ライフサイエンスコーパス: creep

1 d range expansion has been termed 'Caribbean Creep'.

2 bility to vancomycin are emerging (i.e., MIC creep).

3 xtended slowly in vitro under constant load (creep).

4 ediated deformation (for example, Coble-type creep).

5 serves as a stimulus to surface diffusional creep.

6 r than grain boundary sliding or diffusional creep.

7 in the films and occurs through viscoelastic creep.

8 rce, but not so closely coupled to cell wall creep.

9 and is inconsistent with the concept of MIC creep.

10 , while splay and nanoparticles inhibit flux creep.

11 to a factor of 1000 during uniaxial tensile creep.

12 en strain rate and segmental mobility during creep.

13 e sliding behaviour is consistent with fault creep.

14 these findings and no evidence of diastolic creep.

15 study under more extreme conditions, such as creep.

16 eing an indirect effect mediated by aseismic creep.

17 continuous displacement, due to viscoelastic creep.

18 tching field to pinning-potential-determined creep above it.

19 fruit and in ripe pear, avocado, and pepper, creep activity in ripe tomato showed qualitative differe

20 f fruit development and while characteristic creep activity was detected in young and developing toma

21 e of large oocytes, suggesting gravitational creep ages oocytes, with fatal consequences on long time

22 nanocrystal stability by surface diffusional creep and dislocation plasticity, respectively, which ex

23 rtz and feldspar relieves stress by aseismic creep and earthquakes are infrequent.

24 s exceptional resistance to high-temperature creep and excellent tolerance to extremely high-dose rad

25 eomorphologic features indicative of viscous creep and hence ground ice have been observed.

26 Total-IVOC emissions from creep and idle operations are substantially higher than

27 he effective activation energy for diffusion creep and lead to a viscosity minimum in the mid-lower m

28 The observed nonlinear relationship of creep and precipitation rates suggests that increased po

29 The magnitudes of creep and relaxation of both HOIPs and IPs are similar,

30 role for xyloglucan) but less extensible in creep and stress relaxation processes mediated by alpha-

31 echanical systems platform, in vitro coupled creep and stress relaxation tests were performed on coll

32 single crystal by measuring nanoindentation creep and stress relaxation.

33 ing cooling, which mechanistically comprises creep and stress relaxation.

34 To examine local contact creep and the effect of surface finishing, we used an in

35 ew clues about designing materials with slow creep and the interplay between material parameters and

36 nite is commonly invoked as the cause of the creep and the low strength of this section of the San An

37 Inconsistent evidence on vancomycin MIC creep and the relevance of the MIC to clinical outcome m

38 equilibrium and non-linear conditions during creep and the transient regime prior to steady flow.

39 s to model the strain behaviour by including creep and this diffusion-controlled phase change.

40 microseismicity related to the accelerating creep and to creep events in the model should be detecta

41 network's plastic deformation also manifests creep and yield regimes depending on the strain rate.

42 model the time scales of stress relaxation, creep, and hysteresis were assessed, and found to be in

43 ese samples exhibit a pronounced increase in creep, and stress relaxation as a function of indentatio

44 ns and pectins elicited greater extension in creep assays of xxt1/xxt2 cell walls compared with wild-

45 4- to 10-kilometer depths and indicate deep creep at 5 to 7 millimeters per year.

46 terferometric synthetic aperture radar favor creep at approximately 7 millimeters per year to the bot

47 tress and high temperature and deformational creep at high stress.

48 ating the predominant regimes of diffusional creep at low stress and high temperature and deformation

49 the creep rate and reversed the direction of creep at positive pipette potentials.

50 and San Juan Bautista in central California creeps at a rate as high as 28 mm yr(-1), and it is also

51 The results of this study indicate that creeping attachment (i.e., soft tissue recovery) might o

52 o additional root coverage was gained due to creeping attachment between 2 and 12 months.

53 o additional root coverage was gained due to creeping attachment between 2 and 6 months for either gr

54 inized tissue; and 4) evaluate the amount of creeping attachment obtained.

55 vements were sustained, suboptimal practices crept back.

