ライフサイエンスコーパス: shear thinning

1 tress fluids, materials that exhibit extreme shear thinning.

2 study reveals rich RBC dynamics that govern shear thinning.

3 ereby eliminating layering as the driver for shear thinning.

4 ereas the other is strongly viscoelastic and shear thinning.

5 and organics) making the material remarkably shear thinning.

6 te the gel stiffness, stress relaxation, and shear thinning.

7 that the resulting hydrogel is rigid but is shear-thinning.

8 This extensional flow is promoted by shear thinning, a typical property of complex fluids.

9 he addition of both terminal domains exhibit shear-thinning, a property which native spidroins also s

10 rovement in shear intensity, symbolizing the shear-thinning action of flour upon germination.

11 d that there is a strong correlation between shear thinning and a two-particle measure of the shear s

12 twork junction functionality results in less shear thinning and broken bonds, originating from the lo

13 nts on SWNT/p-PNCPA aqueous suspensions show shear thinning and near Newtonian behavior at 10 and 50

14 sembled 3D-printable hydrogels with suitable shear thinning and rapid self-healing properties.

15 atic ink exhibits dynamic properties such as shear thinning and self-healing, enabling direct writing

16 Colloidal suspensions exhibit shear thinning and shear thickening.

17 of the neutrophil needs to incorporate both shear thinning and surface viscosity to remain valid ove

18 the particle configurations associated with shear thinning and thickening cast doubt on that conclus

19 nglement and DNA hybridization, resulting in shear-thinning and cyclic strain properties.

20 3 wt %) in cell culture media and undergoes shear-thinning and rapid self-healing.

21 trusion pressure, showed 90% cell viability, shear-thinning and rapid shear recovery properties makin

22 and gel strength, but also leads to special shear-thinning and recovery properties of the hydrogel.

23 ough coiled-coil interactions promotes rapid shear-thinning and self-healing behavior, rendering the

24 fabrication of self-assembled hydrogels with shear-thinning and self-healing properties employing rat

25 Shear-thinning and self-healing steroid-drug-based hydro

26 Because of properties such as shear-thinning and self-healing, assemblies can be proce

27 all four gels were observed to be reversibly shear-thinning and self-healing.

28 ralized Newtonian liquids, encompassing both shear-thinning and shear-thickening behaviors.

29 have like non-Newtonian fluids, showing both shear-thinning and shear-thickening responses, which can

30 Also, shearing flow testing showed shear-thinning and thixotropic behaviors, which are shar

31 ffects on particle settling within quiescent shear-thinning and viscoelastic (non-Newtonian) fluids f

32 ons in settling velocity are due to both the shear-thinning and viscoelastic properties of the fluid.

33 All of the networks exhibit shear thinning, and the dangling chain fraction increase

34 otection for laminates is optimized by using shear-thinning, and not shear-thickening, fluids.

35 roperties such as stretchability, ductility, shear-thinning, and thixotropy.

36 his work, we demonstrate that a viscoelastic shear-thinning aqueous xanthan gum solution drives the s

37 s, the plateau force exhibited a significant shear thinning as indicated by a weak power-law dependen

38 of two distinct relaxation processes through shear-thinning at low shear rates and shear-thickening a

39 ose, Abroma augusta mucilage (AAM) exhibited shear thinning behavior (following power law equation) a

40 These networks have shear thinning behavior and sufficiently high elastic sh

41 All samples showed shear thinning behavior and were characterized as weak g

42 However, the shear thinning behavior of frozen dessert was improved b

43 We focus on the shear thinning behavior, shape retention, and ink blocka

44 nks with better printability exhibit greater shear thinning behavior, yield shear strength, shape ret

45 s with reduced storage moduli but retain the shear-thinning behavior and consistent mechanical recove

46 This class of hydrogels exhibits shear-thinning behavior and rapid recovery of mechanical

47 nonstationary condition, exhibits power-law, shear-thinning behavior and scales exponentially with sa

48 One-day germination improved shear-thinning behavior and viscoelastic moduli in germi

49 Rheological studies highlighted improved shear-thinning behavior at 5 kGy, while higher doses wea

50 The shear-thinning behavior of the mucilage-betalain solutio

51 The viscosity of Ni flake ink yields shear-thinning behavior that is distinct from that of sc

52 a yield stress where deposition occurs; (ii) shear-thinning behavior that promotes channel formation

53 Meanwhile, higher viscosity and shear-thinning behavior were observed in conjugate-based

54 All starch gels exhibited shear-thinning behavior with dominant elastic properties

55 e modified starches exhibited non-Newtonian, shear-thinning behavior with stronger gel elasticity.

56 mer conversion to be tracked in spite of the shear-thinning behavior, and could be applied to study t

57 The hydrogel showed pronounced shear-thinning behavior, and was injectable.

58 These gels display shear-thinning behavior, followed by a rapid structural

59 Although both pectin samples showed shear-thinning behavior, pectin-MAE exhibited higher ant

60 Both emulsions had non-Newtonian and shear-thinning behavior.

61 lows are modeled as gels, where yielding and shear-thinning behaviors arise from inter-particle attra

62 ments revealed that all flour samples showed shear thinning behaviour (n < 1).

63 Rheological analysis displayed shear thinning behaviour of nano starch samples as evalu

64 cal measurement results, NG depicted similar shear thinning behaviour to gelatine, within shear rates

65 OLs demonstrated shear thinning behaviour, displaying an order of magnitu

66 d improved rheological properties, including shear-thinning behaviour [flow index (alpha < 1)].

