ライフサイエンスコーパス: megapascal

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1 as low as 0.0004 at pressures as high as 7.5 megapascals.

2 , we achieve yarn strengths greater than 460 megapascals.

3 he pressure of the melt by approximately 500 megapascals.

4 strength of the graphene fiber reaches 1080 megapascals.

5 meters, with a triggering threshold of ~0.07 megapascals.

6 cals-higher than mammalian muscle (about 0.3 megapascals) and comparable to ceramic piezoelectric act

7 to ceramic piezoelectric actuators (about 40 megapascals)-and strains of about 0.6 per cent, operatin

8 ditions of 300 degrees to 350 degrees C, 100 megapascals, and 4 to 5 months in the absence of microbi

9 Young's moduli for NFVB in situ (6.3 MPa [megapascals]) and in vivo (11.8 MPa) were approximately

10 per mil as pressure increases from 15 to 800 megapascals at 380 degrees C.

11 red modulus for an ultralight material (12.3 megapascals at a density of 7.2 milligrams per cubic cen

12 give static stress drop estimates (~12 to 15 megapascals) compatible with theoretical radiation effic

13 ed to a leaf water potential (psi w) of -2.0 megapascal during vegetative growth.

14 esistance of the ground to penetration of >4 megapascals, equivalent to >2 megapascal uniaxial compre

15 to generate mechanical stresses of about 17 megapascals-higher than mammalian muscle (about 0.3 mega

16 We infer that an increase of >1 megapascal in pore pressure in rocks with low compressib

17 xceeding 2000 hours at 750 degrees C and 100 megapascals in air, and resistance to oxidation in air w

18 stem water potentials of approximately -1.2 megapascals in drought experiments.

19 study had a threshold strength of 482 +/- 20 megapascals, in fair agreement with the theory.

20 tor can generate contractile stress up to 27 megapascals, lift objects 380 times heavier than itself,

21 thin the orbit ranged between +0.25 and -1.4 MegaPascal (MPa) for tympanic rupture, +3 and -1 MPa for

22 the canine corneal strips was 1.54 +/- 0.43 megapascal (MPa).

23 h and fracture toughness [ approximately 200 megapascals (MPa) and approximately 30 MPa.m(1/2)] repre

24 oli strain MG1655 at pressures of 68 to 1680 megapascals (MPa) in diamond anvil cells.

25 tensile modulus, for example, from 800 to 20 megapascals (MPa), upon exposure to a chemical regulator

26 newtons [N]) and tooth pressures (718-2,974 megapascals [MPa]) promoting crack propagation in bones,

27 hydrostatic pressure mimicking shallow (0.1 megapascal or MPa) and deep-sea (5-15 MPa; representativ

28 fficients of mu < 0.002 at pressures up to 5 megapascals or more, has to date not been attained in an

29 ic pressure of the cell sap declined by 0.14 megapascal over 5 hours.

30 emperatures and a Clapeyron slope of about 6 megapascal per kelvin.

31 s C and elevated pressures (50, 100, and 200 megapascals) revealed a facile, pressure-enhanced synthe

32 th a relatively high stress drop of about 20 megapascals, showing that large stresses can accumulate

33 At 400°C and 40 megapascals, the in situ pH of the fluids, ranging from

34 etration of >4 megapascals, equivalent to >2 megapascal uniaxial compressive strength.

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