56 er from the more traditional viscoelastic or creep-based models in that they incorporate both cell ge

57 Precise, repeatable measurements of corneal creep behavior can be conveniently obtained using MII at

58 Hertzian model that was then used to predict creep behavior for another imposed force.

59 lity resulted, but a significant increase in creep behaviour was observed in the presence of active t

60 ed load' is a dense granular flow bounded by creep below and suspension above.

61 Two variants of creeping bentgrass (Agrostis stolonifera cv palustris),

62 e-specific expression of both genes in rice, creeping bentgrass (Agrostis stolonifera L.) and Arabido

63 ocuments gene flow on a landscape level from creeping bentgrass (Agrostis stolonifera L.), one of the

64 za sativa) miR528 (Osa-miR528) in transgenic creeping bentgrass (Agrostis stolonifera) alters plant d

65 wn patch (Rhizoctonia solani) and stem rust; creeping bentgrass (Agrostis stolonifera) for resistance

66 response to abiotic stress using transgenic creeping bentgrass (Agrostis stolonifera) overexpressing

67 from heterozygous populations of the species creeping bentgrass (Agrostis stolonifera).

68 Most individual creeping bentgrass plants examined are lacking Crs-1.

69 The Crs-1 locus in creeping bentgrass provides a rare example of the evolut

70 the three parental lines used to develop the creeping bentgrass variants.

71 ntified as two putative targets of miR528 in creeping bentgrass.

72 ent land plant lineage and have a flattened, creeping body (the thallus), which grows from apical cel

73 ch fault gouge via dissolution-precipitation creep can explain the reduction in tremor recurrence tim

74 Creep cavitation in an ex-service nuclear steam header T

75 athelicidin LL-37 killing and daptomycin MIC creep compared to non-USA600 MRSA.

76 nitude and directionality of the cytoplasmic creep compliance (Gamma) in confluent cultures of bovine

77 f-magnitude shift in intracellular effective creep compliance and apparent elastic modulus.

78 Creep compliance as a function of time and temperature w

79 ional (3D) matrices, intracellular effective creep compliance of prostate cancer cells is shown to in

80 ndent viscoelastic moduli and time-dependent creep compliance of the cytoplasm.

81 multiple rheological measurements of cells: creep compliance versus time, complex modulus versus fre

82 grain coarsening, under extremely long-term creep conditions.

83 stification of the power law for subcritical creep crack growth, hitherto considered empirical.

84 cipients with deteriorating renal function ("creeping creatinine") secondary to chronic allograft nep

85 With regard to upward creep, defects were of larger extent with the double- th

86 ing' mechanism that resists high-temperature creep deformation in nickel-based superalloys, where spe

87 ffect raises fundamental questions regarding creep deformation mechanisms.

88 Gravitational forces also cause creep displacement of nuclear bodies, resulting in their

89 Our major finding is that postseismic creep dominates the interaction, with earthquake trigger

90 the accumulated polymerases slowly move or 'creep' downstream.

91 chromatin compaction by step-like and slow "creeping" dynamics consistent with a loop-extrusion mech

92 m Aspergillus niger) did not cause cell wall creep, either by itself or in combination with XEG.

93 nase, confirmed the conclusion that to cause creep, endoglucanases must cut both xyloglucan and cellu

94 ity related to the accelerating creep and to creep events in the model should be detectable.

95 e observed in data from compression rate and creep experiments in the collapse region.

96 Creep experiments revealed two opposite rheological beha

97 es to criticality for volcanic eruptions and creep failure.

98 In areas of creeping fat, which characterizes inflammation-affected

99 ion-triggering) and intrinsic (secular fault creep) fault processes can lead to SSEs.

100 d ultramafic rocks have been associated with creeping faults in central and northern California, and

101 Whitehead paradox need be encountered in the creeping flow regime and (ii) the flux of the factor wil

102 ated streamers in a microfluidic device in a creeping flow regime using both experimental observation

103 anding the evolution of biofilm streamers in creeping flows.

