ライフサイエンスコーパス: mechanical property

1 ired structural materials displays excellent mechanical properties.

2 stimuli, as well as the skin's structure and mechanical properties.

3 eterostructure, as graphene possesses strong mechanical properties.

4 ation task, nor does it affect the whiskers' mechanical properties.

5 intermetallics which compromise join bonds' mechanical properties.

6 izing complex microstructures and beneficial mechanical properties.

7 between expansive growth rate and the wall's mechanical properties.

8 exhibit an array of exceptional optical and mechanical properties.

9 o investigate its loading geometry dependent mechanical properties.

10 organization, and a two fold improvement in mechanical properties.

11 e solid-state packing structure and thus the mechanical properties.

12 by the medium over those associated with its mechanical properties.

13 the scope of existing methods for measuring mechanical properties.

14 eage with functional restoration of gait and mechanical properties.

15 s require an in-depth understanding of their mechanical properties.

16 s respond to environments exhibiting varying mechanical properties.

17 cellent anisotropic electrical, thermal, and mechanical properties.

18 tion of structure rather than measurement of mechanical properties.

19 light can reverse color changes and restore mechanical properties.

20 r architecture, nano-strain, and macro-scale mechanical properties.

21 itecture without affecting their macroscopic mechanical properties.

22 imultaneously customized electromagnetic and mechanical properties.

23 materials with novel structural, optical and mechanical properties.

24 erial should possess excellent aesthetic and mechanical properties.

25 ratios and lack control over the hydrogel's mechanical properties.

26 ue with appropriate structural, chemical and mechanical properties.

27 ed, offer a robust assembly with exceptional mechanical properties.

28 que combinations of electrical, thermal, and mechanical properties.

29 of the dual network structure as well as its mechanical properties.

30 ing coefficient related to the cell size and mechanical properties.

31 tems from its nontoxicity and unique quantum mechanical properties.

32 g electronic, optical, thermal, chemical and mechanical properties.

33 of the scar, very little is known about its mechanical properties.

34 on energy, a high melting point, and desired mechanical properties.

35 t exhibit dramatically different optical and mechanical properties.

36 g of the precipitates and consequent loss of mechanical properties.

37 plications that arise from their fascinating mechanical properties.

38 lattice geometry, interfacial structure, and mechanical properties.

39 tructures of hybrid materials with excellent mechanical properties.

40 sible in large scale and exhibit outstanding mechanical properties.

41 sues and constructs to characterise their 3D mechanical properties.

42 structures, such as electronic structure or mechanical properties.

43 espite their distinct chemical, physical and mechanical properties.

44 lenges due to their secondary caries and low mechanical properties.

45 and granulation tissue area, and normalized mechanical properties after cutaneous injury.

46 These unique mechanical properties allow e-dura to conform to the cir

47 bberellic acid induces a spatial gradient in mechanical properties along the length of the Arabidopsi

48 tomically thin graphene exhibits fascinating mechanical properties, although its hardness and transve

49 se approaches allow for investigation of the mechanical properties and architectures of collagen-base

50 dentin matrices to determine changes to the mechanical properties and biodegradability of the dentin

51 hose hierarchical structure imparts tailored mechanical properties and cycling stability, which is es

52 cross five cellular populations with varying mechanical properties and demonstrate an inverse relatio

53 We probe domain heights and mechanical properties and demonstrate that the gel (lbet

54 The mechanical properties and dimensional stability of impre

55 fects of ZnO particles and heat treatment on mechanical properties and dimensional stability of popla

56 yer directly onto a solid substrate, and its mechanical properties and dynamics at equilibrium were a

57 We have investigated the mechanical properties and energy absorption behavior of

58 how their deformation behaviour, hence their mechanical properties and final configuration for a give

59 Here we investigated the mechanical properties and force generation capacity of K

60 ahead to reach clinical fruition, the unique mechanical properties and integrated modalities of e-dur

61 ings in the electrospun mats to regulate the mechanical properties and light transmittance of the hyb

62 d to the cast-moulded equivalent in terms of mechanical properties and microstructure.

63 ting the molecular origins of actin filament mechanical properties and modulation by the regulatory s

64 Mechanical properties and morphology of MGO-treated coll

65 hat is unable to sufficiently alter filament mechanical properties and promote severing.

66 towards clinical products, understanding the mechanical properties and skin tissue structure with whi

67 ed by arc-melting and investigated for their mechanical properties and thermal stability.

68 on the relationship between the macro-scale mechanical properties and underlying molecular deformati

69 ss spider species despite the different silk mechanical properties and web geometries they produce.

