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1 bending formula
- bending formula
- n
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
Англо-русский словарь строительных терминов > bending formula
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2 bending formula
English-German dictionary of Architecture and Construction > bending formula
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3 bending formula
Строительство: формула изгиба -
4 bending formula
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5 Bending formula
வளையற் சூத்திரம் -
6 BENDING FORMULA
English-Arabic construction engineering dictionary > BENDING FORMULA
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7 formula
- formula
- n1. формула, уравнение
2. состав, композиция
- Allen-Hazen formula
- approximation formula
- beam design formula
- bending formula
- calculation formula
- Chézy formula
- Converse-Labarre formula
- Darcy formula
- deflection formula
- design formula
- Dörr's formula
- driving formula
- dynamic pile-capacity formula
- dynamic pile-driving formula
- efficiency formula
- empirical formula
- Engineering News formula
- Euler formula
- flexure formula
- Hiley's formula
- job-mix formula
- mortar formula
- pile driving formula
- rational pile formula
- recurrence formula
- weir formula
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
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8 formula
1) формула (химическая, математическая)2) состав, композиция3) шаблон, стереотип•- average end area formula - bending formula - Chezy formula - column formula - Converse-Labarre formula - Darcy formula - design formula - empirical formula - Euler formula - hammer-size formula - Hiley's formula - mortar formula - pile capacity formula - rectibolic formula - straightline formula - weir formula* * *1. формула, уравнение2. состав, композиция- Allen-Hazen formula
- approximation formula
- beam design formula
- bending formula
- calculation formula
- Chézy formula
- Converse-Labarre formula
- Darcy formula
- deflection formula
- design formula
- Dörr's formula
- driving formula
- dynamic pile-capacity formula
- dynamic pile-driving formula
- efficiency formula
- empirical formula
- Engineering News formula
- Euler formula
- flexure formula
- Hiley's formula
- job-mix formula
- mortar formula
- pile driving formula
- rational pile formula
- recurrence formula
- weir formula -
9 bending loss formula
Англо-русский словарь промышленной и научной лексики > bending loss formula
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10 формула изгиба
Русско-английский словарь по строительству и новым строительным технологиям > формула изгиба
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11 buigingsformule
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12 формула изгиба
Construction: bending formula, flexure formula -
13 Biegeformel
Biegeformel f bending formula, flexure formulaDeutsch-Englisch Fachwörterbuch Architektur und Bauwesen > Biegeformel
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14 элемент на изгиб
элемент, работающий на изгиб — member in bending
Русско-английский военно-политический словарь > элемент на изгиб
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15 आकृष्टि
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16 simple
1) простой
2) несложный
3) нещелевой
4) элементарный
5) однобережный
– not simple
– simple algebra
– simple beam
– simple bending
– simple connectivity
– simple curve
– simple cusp
– simple distillation
– simple equation
– simple fraction
– simple framework
– simple function
– simple gearing
– simple group
– simple harmonic
– simple in design
– simple indexing
– simple lens
– simple loading
– simple motion
– simple ordering
– simple pendulum
