ライフサイエンスコーパス: tensile strength

1 Adding fat induced a twice decrease of the tensile strength.

2 igands that interlock as spacers and provide tensile strength.

3 aortas with increased compliance and reduced tensile strength.

4 me and increased mucus strand elasticity and tensile strength.

5 ties, with unrivalled extensibility and high tensile strength.

6 n skin, along with markedly decreased tissue tensile strength.

7 fibril spacing and for maintaining cell wall tensile strength.

8 panied by a shortened lifetime and a lowered tensile strength.

9 ng that gives collagen fibrils much of their tensile strength.

10 ference may partly explain the site-specific tensile strength.

11 s by 24.8% (P < 0.0001) without compromising tensile strength.

12 in the wall during growth for maintenance of tensile strength.

13 icant stability under shock, indicating high tensile strength.

14 ries in water content, refractive index, and tensile strength.

15 but have fragile skin with markedly reduced tensile strength.

16 milarly did not cause a decrease in membrane tensile strength.

17 zed PG to gelatin and CDs up to 5 % improved tensile strength.

18 ghness and agglomeration increased, reducing tensile strength.

19 hift of yield strength, strain hardening and tensile strength.

20 ckness is strongly correlated with increased tensile strength.

21 y, dermal thickness, collagen deposition and tensile strength.

22 lus, yield strength, and especially ultimate tensile strength.

23 ent increment of the elastic modulus and the tensile strength.

24 with reduced stiffness but also reduced scar tensile strength.

25 collagen fibrillogenesis, organization, and tensile strength.

26 scores, error scores, leak volumes, and knot tensile strengths.

27 oad (+17%, P = 0.03 vs. RestTx) and ultimate tensile strength (+10%, P = 0.15 vs. RestTx).

28 t highest elastic tensile strain (13.4%) and tensile strength (125 GPa).

29 These GO/Mfp films display high tensile strength (134-158 MPa), stretchability (~ 26% el

30 better mechanical properties, such as higher tensile strength (27.5 MPa) and elongation at break (17.

31 rm the keratinized gingiva to have increased tensile strength (3.94 +/- 1.19 MPa) and stiffness (Youn

32 lf-heal at room temperature with a recovered tensile strength 4 MPa, which is 30% of its original val

33 ts in Zn-0.8Li-0.4Mg alloy with the ultimate tensile strength 646.69 +/- 12.79 MPa and Zn-0.8Li-0.8Mn

34 Improved tensile strength (73 +/- 11 MPa) in machine produced str

35 rial cellulose macrofibers yield record high tensile strength (826 MPa) and Young's modulus (65.7 GPa

36 Highest tensile strength (87 +/- 21 MPa) was recorded for CS str

37 it to have exceptional damage tolerance with tensile strengths above 1 GPa and fracture toughness val

38 , regulate collagen fibrillogenesis and skin tensile strength, affect tumor cell growth and invasion,

39 aintained approximately 12% of their initial tensile strength after 14 days of incubation in vitro.

40 They possess specific tensile strength and a modulus of toughness higher than

41 abricated a new scaffold exhibiting (1) high tensile strength and biomechanical properties comparable

42 against a cause-effect relationship between tensile strength and cell shape.

43 wn dentin in human third molars for ultimate tensile strength and collagen biochemistry.

44 tion of the essential oil increased ultimate tensile strength and contact angle but decreased elongat

45 eservation significantly affects the overall tensile strength and elasticity of the vessel (i.e., Ep

46 ggrecan and hyaluronan, giving cartilage its tensile strength and elasticity.

47 Cross-linked canna starch could increase tensile strength and elongation of rice noodles.

48 At La content of 1.0 wt.%, the tensile strength and elongation of the alloy was maximum

49 Tensile strength and elongation were measured by means o

50 and a resultant decrease in the engineering tensile strength and elongation.

51 his increase in starch content increased the tensile strength and extensibility of the composite film

52 The tensile strength and failure strain of IL-1alpha-treated

53 strength, and a somewhat higher resilience, tensile strength and fatigue strength.

54 ceptional mechanical properties such as high tensile strength and great extensibility, making it one

55 ers especially in terms of low density, high tensile strength and high elongation until breaking.