70 m that can be truly engineered, with tunable mechanical properties, and a theoretical framework to ca

71 l to further optimize the microstructure and mechanical properties, and advance the development of th

72 s transitions, relatively small gradients in mechanical properties, and difficult syntheses.

73 res to probe their surroundings, adapt their mechanical properties, and exert the appropriate forces

74 y, functionality, surface finish, stability, mechanical properties, and porosity are addressed.

75 chitecture is an effective tool in enhancing mechanical properties, and the eventual goal of nanolatt

76 applies to any materials system wherein the mechanical properties are controlled by the underlying n

77 mputational approaches for quantifying their mechanical properties are critically discussed.

78 The papers' mechanical properties are found to be strongly influence

79 on these physics-based analytical formulae, mechanical properties are investigated for different het

80 ize effects of the ceramic nanolayers on the mechanical properties are revealed in these ceramic-base

81 Materials with switchable mechanical properties are widespread in living organisms

82 Tensile tests exhibited changes to mechanical properties arising from additive effects.

83 ence of Al-induced structural changes on the mechanical properties at atomistic scale is not well und

84 eady open pulmonary units that improve their mechanical properties at higher PEEP.

85 ary for many biological applications, losing mechanical properties at low strains.

86 s while the latter results in size-dependent mechanical properties at the nanometer scales.

87 r myopathy is at least partly due to altered mechanical properties at the single-cell scale, which ar

88 highlight that the relationship between skin mechanical properties (berry skin break force and energy

89 here to the surrounding tissue and probe its mechanical properties by forming cell-matrix adhesions.

90 lationship suggests that predictions of cell mechanical properties can be obtained from examining the

91 Multi-layered thin films with heterogeneous mechanical properties can be spontaneously transformed t

92 oming an urgent need since their outstanding mechanical properties can be utilized integratedly.

93 itionally, titanium alloys with satisfactory mechanical properties can only be produced via energy-in

94 also includes cell alignment, cell-specific mechanical properties, cell growth, division and apoptos

95 ) together with microscopy to understand the mechanical property changes occurring during the growth

96 attention due to its extreme electrical and mechanical properties, chemical inertness and biocompati

97 Cartilage is a structural tissue with unique mechanical properties deriving from its electrically-cha

98 Purpose To determine if healthy hepatic mechanical properties differ between pediatric and adult

99 Current methods to measure supracellular mechanical properties disrupt intact monolayers, therefo

100 , including surface morphology and porosity, mechanical properties, drug release, degradation, and os

101 bstantially improve network connectivity and mechanical properties (e.g., approximately 600% increase

102 The influence of CNF loading on the mechanical properties, electrical conductivity and piezo

103 relationship between ionic conductivity and mechanical properties, electrolyte membranes with proton

104 e properties can only be rationalized by the mechanical properties endowed by their hybrid inorganic-

105 urgy methods consistently result in inferior mechanical properties, especially low fatigue strength.

106 The extraordinary mechanical properties exhibited by these materials are e

107 orosis, while improvements in structural and mechanical properties following bisphosphonate treatment

108 rating substrate is developed to extract the mechanical property from the measured VIPS.

109 c cage (polyMOC) materials whose structures, mechanical properties, functionalities, and dynamics can

110 Mechanical properties have been shown to change drastica

111 potentially game-changing electro- and opto-mechanical properties, however, the energy dissipation p

112 Sorting based on mechanical properties, however, would provide a new aven

113 An understanding of how perturbed mechanical properties impact mitotic rounding has import

114 in morphology and an overall degradation of mechanical properties in a given material.

115 n bonded with a thin glassy layer.To improve mechanical properties in ceramics through grain boundary

116 ae will enable efficient characterization of mechanical properties in developing a wide range of appl

117 magnetic resonance (MR) elastography-derived mechanical properties in the discrimination of hepatic i

118 quantitative spatiotemporal measurements of mechanical properties in vivo.

119 the interplay among structural, optical, and mechanical properties, in part because of limited experi

120 demonstrated that these SiNSs possess unique mechanical properties, in particular ultralow friction,

121 ven applications, a combination of desirable mechanical properties including stiffness, strength, tou

122 d materials whose structures give them novel mechanical properties, including negative Poisson's rati

123 heet peptide hybrid hydrogel with tailorable mechanical properties is a promising platform for future

124 oids), but the impact of etching on skeleton mechanical properties is almost unknown.