– simple root
– simple sampling
– simple shear
– simple stress
– simple switchboard
– simple to operate
abscissa of simple convergence — абсцисса простой сходимости
simple abnormal curve — <math.> кривая анормальная симметричная
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17 आकृष्टिः _ākṛṣṭiḥ
आकृष्टिः f.1 Attraction (in general).-2 Attrac- tion, gravitation (in astr.); आकृष्टिशक्तिश्च मही तया यत् खस्थं गुरु स्वाभिमुखं स्वशक्त्या । आकृष्यते तत्पततीव भाति समे समन्तात् क्व पतत्वियं खे ॥ Golādh.1.-3 Drawing or bending of a bow; ज्या˚ Amaru.1.-4 (Tantric texts) Attracting an absent person by a magic formula.-Comp. -मन्त्रः an incantation by which another person is attracted; आकृष्टिमन्त्रोपमम् H.1.93. -
18 भङ्गः _bhaṅgḥ
भङ्गः [भञ्ज्-भावादौ घञ्]1 Breaking, breaking down, shattering, tearing down, splitting, dividing; भङ्गः स जिष्णोर्धृतिमुन्ममाथ Ki.17.29. वार्यर्गलाभङ्ग इव प्रवृत्तः R.5.45.-2 A break, fracture, breach.-3 Plucking off, lopping; आम्रकलिकाभङ्ग Ś.6.-4 Separation, analysis.-5 A por- tion, bit, fragment, detached portion; पुष्पोच्चयः पल्लवभङ्गभिन्नः Ku.3.61; R.16.16.-6 Fall, downfall, decay, destruc- tion, ruin; as in राज्य˚, सत्त्व˚ &c.-7 Breaking up, dis- persion; यात्राभङ्ग Māl.1.-8 Defeat, overthrow, discom- fiture, rout; भग्ने भग्नमवाप्नुयात् Pt.4.41; प्रसभं भङ्गमभङ्गुरोदयः (नयति) Śi.16.72.-9 Failure, disappointment, frustra- tion; तत्पूर्वभङ्गे वितथप्रयत्नः R.2.42. (v. l.); आशाभङ्ग &c.-1 Rejection, refusal; अभ्यर्थनाभङ्गभयेन साधुर्माध्यस्थमिष्टे$- प्यवलम्बते$र्थे Ku.1.52.-11 A chasm, fissure.-12 Inter- ruption, obstacle, disturbance; निद्रा˚, गति˚ Ki.17.29.-13 Non-performance, suspension, stoppage.-14 Taking to flight, flight.-15 (a) A bend, fold. (b) A wave; क्षौमे भङ्गवती तरङ्गतरले फेनाम्बुतुल्ये वहन् Nāg.5.2; ज्वालाभङ्गैः (= Wavelike flames) Nāg.5.21.-16 Contraction, bending, knitting; ग्रीवाभङ्गाभिरामम् Ś1.7; so भ्रूभङ्ग U.5.36.-17 Going, motion.-18 Paralysis.-19 Fraud, deceit.-2 A canal, water-course.-21 A circumlocutory or round-about way of speaking or acting; see भङ्गि.-22 Hemp.-23 (With Buddhists) The constant decay taking place in the universe; constant change.-24 (With Jainas) A dialectical formula beginning with स्यात्.-Comp. -नयः removal of obstacles.-वासा turmeric.-सार्थ a. dishonest, fraudulent. -
19 भङ्ग
bhaṅgámfn. breaking, bursting (said of the Soma) RV. IX, 61, 13 ;
m. breaking, splitting, dividing, shattering, breaking down orᅠ up VS. etc. etc.;
a break orᅠ breach (lit. andᅠ fig.), disturbance, interruption, frustration, humiliation, abatement, downfall, decay, ruin, destruction Mn. MBh. etc.;
fracture ( seeᅠ asthi-bh-);
paralysis, palsy L. ;
bending, bowing, stretching out ( seeᅠ karṇa-, gātra-, - grīvā-bh-);
knitting, contraction ( seeᅠ bhrū-bh-);
separation, analysis (of words) Sāh. ;
overthrow, rout, defeat ( alsoᅠ in a lawsuit) Hit. Kām. Yājñ. Sch. ;
rejection, refusal Kālid. ;
refutation Sarvad. ;
panic, fear Rājat. ;
pain ( seeᅠ pārṡva-bh-);
a piece broken off, morsel, fragment Kālid. Kād. ;
a bend, fold, Sah. (cf. vastra-bh-);
a wave Ragh. Gīt. ;
+ cf. Lith. bangá
a water-course, channel L. ;
fraud, deceit L. ;
a tortuous course, roundabout way of speaking (= orᅠ w.r. for bhaṅgi) Sarvad. ;
toilet, fashion (for bhaṅgi?) Var. ;
= gamana L. ;
N. of a serpent-demon MBh. ;
(with Buddhists) the constant decay taking place in the universe, constant flux orᅠ change;
(with Jainas) a dialectical formula beginning with syāt q.v.;
( bhaṅgá) m. hemp AV. ;
(ā) f. seeᅠ below
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20 Wöhler, August