56 nts, they had decreased aortic stiffness and tensile strength and hyperextensible skin with decreased

57 Tensile strength and in vitro cytotoxicity showed no sig

58 The acetylation decreased the tensile strength and increased the elongation of the fil

59 l orders of magnitude higher than the retina tensile strength and load-carrying capability reported i

60 d biomechanical properties by increasing its tensile strength and load.

61 had increased stiffness, providing a higher tensile strength and lower elongation when compared to f

62 The nanoreinforcement improved the tensile strength and modulus of films when added at up t

63 pecific elasticity, contractility, adhesion, tensile strength and occlusivity.

64 rce spectroscopy, we probed in situ both the tensile strength and off-rate of single P-selectin molec

65 f the nanowire, as well as estimates for the tensile strength and persistence length.

66 the key protein for maintaining aortic wall tensile strength and stability.

67 ffold was developed and characterized by its tensile strength and stiffness as a function of time in

68 al organization simultaneously achieves high tensile strength and strain at breaking by taking advant

69 We find that the tensile strength and the lifetime of single E-cadherin/E

70 ese polymers showed that PDHF possesses high tensile strength and toughness (70 and 14 MPa, respectiv

71 aling elastomers at room temperature, with a tensile strength and toughness up to 14.8 MPa and 87.0 M

72 ysical properties of materials, such as high tensile strength and toughness, but also improved proces

73 By repurposing human hair for enhanced tensile strength and utilizing millet husk ash to replac

74 interfacial fracture properties, such as the tensile strength and work of separation, using atomistic

75 The HMT starch increased the tensile strength and WVP of the starch films compared to

76 The tensile strength and Young's modulus at MPa levels are c

77 frame at an optimal weight ratio boosts the tensile strength and Young's modulus of the buckypaper/P

78 The average tensile strength and Young's modulus of the CNTs investi

79 hosphonate-treated bone demonstrated reduced tensile strength and Young's Modulus.

80 heir abilities to form networks of different tensile strengths and to encapsulate, protect and releas

81 d to low fatigue limits (some ~1/20 of their tensile strengths) and highly variable fatigue lives.

82 rsional ultimate strength, a 29% increase in tensile strength, and a 24% increase in energy to failur

83 into the wound environment, increased wound tensile strength, and a higher ratio of type I:type III

84 impart the resulting nanocomposite a higher tensile strength, and elastic and storage moduli.

85 greater contraction, cell density, ultimate tensile strength, and elastic modulus than those seeded

86 entrations of FJP and CG reduced the maximum tensile strength, and increased CG increased the elongat

87 Interstitial collagen gives fetal membranes tensile strength, and membrane rupture has been attribut

88 orders of magnitude increases in stiffness, tensile strength, and tensile toughness compared to its

89 ndings, the skin was fragile and had reduced tensile strength, and the tail was unusually flexible.

90 The Young's modulus, tensile strength, and thermal stability of the SWNT-rein

91 ucture and concentration on elastic modulus, tensile strength, and ultimate strain.

92 han twofold higher elastic modulus, ultimate tensile strength, and yield stress than those of polylac

93 were found to be exceptionally strong with a tensile strength approaching that of hard ceramics.

94 F films had excellent mechanical properties (tensile strength approximately 50MPa, elongation at brea

95 The highest tensile strength (approximately 540 MPa), elongation (ap

96 , accurate predictions of elastic moduli and tensile strength are demonstrated at speeds 1,000 to 10,

97 ic scaffolds relying solely on high uniaxial tensile strength are poor with high rates of implant rup

98 alveolins, however, G2 contributes little to tensile strength, arguing against a cause-effect relatio

99 C-null adult mice had approximately half the tensile strength as that of wild-type skin.

100 mposite, in addition to a 27% improvement in tensile strength at 2 wt% addition.

101 increased the elastic modulus (by 200 %) and tensile strength at break (by 100 %) while reducing film

102 The LV tensile strength at day 3 post-MI, however, was similar

103 n with marked hyperextensibility and reduced tensile strength at high strain but not at low strain.

104 here was no significant difference in median tensile strength between the FS and stapled groups.