67 The resulting CSPP HIPPEs exhibited shear-thinning behaviour and the flexibility to switch b

68 ar regime, the aggregation flows, exhibiting shear-thinning behaviour with a stress load that is comp

69 They exhibit a shear-thinning behaviour, an intense aggregation tendenc

70 all four of the C-trim dispersions exhibited shear-thinning behaviours, which could be best described

71 que for nonequilibrium systems, we show that shear thinning can be decoupled from layering, thereby e

72 ibed as a self-similar elastic object with a shear-thinning damping term and a stiffness that becomes

73 sotropic microchannel walls and the enhanced shear thinning degree of large graphene oxide sheets in

74 The embolic efficacy of the shear-thinning ECM-based hydrogel is shown in a porcine

75 ects) and wall- (due to fluid elasticity and shear thinning effects) directed elastic lift forces.

76 nt viscosity that appropriately accounts for shear-thinning effects.

77 hydrogel with single-syringe injectability, shear-thinning feature, and self-healing capability offe

78 75 min HIU and MTGase catalysis exhibited a shear-thinning flow behavior, superior thermal stability

79 Blood is a non-Newtonian, shear-thinning fluid owing to the physical properties an

80 shown to be consistent with a non-Newtonian, shear-thinning fluid.

81 It is also a non-Newtonian, shear-thinning fluid.

82 on-Newtonian fluids such as Boger fluids and shear thinning fluids.

83 viscosity, Newtonian fluids to viscoelastic, shear-thinning fluids having much larger zero-shear visc

84 lose to that of water and exhibit negligible shear thinning, focusing occurs over a wide range of ela

85 ortia by utilizing a temperature-responsive, shear-thinning hydrogel to compartmentalize organisms in

86 Here, we encapsulated T-5224 in a shear-thinning hydrogel with antiadhesion properties for

87 e, we engineered innovative cell-instructive shear-thinning hydrogels (STHs) with tunable viscoelasti

88 Shear-thinning, injectable hyaluronic acid (HA) hydrogel

89 een association domains, these hydrogels are shear-thinning, injectable, and self-healing.

90 ates a tapered angle optimized for extruding shear-thinning inks and a pointed tip suitable for const

91 Shear thinning is intimately related to the dynamics and

92 We report that shear thinning is not due to cellular deformation as pre

93 ologic temperature is a highly viscoelastic, shear-thinning liquid suspension consisting of lipid lam

94 Dispersed in a custom-designed shear-thinning matrix formulated with hyaluronic acid (H

95 All samples exhibited shear thinning non-Newtonian behaviour.

96 e the use of a non-eutectic Ga-In alloy as a shear-thinning non-Newtonian fluid to offer superior per

97 Shear thinning of associative polymers is tied to bond b

98 Shear thinning of supramolecular bonds allows hydrogel i

99 lain this peculiar observation by the strong shear thinning of the confined fluid and the osmotic rep

100 results can be interpreted as an interfacial shear thinning of the polymers with an increasing relaxa

101 suggest that the hypermotile V is caused by shear thinning of the resistive population of strongly b

102 smaller than those of the FISP, those of the shear-thinning precursor are several times larger than t

103 ion and cell viability are unaffected by the shear thinning process and gel/cell constructs stay fixe

104 The unique shear thinning properties of CNF gel enables the printin

105 The rheological shear-thinning properties of the ink are critical to mak

106 All samples exhibited notable shear-thinning properties.

107 s observed in these hydrogels suggesting the shear thinning property of hydrogels.

108 Utilizing the shear-thinning property of DNA hydrogels as a novel sacr

109 nts demonstrate satisfactory behavior in the shear thinning range of shear rates and the shear range

110 These bioinks are shear thinning, resist cell sedimentation, improve viabi

111 Using this shear-thinning response to describe the viscous element

112 croscopic single-particle dynamics show that shear thinning results from the decreased relative contr

113 organoids with magnetic nanoparticles and a shear-thinning, self-healing support hydrogel for mainta

114 e best-fitted model, and the formulation was shear-thinning since the flow behavior index (n) was obs

115 Agar is non-Newtonian and is subject to shear-thinning so that its viscosity greatly increases a

116 ming is enhanced by an order of magnitude in shear-thinning (ST) polymeric fluids relative to Newtoni

117 even models with both surface viscosity and shear thinning studied are still not sufficient to fully

118 In shear flow, the transition from shear-thinning to shear-independent flow revealed a prof

119 nally, we scale the critical shear rates for shear-thinning using a Peclet number analysis-invoking a

120 ll adhesion complex system reveals a passive shear-thinning viscoelastic behavior and a rate-dependen

121 fficiently through environments that contain shear-thinning viscoelastic fluids, such as the extracel

122 e terminal settling velocity of particles in shear-thinning, viscoelastic fluids up to sphere-to-tube

123 Shear-thinning was observed in the viscosity data at hig

124 simple Newtonian fluid (i.e., models without shear thinning) were grossly incapable of accounting for

125 uest-host interactions, undergo disassembly (shear-thinning) when injected through a syringe and then

126 The rapid fusion manifests extreme shear thinning, where the apparent viscosity is lower th

127 bserve a difference in complex viscosity and shear thinning with opposite MWD skew.