104 This creeping fluid flow has been shown to affect the morphol

105 ytometry, membrane thermal fluctuations, and creep followed by cell recovery.

106 sses are relaxed over time and which exhibit creep, for three-dimensional (3D) culture of chondrocyte

107 that coda Q-1 may represent the activity of creep fracture in the ductile part of the lithosphere oc

108 Creeping grains beneath the bed-load layer give rise to

109 Amalgam creep has been identified as a key parameter associated

110 is boundary has higher rates of interseismic creep, has not generated an earthquake with MJ > 7 (loca

111 g particles in the nucleation mode; and (F3) creep-idle conditions, representing traffic congestion a

112 ge of driving cycles (transient, high-speed, creep/idle) on different ultralow sulfur diesel fuels wi

113 Subsurface creep in amalgam consisted of the shape change of the al

114 Here, we report very slow creep in BaFe 2(As0.67P0.33)2 films, and propose the exi

115 Molecular processes of creep in metallic glass thin films are simulated at expe

116 olving the onset of highly localized viscous creep in pre-existing, fine-grained shear zones.

117 deformation and flow processes of amorphous creep in response to stress and thermal activations.

118 pproximately logarithmic in time, similar to creep in solids.

119 vide the connection between serpentinite and creep in the San Andreas fault, if shear at depth can be

120 s thaliana) hypocotyls, where Cel12A induced creep in wild-type but not in xyloglucan-deficient (xxt1

121 This study investigated "creep" in vancomycin and daptomycin MICs among methicill

122 ements of thermally activated vortex motion (creep) in iron-based superconductors unveiled fast rates

123 These results suggest that, due to creep-induced subsurface work-hardening and densificatio

124 iminished unpredictability can allow bias to creep into a trial.

125 Creep is characteristic of disordered solids and reminis

126 Voltage-independent creep is expected from the capillary attraction of E(a)

127 "Creep" is an example from everyday life.

128 culations, we attribute the 600% increase in creep life in a prototypical Mg-rare earth (RE)-Zn alloy

129 nexpected, order of magnitude improvement in creep life of alloys upon adding small amounts of elemen

130 ess, primarily enhances the high-temperature creep life.

131 echanical studies of individual nanowires in creep-like conditions to demonstrate that superplastic-l

132 l velocity can be described with a nonlinear creep-like region and a depinning-like region.

133 e to irradiation damage and high-temperature creep, little is known about the mechanical roles of the

134 (Cucumis sativus) hypocotyl walls to undergo creep (long-term, irreversible extension) in response to

135 Indentation creep manifested as hardness number decreasing with incr

136 ssibility exists that measurable premonitory creep may precede some earthquakes.

137 t cell walls in vitro can extend slowly by a creep mechanism without passive reorientation of innermo

138 e wall extension by a non-hydrolytic polymer creep mechanism.

139 ed-interface technique to examine subsurface creep mechanisms.

140 of surface finishing, we used an indentation creep method in which a Vickers indenter was loaded on t

141 ment that induces wall stress relaxation and creep, mimicking wall behaviours during cell growth.

142 deal, linearly polarizable sphere undergoing creeping motion in viscous medium, we have shown that bo

143 t slips in large earthquakes and by aseismic creep observed along its surface trace.

144 ngs suggest that the viscoelastic stretching/creep of axons caused by tension exerted by the growth c

145 lts from increases in contact area caused by creep of contacting asperities.

146 ad of external-stress relaxation through the creep of non-liquid-crystal transient networks with exch

147 of temperature conditions and the transient creep of olivine, we explain the transient deformation i

148 as the result of water- and stress-activated creep of olivine.

149 ligible creep of the sclera and very gradual creep of the cornea.

150 chanical extensions differ from those during creep of the enzymatically loosened wall.

151 Creep of the polished silver occurred by densification r

152 Low IOP elicited negligible creep of the sclera and very gradual creep of the cornea

153 to evaluate the time-dependent deformation (creep) of a novel silver filling material as an alternat

154 pansins, which are able to induce extension (creep) of plant cell walls.