105 dings, including graft alignment and motion, tensile strength between the grafts and surrounding tiss

106 ittle phenotype does not result from loss of tensile strength but from loss in flexibility that cause

107 of these mice showed increased stiffness and tensile strength but no altered collagen cross-links.

108 fibrillar orientation, packing, and ultimate tensile strength can be increased by stretching.

109 nt of wound repair, as evidenced by enhanced tensile strength, can be markedly improved in tissues tr

110 sity, high electrical conductivity, and good tensile strength, can be synthesized by a method combini

111 example, chemical and thermal resistance and tensile strength) comes at the expense of degradability

112 anisms in one material, leading to twice the tensile strength compared to a single-phase HEA with sim

113 tion and WVP values in addition to increased tensile strength compared to the native starch films.

114 anofiber diameter of 502 +/- 150 nm, and the tensile strength, contact angle, porosity, water vapor p

115 Tendons have uniquely high tensile strength, critical to their function to transfer

116 e-epithelialization, collagen deposition, or tensile strength during wound closure in mice.

117 ging films, such as higher water resistance, tensile strength, elongation at break, and antioxidant a

118 ressing lines supported a role for ZmCtl1 in tensile strength enhancement.

119 structure contribute to its high mechanical tensile strength, flexural strength, and toughness.

120 tion with AFM showed significantly increased tensile strength for Fg interacting with the E652D/H782Q

121 Tensile strength for gelatin film significantly increase

122 e of cellulolytic decomposition, via loss in tensile strength, for 31 streams in the Ashdown Forest o

123 Yet it has astonishing mean tensile strength ([Formula: see text]150 MPa) and fractu

124 ombine desired mechanical properties such as tensile strength, fracture toughness, and elasticity int

125 elongation (from 3.18 to 13.59%), decreased tensile strength (from 22.71 to 3.97 MPa), increased wat

126 sisted nucleation of alpha resulting in high tensile strength, greater than any current commercial ti

127 Early MA silk tensile strength improved rapidly with the origin of GGX

128 usceptibility, but moreover show exceptional tensile strength in both as-welded and post-weld heat-tr

129 5-fold (transverse direction) lower ultimate tensile strength in comparison with Hastalex (p < 0.05).

130 0 mum and widths exceeding 50 mm and biaxial tensile strength in excess of 3 MPa, were produced by pu

131 antly accelerated closure time and increased tensile strength in mice, and was validated in the porci

132 lized specimens showed significantly greater tensile strength in root than in crown.

133 The tensile strength in the nonfixed group was significantly

134 nts were phenotypically normal and exhibited tensile strength in their inflorescence stems comparable

135 ferate in site, and assist wounds in gaining tensile strength in whole-body irradiated mice with or w

136 Direct correlation was obtained between bulk tensile strength, in vitro binding to everted intestinal

137 n content, and prevented skin thickening and tensile strength increase after bleomycin challenge.

138 At 5% CS NFC loading, tensile strength increased by 22%, thermal stability imp

139 Tensile strength increased from 0.018N/mm(2) in the cont

140 28-day compressive, flexural, and splitting tensile strengths increased by 44.27%, 52.1%, and 57.14%

141 Symptomatic of this loss of tensile strength is an abnormal swelling of the cells at

142 The decrease of the tensile strength is coupled with a decrease of the work

143 verned by the interfibrillar matrix, whereas tensile strength is dominated by collagen fibrils.

144 is preserved in the final product, while the tensile strength is increased by a factor of 5.

145 , the single-phase CrMnFeCoNi alloy displays tensile strength levels of approximately 1 GPa, excellen

146 ngle-molecule force spectroscopy, we map the tensile strengths, lifetimes, and energy barriers of ind

147 n, we observed MMP-13 and COL1A2 expression, tensile strength, macrophage infiltration, and wound his

148 omposite films, the BSM-TSF had the greatest tensile strength, making it more resistant to stretching

149 Tensile strength measurements of etiolated hypocotyls re

150 diminished cross-linking as detected by both tensile strength measurements using whole corneas and ge

151 microscopy, scanning electron microscopy and tensile strength measurements.