125 erent beta-sheet peptide hydrogels and their mechanical properties is discussed, in order to provide

126 This exceptional combination of thermal and mechanical properties is enabled by a unique thermal-mec

127 The drastic enhancement in mechanical properties is found to arise from a transitio

128 Despite these excellent mechanical properties, low ductility at room temperature

129 fates and polysulfonates possess exceptional mechanical properties making them potentially valuable e

130 s high as approximately 9200 J m(-2) , their mechanical properties match or exceed those of prototype

131 ndo X-ray absorption structures to study the mechanical properties, morphology evolution and oxidatio

132 It then discusses the mechanical properties most relevant to deformable device

133 However, they often are not able to meet the mechanical properties necessary for many biological appl

134 This has led to improved mechanical properties, notably wear resistance, and has

135 The mechanical properties observed here provide insights for

136 s for enhancing the electrical, thermal, and mechanical properties of a broad range of functional mat

137 Mechanical properties of a cell reflect its biological a

138 opological states can be used to control the mechanical properties of a material along an edge or aro

139 y is to demonstrate the superior optical and mechanical properties of a new class of submicron grain-

140 We measured mechanical properties of a particular chordotonal organ-

141 ard human dental pulp cells (HDPCs), and the mechanical properties of a silver bromide/cationic polym

142 Here, we investigate the mechanical properties of actin bundles in the absence of

143 Finally, mechanical properties of adherent antigen-presenting cel

144 rol of embryo morphogenesis that couples the mechanical properties of adjacent tissues in the early k

145 The mechanical properties of agarose-derived hydrogels depen

146 composition and several physicochemical and mechanical properties of all flours were evaluated.

147 Thus, the mechanical properties of B cell synapses regulate antige

148 Mechanical properties of biological cells play a role in

149 Orthogonal modulation of both HA content and mechanical properties of biomaterial scaffolds was requi

150 owerful yet accessible means to characterize mechanical properties of biomolecules.

151 tributions of microstructure, to predict the mechanical properties of blood vessels.

152 h temperature exposure on the structural and mechanical properties of BNNTs with a full structural si

153 tly measure trabecular microarchitecture and mechanical properties of bone at a tissue level and inde

154 s study was to compare the compositional and mechanical properties of bone biopsies from bisphosphona

155 e to the rubber-like quasi-static and cyclic mechanical properties of both materials, with young's mo

156 uced atomistic configurational change on the mechanical properties of C-(A-)S-H.

157 The local mechanical properties of cells are frequently probed by

158 The mechanical properties of cells impact on their architect

159 on, high-throughput method for measuring the mechanical properties of cells in suspension with a micr

160 In this study, the mechanical properties of cells surrounding a single-cell

161 morphogenesis are forced to assume specific mechanical properties of cells, because the actual mecha

162 Mechanical properties of cells, reflective of various bi

163 ts are emerging as major contributors to the mechanical properties of cells.

164 tudy probes analogies between structural and mechanical properties of collagen and DNA.

165 ew, critical insight into the structural and mechanical properties of composite colloidal gels and op

166 Triaxial active and passive mechanical properties of coronary arteries are needed fo

167 derstanding and designing the plasticity and mechanical properties of crystalline materials.

168 on improves wound healing and normalizes the mechanical properties of diabetic skin, suggesting a new

169 metamaterials have demonstrated that global mechanical properties of disordered spring networks can

170 rediction of global and local structural and mechanical properties of DX-based assemblies that are in

171 nanoindentation was used to characterize the mechanical properties of each of these layers.

172 Mechanical properties of fluorescein-incorporated beads

173 derstanding how diabetes alters the ultimate mechanical properties of healed wounds will be important

174 thors elucidate the time- and rate-dependent mechanical properties of HOIPs and an inorganic perovski

175 dary engineering, precise measurement of the mechanical properties of individual boundaries is essent

176 tracellular matrix polymer, in governing the mechanical properties of inflamed tissues.

177 egrin regulation through modification of the mechanical properties of integrin-ECM links, which may b

178 results indicate that HA content governs the mechanical properties of islets.

179 ical properties of cells, because the actual mechanical properties of living tissues are largely unkn

180 tal to a system by altering the chemical and mechanical properties of materials within the system ove

181 st efficient way to tune microstructures and mechanical properties of metallic alloys lies in designi

182 uscle afferentation, it is possible that the mechanical properties of muscle-tendon systems also affe

183 The mechanical properties of myocardium change regionally an

184 comes in bone repair by remarkably improving mechanical properties of nanocomposites and optimizing c

185 erials maintain the structural hierarchy and mechanical properties of natural silks, including a modu

186 and composites partially achieve some of the mechanical properties of natural soft tissues, but at th

187 IM1-mediated Ca(2+) influx on electrical and mechanical properties of normal and diseased myocytes, a

188 and morphological parameters that govern the mechanical properties of organic semiconductors.