155 dditionally, we found no correlation between creeping or locked faults and tremor, contrary to predic

156 econd, and that the first of two shocks in a creep- or intrusion-driven swarm triggers the second, wh

157 ike within Kilauea's rift zones coupled with creep over a narrow area of a low-angle fault beneath th

158 Creep penetration experiments with a constant indentatio

159 of bond stiffness via microalloying enhances creep performance of alloys.

160 that deformation of the mechanically unusual creeping portions of the San Andreas fault system is con

161 es during cooling show a good agreement when creep predominates.

162 e link between slab geometry and solid-state creep processes in the mantle.

163 twins, leading to significant improvement in creep properties.

164 y development was the only factor related to creeping proteinuria (hazard ratio, 2.946; 95% confidenc

165 Creeping proteinuria during the first year was associate

166 ths, variation <50%, and increase >/=50% or "creeping proteinuria") (n = 283).

167 Creeping proteinuria, which was present in 35 patients (

168 the seal membrane with low pH decreased the creep rate and reversed the direction of creep at positi

169 luronan, may participate in these changes in creep rate and, in turn, participate in controlling the

170 th applied stress; above that threshold, the creep rate becomes independent of applied stress.

171 at least as early as axial, refractive, and creep rate changes.

172 es; during recovery from induced myopia, the creep rate decreases below normal levels.

173 ce scleral remodeling and changes in scleral creep rate during the development of form deprivation my

174 ress: below a critical stress threshold, the creep rate increases linearly with applied stress; above

175 d levels of the other GAGs, which occur when creep rate is at its peak elevation, and their rapid ret

176 We find a steady-state creep rate of less than 10(-6) per second-six to eight o

177 tly, we observe a biphasic dependence of the creep rate on applied stress: below a critical stress th

178 aracteristics (inversely proportional to the creep rate S) allows the depinning mechanism to be deter

179 s temperature dependence of the steady-state creep rate were observed in data from compression rate a

180 c explanation of the well-known variation of creep rate with stress.

181 A change in scleral extensibility (creep rate) is closely associated with the change in axi

182 le in regulating the biomechanical property (creep rate) of the sclera.

183 A biomechanical property of the sclera, creep rate, increases; during recovery from induced myop

184 n MgB2, as reflected in Jc and in the vortex creep rate, S, the latter being a measure of how fast th

185 resistance at 973 K in terms of the minimal creep rate, which is four orders of magnitude lower than

186 el12A from Hypocrea jecorina) induced a high creep rate.

187 tate, and the previously measured changes in creep rate.

188 rameters, we observe a constant deformation (creep) rate that is linearly proportional to the rate of

189 The difference between current creep rates and the long-term slip rate of approximately

190 s (TiBw), and a decrease of the steady-state creep rates by augmenting the local volume fractions of

191 limits their practical utility; for example, creep rates in nanocrystalline copper are about four ord

192 ged glaucoma eyes had slower circumferential creep rates in the peripapillary sclera than normal eyes

193 cue grass Festuca rubra subsp. rubra (strong creeping red fescue) infected with E. festucae.

194 resistance seen in endophyte-infected strong creeping red fescue.

195 ubilization, beta-expansin treatment induced creep, reduced the breaking force and increased the plas

196 and field-driven domain wall velocity in the creep regime are modified in Pt/Co(0.85-1.0 nm)/Pt thin

197 cities have only been observed so far in the creep regime where domain wall velocities are low due to

198 nced mobility, which remain localized in the creep regime, but grow for applied stresses leading to s

199 roperties of the lower-Tc Nd1111 in the flux-creep regime.

200 High creep resistance and high electrical conductivity are ob

201 cal structure material exhibits the superior creep resistance at 973 K in terms of the minimal creep

202 ent architecture that exhibits a significant creep resistance compared to monolithic Ti6Al4V alloys.