SUBJECT AREA: Metallurgy[br]b. 22 June 1819 Soltau, Germanyd. 21 June 1914 Hannover, Germany[br]German railway engineer who first established the fatigue fracture of metals.[br]Wöhler, the son of a schoolteacher, was born at Soltau on the Luneburg Heath and received his early education at his father's school, where his mathematical abilities soon became apparent. He completed his studies at the Technical High School, Hannover.In 1840 he obtained a position at the Borsig Engineering Works in Berlin and acquired there much valuable experience in railway technology. He trained as an engine driver in Belgium and in 1843 was appointed as an engineer to the first Hannoverian Railway, then being constructed between Hannover and Lehrte. In 1847 he became Chief Superintendent of rolling stock on the Lower Silesian-Brandenhurg Railway, where his technical abilities influenced the Prussian Minister of Commerce to appoint him to a commission set up to investigate the reasons for the unusually high incidence of axle failures then being encountered on the railways. This was in 1852, and by 1854, when the Brandenburg line had been nationalized, Wöhler had already embarked on the long, systematic programme of mechanical testing which eventually provided him with a clear insight into the process of what is now referred to as "fatigue failure". He concentrated initially on the behaviour of machined iron and steel specimens subjected to fluctuating direct, bending and torsional stresses that were imposed by testing machines of his own design.Although Wöhler was not the first investigator in this area, he was the first to recognize the state of "fatigue" induced in metals by the repeated application of cycles of stress at levels well below those that would cause immediate failure. His method of plotting the fatigue stress amplitude "S" against the number of stress cycles necessary to cause failure "N" yielded the well-known S-N curve which described very precisely the susceptibility to fatigue failure of the material concerned. Engineers were thus provided with an invaluable testing technique that is still widely used in the 1990s.Between 1851 and 1898 Wöhler published forty-two papers in German technical journals, although the importance of his work was not initially fully appreciated in other countries. A display of some of his fracture fatigue specimens at the Paris Exposition in 1867, however, stimulated a short review of his work in Engineering in London. Four years later, in 1871, Engineering published a series of nine articles which described Wöhler's findings in considerable detail and brought them to the attention of engineers. Wöhler became a member of the newly created management board of the Imperial German Railways in 1874, an appointment that he retained until 1889. He is also remembered for his derivation in 1855 of a formula for calculating the deflections under load of lattice girders, plate girders, and other continuous beams resting on more than two supports. This "Three Moments" theorem appeared two years before Clapeyron independently advanced the same expression. Wöhler's other major contribution to bridge design was to use rollers at one end to allow for thermal expansion and contraction.[br]Bibliography1855, "Theorie rechteckiger eiserner Brückenbalken", Zeitschrift für Bauwesen 5:122–66. 1870, "Über die Festigkeitversuche mit Eisen und Stahl", Zeitschrift für Bauwesen 20:73– 106.Wöhler's experiments on the fatigue of metals were reported in Engineering (1867) 2:160; (1871) 11:199–200, 222, 243–4, 261, 299–300, 326–7, 349–50, 397, 439–41.Further ReadingR.Blaum, 1918, "August Wöhler", Beiträge zur Geschichte der Technik und Industrie 8:35–55.——1925, "August Wöhler", Deutsches biographisches Jahrbuch, Vol. I, Stuttgart, pp. 103–7.K.Pearson, 1890, "On Wöhler's experiments on alternating stress", Messeng. Math.20:21–37.J.Gilchrist, 1900, "On Wöhler's Laws", Engineer 90:203–4.ASD
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