189 phology, surface charge, hydrophilicity, and mechanical properties of PES/AG membranes was studied by

190 s for further control and enhancement of the mechanical properties of polymer nanocomposites.

191 ization of HbS fibers, while maintaining the mechanical properties of polymerized HbS fibers by the m

192 Our findings elucidate membrane mechanical properties of primary afferent neurons, which

193 teins as well as microstructural and physico-mechanical properties of produced gels.

194 ionally and experimentally when studying the mechanical properties of proteins.

195 Five neurosurgeons rated mechanical properties of PTFOS compared with conventiona

196 tomography (OCT)-based indentation to assess mechanical properties of respiratory tissues in disease.

197 Here, we unravel the mechanical properties of SasG on the surface of living b

198 tant to predict the altered morphologies and mechanical properties of sickle RBCs in sickle cell anem

199 The developed technique can characterize the mechanical properties of single adherent cells at multip

200 highlights the importance of alterations in mechanical properties of single cells and their nuclei a

201 ess over a range relevant for recapitulating mechanical properties of soft tissues, suggesting its po

202 Fast ion transport and superior mechanical properties of solid electrolytes are both of

203 e receptors, and (iv) control of spatial and mechanical properties of targeted mechanosensitive recep

204 plications and others are now limited by the mechanical properties of the cantilever.

205 The mechanical properties of the cellular microenvironment a

206 induce significant changes in morphology or mechanical properties of the collagen matrix.

207 ce the room-temperature tensile and flexural mechanical properties of the composite, whereas the more

208 behavior in hydrophobic confinement and the mechanical properties of the confining material.

209 ses from local modification of the effective mechanical properties of the crack medium.

210 Here, we report the structural and mechanical properties of the CSP studied using single-mo

211 ey ensure fast reaction times and good final mechanical properties of the cured materials.

212 zing platelet attachment while enhancing the mechanical properties of the decellularized vascular sca

213 of protein and that these contacts alter the mechanical properties of the dsDNA.

214 hese studies provide insight into the active mechanical properties of the embryonic mesenchyme and es

215 The chemical, physical, and mechanical properties of the extracellular environment h

216 of the MIP film surface indicated changes in mechanical properties of the film after template extract

217 ent concentration of NDs on the physical and mechanical properties of the GelMA hydrogel network.

218 density and concentration, we can tailor the mechanical properties of the hydrogels over an order of

219 We optimized the mechanical properties of the implant by tuning the elast

220 B and a second TBDT (FhuA), we show that the mechanical properties of the interaction are perfectly t

221 Using AFM-SMFS, the mechanical properties of the interaction between Strep-t

222 Mechanical properties of the lipid bilayer influence the

223 vity to thickness, curvature stress, and the mechanical properties of the lipid bilayer.

224 The exceptional mechanical properties of the load-bearing connection of

225 we combined two approaches to elucidate the mechanical properties of the main scaffold ScaA of Aceti

226 The experimental conditions and not the mechanical properties of the matrices were the dominant

227 These data reveal that the mechanical properties of the microenvironment instruct c

228 The mechanical properties of the microenvironment play a lar

229 utility of this approach by showing that the mechanical properties of the microenvironment regulate t

230 , using the transient kinetic data, predicts mechanical properties of the motor that are compatible w

231 treatment of tissue defects should mimic the mechanical properties of the native tissue of interest a

232 tudied, and the morphology, composition, and mechanical properties of the newly grown layer were char

233 bres and intermediate filaments modulate the mechanical properties of the nucleus and also chromatin

234 its force-generation machinery to probe the mechanical properties of the opposing antigen-presenting

235 y, of kilka and silver carp improved physico-mechanical properties of the resultant gels compared to

236 of Fmoc-FRGDF peptide fibrils and subsequent mechanical properties of the resultant hydrogel can be e

237 nconstrained conditions, the geometrical and mechanical properties of the resulting fiber aggregates

238 macroscopic SC barrier properties as well as mechanical properties of the skin.

239 compressive strain) and therefore mimics the mechanical properties of the softest tissues found in th

240 the components and curing conditions on the mechanical properties of the subsequently formed insolub

241 of oscillations in terms of the geometry and mechanical properties of the tissue shells.

242 The mechanical properties of the wall and their spatial vari

243 bend tests were carried out to determine the mechanical properties of the weld joint.

244 sition is driven in response to the changing mechanical properties of their endoderm substrate.

