materials
- parent material
- phase change materials
- plastic material
- poultice material
- pozzolanic material
- prebagged material
- prebatched material
- radioactive material
- raw materials
- reactive silica material
- recycled material
- release material
- repair materials
- resilient materials
- restoration materials
- road materials
- rock material
- roofing material
- sealing material
- sheet acoustical material
- solar cell roofing material
- solid material
- sound material
- sound absorbent material
- sound-deadening material
- sound insulation material
- sparkle material
- sprayed-on material
- sticky material
- strain-hardening material
- structural materials
- synthetic material
- synthetic resinous material
- thermal insulating material
- toxic material
- trim materials
- unrefined raw materials
- vibration-damping material
- walling material
- waterproofing material
- waterproof material
- water-repellent material -
14 Le Chatelier, Henri Louis
SUBJECT AREA: Metallurgy[br]b. 8 November 1850 Paris, Franced. 17 September 1926 Miribel-les-Echelle, France[br]French inventor of the rhodium—platinum thermocouple and the first practical optical pyrometer, and pioneer of physical metallurgy.[br]The son of a distinguished engineer, Le Chatelier entered the Ecole Polytechnique in 1869: after graduating in the Faculty of Mines, he was appointed Professor at the Ecole Supérieure des Mines in 1877. After assisting Deville with the purification of bauxite in unsuccessful attempts to obtain aluminium in useful quantities, Le Chatelier's work covered a wide range of topics and he gave much attention to the driving forces of chemical reactions. Between 1879 and 1882 he studied the mechanisms of explosions in mines, and his doctorate in 1882 was concerned with the chemistry and properties of hydraulic cements. The dehydration of such materials was studied by thermal analysis and dilatometry. Accurate temperature measurement was crucial and his work on the stability of thermocouples, begun in 1886, soon established the superiority of rhodium-platinum alloys for high-temperature measurement. The most stable combination, pure platinum coupled with a 10 per cent rhodium platinum positive limb, became known as Le Chatelier couple and was in general use throughout the industrial world until c. 1922. For applications where thermocouples could not be used, Le Chatelier also developed the first practical optical pyrometer. From hydraulic cements he moved on to refractory and other ceramic materials which were also studied by thermal analysis and dilatometry. By 1888 he was systematically applying such techniques to metals and alloys. Le Chatelier, together with Osmond, Worth, Genet and Charpy, was a leading member of that group of French investigators who established the new science of physical metallurgy between 1888 and 1900. Le Chatelier was determining the recalescence points in steels in 1888 and was among the first to study intermetallic compounds in a systematic manner. To facilitate such work he introduced the inverted microscope, upon which metallographers still depend for the routine examination of polished and etched metallurgical specimens under incident light. The principle of mobile equilibrium, developed independently by Le Chatelier in 1885 and F.Braun in 1886, stated that if one parameter in an equilibrium situation changed, the equilibrium point of the system would move in a direction which tended to reduce the effect of this change. This provided a useful qualitative working tool for the experimentalists, and was soon used with great effect by Haber in his work on the synthesis of ammonia.[br]Principal Honours and DistinctionsGrand Officier de la Légion d'honneur. Honorary Member of the Institute of Metals 1912. Iron and Steel Institute Bessemer Medal.Further ReadingF.Le Chatelier, 1969, Henri Le Chatelier.C.K.Burgess and H.L.Le Chatelier, The Measurement of High Temperature.ASDBiographical history of technology > Le Chatelier, Henri Louis
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analysis — /euh nal euh sis/, n., pl. analyses / seez /. 1. the separating of any material or abstract entity into its constituent elements (opposed to synthesis). 2. this process as a method of studying the nature of something or of determining its… … Universalium
physical science — physical scientist. 1. any of the natural sciences dealing with inanimate matter or with energy, as physics, chemistry, and astronomy. 2. these sciences collectively. [1835 45] * * * Introduction the systematic study of the inorganic world … Universalium
Dynamical system — This article is about the general aspects of dynamical systems. For technical details, see Dynamical system (definition). For the study, see Dynamical systems theory. Dynamical redirects here. For other uses, see Dynamics (disambiguation). The… … Wikipedia