152 y, workability), mechanical (compressive and tensile strength), microstructural (XRD, and EDX), and r

153 ions distal to the muscle and show increased tensile strength, modulus, and energy stored per unit st

154 ictates the bulk material properties such as tensile strength, modulus, and glass transition.

155 mpressive properties such as remarkable unit tensile strength, modulus, and resistance to heat, flame

156 cadherin/gamma-catenin junction provides the tensile strength necessary to establish and maintain str

157 Our material has a tensile strength of 1,300 megapascals and 10 per cent el

158 created micro-sized pyrolytic carbon with a tensile strength of 1.60 +/- 0.55 GPa, a compressive str

159 t room temperature with an instant recovered tensile strength of 1.84 MPa and a continuously increase

160 As a result, an ultra-high tensile strength of 2.4-2.6 GPa, a significant elongatio

161 grees C) and superior mechanical properties (tensile strength of 250 MPa) are achieved due to the int

162 The yield strength of 244 MPa and tensile strength of 274 MPa were achieved in the composi

163 excellent mechanical properties with a high tensile strength of 342 MPa and a Young's modulus of 43.

164 shaped specimens yielded an average ultimate tensile strength of 6.60 MPa and an average failure stra

165 The fibre exhibits a tensile strength of 895 MPa and a stretchability of 44.3

166 d mechanical robustness (a high longitudinal tensile strength of 91.95 MPa and toughness of 2.73 MJ m

167 By increasing the nutrient content and tensile strength of agar, we show the 'hard agar' (HA) t

168 cell growth and migration, and enhances the tensile strength of artificial tissue constructs; ligati

169 ngth and hyperextensible skin with decreased tensile strength of both normal and wounded skin.

170 The tensile strength of CBPLP-Cys film ranged from 3.25 +/-

171 ng sulfation on CD44s modestly decreases the tensile strength of CD44s-fibrin(ogen) binding, which is

172 rmolecular cross-links are essential for the tensile strength of collagen fibrils.

173 sample WF100 highly increased the splitting tensile strength of concrete by 26.67% compared to the c

174 The apparent area expansion modulus and tensile strength of egg phosphatidylcholine (EPC) membra

175 ecombinant GH, enhances collagen content and tensile strength of engineered ligaments, in association

176 For this model to work, the tensile strength of Europa's ice crust must be less than

177 rillar bridges, which slightly decreased the tensile strength of fibers.

178 The tensile strength of fibrillar collagens depends on stabl

179 In the presence of RE, the tensile strength of film decreased, whereas the extract

180 The tensile strength of films significantly decreased and el

181 ork that causes stresses far beyond the bulk tensile strength of gold.

182 asurements highlight the instability and low tensile strength of gp120-receptor bonds, uncover a syne

183 ys including time to closure of open wounds, tensile strength of healed incisional wounds, wound hist

184 However, neither the tensile strength of incisional skin wounds nor the rate

185 Tensiometry was used to measure the tensile strength of incisional wounds over a 60-day time

186 enhanced collagen accumulation and increased tensile strength of incisional wounds.

187 0 microM ouabain also increased the ultimate tensile strength of neo-tissue by 56-86% at 4 weeks.

188 ty of 2.58 mWh g(-1) or 3.6 mWh cm(-3), high tensile strength of over 1000 MPa, and bearable pressure

189 The tensile strength of P-selectin binding to a novel O-link

190 h is evident in the hardness of diamonds and tensile strength of polymeric fibres; on the single-mole

191 The tensile strength of pure EPC membrane is 9.4 mN m-1 wher

192 Even though the fast kinetics and high tensile strength of selectin-ligand bonds are primarily

193 We measured tensile strength of skin incisions at 11-21 d in both no

194 malities that coincide with markedly reduced tensile strength of the affected zoites, indicating the

195 dulus, higher stiffness modulus, and maximum tensile strength of the aorta was 34% to 38% higher than

196 Tensile strength of the biofilm infected skin was compro

197 glycans and sulfation also contribute to the tensile strength of the CD44-HA bond.

198 P also provides a mechanism for lowering the tensile strength of the dust layer and aiding dust relea

199 The tensile strength of the electrospun sutures decreased as

200 s the modulus (or stiffness), toughness, and tensile strength of the fibers.