203 a significant improvement of the composites creep resistance due to the network architecture made by

204 rt a novel ferritic alloy with the excellent creep resistance enhanced by coherent hierarchical preci

205 ble structural alloys with high strength and creep resistance for various high-temperature applicatio

206 The degradation of creep resistance in nanocrystalline materials is in part

207 Although the significant improvement of the creep resistance is achieved in the hierarchical-precipi

208 isms lead to a remarkable improvement of the creep resistance of these networked TiBw/Ti6Al4V composi

209 eived great attentions due to their superior creep resistance, as compared to conventional ferritic s

210 sses in other mechanical properties, such as creep resistance, which limits their practical utility;

211 gth combined with extremely high-temperature creep resistance, while maintaining mechanical and therm

212 ure and made it possible to obtain excellent creep resistance.

213 that of Ti6Al4V alloys, indicating a higher creep resistance.

214 The extraordinary creep-resistance of Mg-Nd-based alloys can be correlated

215 operties, and advance the development of the creep resistant materials.

216 s and the fundamental science for developing creep-resistant ferritic alloys.

217 There have been numerous efforts to develop creep-resistant materials strengthened by incoherent par

218 a quantitative link between the macroscopic creep response and the microscopic single-particle dynam

219 le inflation method of measuring the biaxial creep response of ultrathin polymer films.

220 y of EXPB action, we assessed the extension (creep) response of cell walls from diverse monocot famil

221 Creep results in progressive work hardening with disloca

222 Creep-rupture lifetime exceeding 2000 hours at 750 degre

223 rancisco' and 'Los Angeles' repeaters on the creeping section of the San Andreas Fault.

224 Voltage-dependent creep seems to arise from electroosmosis in the seal.

225 equences to constrain friction properties of creeping segments.

226 episodic large earthquakes) to stable (fault creep) sliding at the base of the seismogenic zone.

227 er and lead to processes such as diffusional creep, sliding and rotation.

228 ers concerned with the phenomenon of "myopic creep." Soft contact lens wear by children does not caus

229 imit the range expansion of other 'Caribbean Creep' species.

230 identification of a gene, designated Crs-1 (creeping specific-1), that appears to be in the process

231 A family of inexpensive, Al2O3-forming, high-creep strength austenitic stainless steels has been deve

232 ls from xxt1/xxt2 and wild-type plants using creep, stress relaxation, and stress/strain assays, in c

233 For each specimen, creep testing was performed using two different forces f

234 Creep tests performed at temperatures between 773 K and

235 controlled load-unload tests to 30 mm Hg and creep tests to 15 and 30 mm Hg.

236 Micro-indentation creep tests were performed on porcine TMJ condylar carti

237 exhibits a higher resistance to indentation creep than does amalgam.

238 xhibit an endogenous acid-induced extension (creep) that resembles in various biochemical characteris

239 y using Hertzian viscoelastic formulation of creep, the deformation resulting from sustained-force ap

240 a' phases during stress relaxation, while in creep there is no clear monotonic trend in lattice strai

241 s that they are caused by increased rates of creep thinning rather than by excessive melting.

242 n of domain wall velocities ranging from the creep to the flow regime in Ta/Co40Fe40B20/MgO/TiO2 stru

243 tabilizes them by slowing down gravitational creep to ~2 months.

244 nset is instead a continuous transition from creeping to granular flow.

245 ces an instantaneous deformation followed by creeping to the asymptotic response.

246 nstantaneous deformation followed by gradual creeping to the long-term response.

247 It can be used to identify the creep towards complete antibiotics resistance in bacteri

248 K is not a direct (two-state) process, but a creeping transition that takes place through at least on

249 Patches creep up the pipette over time with voltage independent

250 In the creeping vole, Microtus oregoni, females are X0 and male

251 on (early, middle, and late), whereas upward creep was simulated by uniform shifting throughout the a

252 sappearance of one species of the 'Caribbean Creep' we exposed the non-native crab Petrolisthes armat

253 L.) internodes undergo long-term extension (creep) when placed under tension in acidic buffers.

254 gillus aculeatus) failed to induce cell wall creep, whereas an endoglucanase that hydrolyzes both xyl

255 ld, California, near the southern end of the creeping zone.

256 historical times, separated by a 150-km-long creeping zone.

257 the region of coseismic slip and the up-dip creeping zone.