ライフサイエンスコーパス: tensile stress

1 s that rotate towards a direction of maximum tensile stress.

2 n graphene monolayers under tunable uniaxial tensile stress.

3 after a period of plastic deformation under tensile stress.

4 d to high shear stress and some, albeit low, tensile stress.

5 ere they are often subjected to considerable tensile stress.

6 cell type specific expression in response to tensile stress.

7 limited by both the contact duration and the tensile stress.

8 h 600-grit on the surface to be subjected to tensile stress.

9 rate of bond formation or low resistance to tensile stress.

10 and resisted by interleaflet frictional and tensile stresses.

11 ses of articular cartilage to compressive or tensile stresses.

12 s (9300 J m(-3) ), extensibility (800%), and tensile stress (2 MPa).

13 pressive buckling should not occur given the tensile stresses across the epidermis.

14 inas without MG have decreased resistance to tensile stress and are softer than controls.

15 nship between cell density and intercellular tensile stress and forces the tissue into a nonmotile st

16 le electrocyclic ring-opening reaction under tensile stress and thus allows us to directly and locall

17 icrotubule arrays, which align along maximal tensile stresses and restrict growth in that direction t

18 ound inducibility, activation in response to tensile stress, and quantitative expression levels.

19 he contact (ring, or cone cracks), driven by tensile stresses; and "quasi-plastic" mode, a relatively

20 growth in the sepal can generate transverse tensile stress at the tip.

21 n bi-axial fatigue is attributed to enhanced tensile stresses at the trailing edges of a moving inden

22 sively cross-linked bundles withstood higher tensile stresses before failing.

23 embranes demonstrated higher antifouling and tensile stress (by 31%) when compared to pure PES membra

24 rsial is the experimental finding that large tensile stresses, close to 1 GPa, develop during isother

25 chains from the cellulose surfaces under the tensile stress component normal to the macrofibrils can

26 resistance of lithiated Si by lessening the tensile stress concentrations in Si structures.

27 not inconceivable that these localized high tensile stresses could initiate cracks which diverge mon

28 Tensile stress data are measured on PDMS with various su

29 ws that microtubules align along the maximal tensile stress direction within the cells, and atomic fo

30 steel and highly tolerant to compressive and tensile stresses due to chemical bonding to the substrat

31 ovides great possibilities for generation of tensile stress during femtosecond laser ablation to roll

32 om passive linear deformation in response to tensile stress exerted by centripetal contraction of the

33 ly influenced by the ratio of compressive to tensile stresses experienced during each cycle.

34 n of myosin light chain kinase, and enhanced tensile stress fibers.

35 nthesis and alignment in the presence of the tensile stress field generated by a wound contraction pr

36 o nanometric substrate patterning and cyclic tensile stress for 2 days.

37 s, based on the interactions between thermal tensile stress, fracture and ice wedges.

38 In highly evolved rifts, tensile stresses from far-field plate motions accumulate

39 We suggest that tensile stresses imposed by fluid shear stretch endothel

40 ubule alignment along growth-derived maximal tensile stress in adjacent cells would mechanically isol

41 ther supported a contribution of anisotropic tensile stress in division plane orientation.

42 nd differential growth prescribe directional tensile stress in that region, we tested the putative co

43 ls is prevented, the turgor pressure and the tensile stress in the cell wall are reduced by continued

44 ed, resulting in substantial increase of the tensile stress in the lipid bilayer.

45 rface debonding is initiated by the residual tensile stress in the superlayer, and where the interfac

46 reduction in significant levels of residual tensile stresses in the graphite that are 'frozen-in' fo

47 rtening of the molecule that translates into tensile stresses in the range of several to almost 100 M

48 milar elastic media subjected to an inclined tensile stress, in which stochastic descriptions of mole

49 irely controlled by electronic factors, with tensile stress inducing stronger binding.

50 Here tensile stress is created in thin films of potassium (up

51 ng experiments to probe the effects of large tensile stress is difficult.

52 ar stacking of "hard" and "soft" layers, the tensile stress is first accommodated by a large deformat

53 p evolution due to in-plane and out-of-plane tensile stresses is validated by photoluminescence (PL)

54 We suggest, therefore, that water-generated tensile stresses may play a role in living collagen-base

55 to RFUVA, and then subjected to destructive tensile stress measurements.

56 Predictions of localized tensile stress near nanoscale ridges at the metal-film i

57 achieve super-strong mechanical properties (tensile stress of 1.45 MPa, tensile strain of approximat

58 The maximum tensile stress of the optimal hybrid construct was 3.42

59 Microtubule stretch was negligible up to tensile stresses of approximately 1 MPa.

60 s propose that division plane orientation by tensile stress offers a general rule for symmetric cell

61 Myosin motors generate both compressive and tensile stresses on F-actin and consequently induce larg

62 Tensile stresses on south polar fractures are expected t

63 Thermal tensile stress perpendicular to the laser scanning direc

64 seful to resist undue circumferential venous tensile stress produced in AV grafting.

65 Polymer cold-drawing is a process in which tensile stress reduces the diameter of a drawn fibre (or

66 ite element modeling is used to evaluate the tensile stresses responsible for the different crack typ

67 The tensile stress-strain behavior of bone along its longitu

68 The tensile stress-strain curve of bovine bone is modeled us

69 Tensile stress-strain curves and polarization light micr

70 ociation rates as well as high resistance to tensile stress, supporting slow movement of platelets in

71 In this model, we considered the maximum tensile stress tangential to the interfacial surface, as

72 inages in 2011-2013, each of which generates tensile stresses that promote hydro-fracture beneath the

73 In areas of the plant subject to tensile stress, the repression exerted by the negative r

74 muscle cells (SMCs) are exposed to shear and tensile stresses, this study examined the effects of the

75 sordered patterns, as well as the buildup of tensile stress throughout the tissue.

76 mechanical stability of nanobeams under high tensile stress to minimize thermal buckling effects, the

77 e arrays remain intact and able to withstand tensile stresses up to temperatures around 370 K.

78 a curving path to a place and time where the tensile stress was insufficient to continue the propagat

79 Residual tensile stresses were calculated for SC and FC specimens

80 m albumin (BSA) resulted in reversible large tensile stresses, whereas MCs with smooth gold surfaces

81 ever bends due to the induced compressive or tensile stresses, which result from the surface free ene

82 n the load-bearing capacity to be diminished tensile stresses within the lower-modulus graded zone, c