201 After ionic cross-linking, the tensile strength of the film containing 10% of DCC was i

202 bly, e.g. addition of 15% of NFC increased a tensile strength of the film from 70.02 to 97.97 MPa.

203 The tensile strength of the film was significantly lower but

204 The tensile strength of the graphene fiber reaches 1080 mega

205 while improving the collagen composition and tensile strength of the healed wound.

206 When the tensile strength of the ice is reached, a crack may occu

207 When normalized by weight, the specific tensile strength of the macrofiber is as high as 598 MPa

208 cyclic stress amplitudes much lower than the tensile strength of the materials involved.

209 to the apparent area expansion modulus, the tensile strength of the membrane decreases with the incr

210 eriments at stress amplitudes lower than the tensile strength of the metal, we report a history-indep

211 retains the native protein conformation and tensile strength of the natural ACL but is decellularize

212 not affect the water vapor permeability and tensile strength of the OSA-based carrier.

213 ure in the intrusion overcomes the effective tensile strength of the particle pack, a localised chann

214 ng buffers (pH < 9) in order to preserve the tensile strength of the polyimide coated fused-silica ca

215 The tensile strength of the prepared multilayers approached

216 rm that salt bridges primarily determine the tensile strength of the protein-to-protein bond, and tha

217 The tensile strength of the resultant fibers reaches ~729 MP

218 M241385 decreased scar size and enhanced the tensile strength of the scar.

219 e and provide an explanation for the reduced tensile strength of the skin.

220 udin lowered PR to multiple agonists and the tensile strength of the TIP-FCS, 2 measurements strongly

221 onfirmed increased deformability and reduced tensile strength of their skin.

222 The stiffness and tensile strength of these multilayer composites are one

223 The tensile strength of these wounds was also reduced compar

224 t layer ("sword-in-sheath" failure), and the tensile strength of this layer ranged from 11 to 63 giga

225 o determine whether the collagen content and tensile strength of tissue-engineered ligaments is enhan

226 hat decorin incorporation increases ultimate tensile strength of uncross-linked fibers.

227 ligned cellulose nanofibers has a mechanical tensile strength of up to 350 MPa, nearly three times of

228 strain value than dried threads, whereas the tensile strength of wet threads was much lower.

229 bulk structural material with a record high tensile strength of ~1 GPa and toughness of 9.74 MJ m(-3

230 The constituent solids attain tensile strengths of 1.75 GPa without failure even after

231 At room temperature, the alloy shows tensile strengths of almost 1 GPa, failure strains of ap

232 Tensile strengths of approximately 1 GPa, tensile ductil

233 The tensile strengths of individual multiwalled carbon nanot

234 Tensile strengths of SPI films with rutin and epicatechi

235 pare the entry competency of viral clones to tensile strengths of the individual Env-receptor bonds o

236 Interstitial collagen confers tensile strength on the cap, as it does in skin and tend

237 For bodies with low tensile strength, our results can explain key morphologi

238 ed that Er:YAG + HF had significantly higher tensile strength (p = 0.00).

239 other properties such as ultimate toughness, tensile strength, poroviscoelastic responses, energy dis

240 The loss of amniotic epithelial cells and tensile strength preceding membrane rupture is poorly un

241 econd-order models were fitted to the SD and tensile strength responses; while the cubic model demons

242 strength (sigma y) of 1260 MPa, and ultimate tensile strength (sigma UTS) of 1400 MPa.

243 light (UVA; RFUVA) increases corneal stroma tensile strength significantly.

244 ntiation in vitro, and exhibit stiffness and tensile strength similar to existing dental materials.

245 the production of flexible fibres with high tensile strength such as polyester and nylon.

246 In both locations, tensile strength tested perpendicular to the direction o

247 lectrophoresis, atomic force microscopy, and tensile strength testing.