245 The mechanical properties of these materials are, however, d

246 We show that the mechanical properties of these nanocomposites, including

247 The mechanical properties of these organs are believed to be

248 es of metrology precedes a discussion of the mechanical properties of three classes of organic semico

249 Cellular-scale imaging of the mechanical properties of tissue has helped to reveal the

250 erent freeze-thaw variables which modify the mechanical properties of treated coals, the effects of f

251 and could indicate potential changes in the mechanical properties of tumours, which in turn could be

252 he microstructural evolution, chemistry, and mechanical properties of WC-Co.

253 However, in a complete V1-ATPase, the mechanical property of the central stalk is a key determ

254 g further reveals the dependence of the film mechanical properties on the alignment of cellulose nano

255 To measure spatial variation of mechanical properties, one must determine the deformatio

256 help advance the knowledge of mammalian skin mechanical properties, providing a route towards streaml

257 by FSP and evaluated for its microstructure-mechanical property relationship.

258 l silks in terms of structural hierarchy and mechanical properties remains challenging.

259 se of graphene, but investigation into their mechanical properties remains incomplete.

260 very suitable optical, electrical, and good mechanical properties required for radiation detection a

261 aterials with the capability to change their mechanical properties, significant efforts have been mad

262 ortunities that arise from devices that have mechanical properties similar to those encountered in th

263 ite-element modeling for probing the tooth's mechanical properties, spatially resolved small- and wid

264 (326 mS cm(-1) at 80 degrees C) and superior mechanical properties (tensile strength of 250 MPa) are

265 color changes, but also achieve super-strong mechanical properties (tensile stress of 1.45 MPa, tensi

266 ures can endow nanomaterials with remarkable mechanical properties that are fundamentally controlled

267 proteins into insoluble fibrils with unique mechanical properties that can alter the mechanical cues

268 ngineered nanolattice material with enhanced mechanical properties that can be broadly applied as a t

269 s the striking lack of information about the mechanical properties that characterize these tumors rel

270 rm different polymer networks with versatile mechanical properties that depend on their spatial organ

271 y excellent physicochemical, biological, and mechanical properties that differ significantly from tho

272 ial features (e.g., geometry, chemistry, and mechanical properties) that promote or inhibit such tran

273 ability to stem haemorrhage are its changing mechanical properties, the major drivers of which are th

274 ganic glass-forming sample result in stiffer mechanical properties, the molecular mobility of the sam

275 In addition to their outstanding mechanical properties, the networks are ionically conduc

276 ing 39% sequence identity, but show distinct mechanical properties; the rod is straight and rigid as

277 In addition to their excellent static mechanical properties, these composites also have except

278 independent tunability of ion conduction and mechanical properties, this bioinspired approach may pav

279 fferences (p < 0.0001; ANOVA) in CD34+ cells mechanical properties throughout the differentiation pro

280 This model converts extracellular-matrix mechanical properties to biochemical signals via adhesio

281 (GelMA) hydrogels with tunable physical and mechanical properties to determine the microenvironmenta

282 ions and new research aims to engineer their mechanical properties to improve their capacity to mimic

283 by using a biomaterial that harbors tunable mechanical properties to promote localized BMP-2 signali

284 The materials used should display optimized mechanical properties to sustain cell growth and limit s

285 olution and a method for measuring cell wall mechanical properties, to add mechanistic details to the

286 test plates and spines as well as the spine mechanical properties (two-points bending tests) in a ci

287 Enthesis tensile mechanical properties were also assessed.

288 MR imaging visibility and mechanical properties were assessed in a pulsatile flow

289 nd it has low toxicity toward HDPCs, and its mechanical properties were not significantly affected.

290 Mechanical properties were rated superior to conventiona

291 s, which have excellent biocompatibility and mechanical properties, were combined with PC collagen to

292 e spectroscopy is used to characterize their mechanical properties, whereas dynamic light scattering

293 of vascular grafts, maintaining or enhancing mechanical properties while reducing the risk of thrombo

294 the former loading leads to size-independent mechanical properties while the latter results in size-d

295 The DCPU films which had robust mechanical properties with high elasticity and conductiv

296 ic metals, with the potential for optimizing mechanical properties with nanoscale CTBs in material de

297 on tests on the monolithic MOF showed robust mechanical properties, with hardness at least 130% great

298 no direct in vivo and in situ measurement of mechanical properties within developing 3D tissues and o

299 ilks are remarkable materials with desirable mechanical properties, yet the fine details of natural p

300 lity (up to approximately 600 degrees C) and mechanical properties (Young's modulus exceeding 2 GPa).