248 Tensile strength tests were conducted after these experi

249 an aminoguanidine in gel electrophoresis and tensile strength tests, confirming recent findings on it

250 e less prone to rupture and display a higher tensile strength than bonds formed by classical type I n

251 er unstressed dissociation rate and a higher tensile strength than CD44s-fibrinogen but is weaker tha

252 The scalpel incisions showed higher tensile strength than free-electron laser wounds from da

253 A adhesives by ethanol wet-bonding exhibited tensile strengths that were not significantly different

254 ile testing results showed that the ultimate tensile strength, the elongation at failure, and the ten

255 ally large elastic tensile strains with high tensile strengths, the size- and orientation-dependence

256 Tensile strength then maximized in basal entelegyne spid

257 crete has high compressive strength but poor tensile strength, this has led researchers to offer a va

258 important role in the human body, providing tensile strength to connective tissues.

259 these polyamides and significantly enhances tensile strength to over 210 MPa while maintaining elast

260 type I is a structural protein that provides tensile strength to tendons and ligaments.

261 h lay down the fibrillar collagen that gives tensile strength to the amnion.

262 by intertwining filaments confers shear and tensile strength to the caprock, contributing to its duc

263 gnal regulation of cell behavior and provide tensile strength to the fibrous cap.

264 sional organization most likely confers high tensile strength to the pulley.

265 The inner barrier grants the complex the tensile strength to withstand large pulling forces (>50

266 air drying, resulting in a W-paper with high tensile strength, toughness, and folding endurance.

267 caused significant increase (p<0.05) in the tensile strength (TS) and elastic modulus, leading to st

268 he addition of NCs to MC films decreased the tensile strength (TS) and the elastic modulus (EM) (p<0.

269 Tensile strength (TS) and water vapour permeability (WVP

270 Grouper gelatin films had higher tensile strength (TS) and Young's modulus (YM), but lowe

271 Films containing 20% glycerol had higher tensile strength (TS) but lower elongation at break (EAB

272 The tensile strength (TS) increased up to 50% after the inco

273 eak (E) value of the films and decreased the tensile strength (TS) value of the films.

274 gle-molecule force spectroscopy to probe the tensile strength, unstressed bond lifetime, and interact

275 emia virus promoters significantly increased tensile strength up to 80% for 14-21 d after surgery.

276 eets with even better mechanical properties (tensile strength up to ~ 553 MPa) and thermal properties

277 These films demonstrate record tensile strength up to ~570 MPa for a 940 nm thick film

278 m-scaled twins (0.7 nm in thickness) exhibit tensile strengths up to 3.12 GPa, near the ideal limit,

279 composing flexible elastomers with different tensile strengths using soft lithographic molding.

280 composition, peaking at 15% strain: ultimate tensile strength (UTS) and tensile modulus increased 47%

281 We present estimates of ultimate tensile strength (UTS) for two engineered beta-solenoid

282 ulus (EM), maximum strain (MS), and ultimate tensile strength (UTS) in the 20-Gy group were significa

283 und to possess the same approximate ultimate tensile strength (UTS) via uniaxial tensile elongation a

284 mation of a stable scar verified by constant tensile strength values.

285 The ultimate tensile strength was 1165 MPa with ductility of ~18% and

286 Tissue tensile strength was affected only in the 1% trypsin gro

287 ratio of crosslinking functional groups, the tensile strength was controlled, ranging from 0.14+/-0.0

288 Although not significant, tensile strength was decreased after one month, but reco

289 Leaflet tensile strength was evaluated in vitro by using a Vitro

290 Tensile strength was quantified with a digital force gau

291 nges in Young's and shear moduli, as well as tensile strength, were quantified through oscillatory sh

292 Type II collagen provides cartilage with its tensile strength, whereas the water-binding capacity of

293 property is its considerable mechanical and tensile strength, whilst being flexible enough to accomm

294 to evaluate both the elastic modulus and the tensile strength with a single mechanical test, without

295 ed greater stiffness, increased breaking and tensile strengths, yield load and yield energy, a shift

296 Compared to PVA/CNTs, the tensile strength, Young's modulus and electrical conduct

297 he water vapour permeability increased while tensile strength, Young's modulus and glass transition t

298 inter-fibre separation, roughness, ultimate tensile strength, Young's modulus and strain at break.

299 ons thanks to its unique combination of high tensile strength, Young's modulus and structural flexibi

300 Mechanical properties of the fiber such as tensile strength, young's modulus have also been investi