ライフサイエンスコーパス: finite element analysis

1 ary arteries were studied using large-strain finite element analysis.

2 le Class V cavity preparation was modeled in finite element analysis.

3 sthmic region of L4-5 vertebrae indicated by finite element analysis.

4 nce across numerous large theropods using 3D finite element analysis.

5 bonobos, using laser-Doppler vibrometry and finite element analysis.

6 t area and stresses were next computed using finite element analysis.

7 y microscopy supported by crystal plasticity finite element analysis.

8 n and flow dynamics response are modelled by finite element analysis.

9 ivity, corroborated by simplified models and finite element analysis.

10 buckling pressure is computed via stochastic finite element analysis.

11 s rationalized by Monte Carlo simulation and finite element analysis.

12 foldable modular units were assessed through finite element analysis.

13 loading conditions by using two-dimensional finite element analysis.

14 ilure load) at radius and tibia estimated by finite element analysis.

15 ice designs through theoretical modeling and finite element analysis.

16 The procedures were simulated with finite element analysis.

17 ure characterization, fracture mechanics and finite element analysis.

18 ing was also visualized by simulations using finite element analysis.

19 ymer substrates to MoS2 by three-dimensional finite element analysis.

20 luates the usefulness of this methodology by finite element analysis.

21 ating the strain output with beam theory and finite element analysis.

22 nown models suffices for macroscopic dynamic finite element analysis.

23 ion of imperfect spider web structures using finite element analysis.

24 ed by in situ nanomechanical experiments and finite-element analysis.

25 millimeter-size glass ball, together with a finite-element analysis.

26 ring electrode were calculated by numerical (finite element) analysis.

27 ussed, and theoretical calculations based on finite element analysis allowed the fabrication of FBARs

28 e measurement on a dynamically scaled model, finite-element analysis, analytical estimation of hydrod

29 nt to physical PDL strains estimated through finite element analysis and 2) if a change in FBG strain

30 Finite element analysis and active microrheology demonst

31 Regional wall stresses were calculated using finite element analysis and compared with stresses in co

32 Finite element analysis and computational fluid dynamics

33 Finite Element Analysis and Geometric Morphometrics were

34 nfirm this finite-frequency polarization via finite element analysis and laser-vibrometry experiments

35 tween nodosaurids and ankylosaurids applying finite element analysis and lever mechanics to the skull

36 mputational model was developed, integrating finite element analysis and nerve fiber modeling to simu

37 Coupling between the finite element analysis and network-based tools is estab

38 ults against a theoretical model built using finite element analysis and observe agreement within <=1

39 Finite element analysis and perturbation of Col4 network

40 y protein immunoglobulin G using fluctuating finite element analysis and use it to identify the area

41 ical electrode were calculated by numerical (finite element) analysis and compared to an earlier appr

42 ng currents were calculated using numerical (finite element) analysis and compared to those obtained

43 ncluding a mathematical model and the use of finite element analysis) and experimental characterisati

44 tomography, estimated vertebral strength by finite element analysis, and self-reported fractures.

45 ography, and bone strength with the use of a finite element analysis, and we evaluated dietary protei

46 CONCLUSION Finite element analysis applied to high-spatial-resoluti

47 s the neonatal pig and computer models using finite element analysis are promising experimental techn

48 Key mechanical components, designed by finite element analysis, are fabricated with 3D printing

49 em to facilitate the analysis of AAA using a finite element analysis based approach.

50 Using a finite element analysis based three-dimensional model of

51 A finite element analysis-based biosensor model, simulatin

52 Finite element analysis can quantitatively capture key a

53 In situ infrared imaging shows and finite element analysis confirms localized temperatures

54 Finite element analysis confirms that this effect is due

55 Validation with finite-element analysis confirms the accuracy and effici

56 Our finite element analysis demonstrated that with an optimi

57 Finite-element analysis demonstrated that this paradoxic

58 duce the concept of deep learning (DL) based finite element analysis (DLFEA) to learn the deformation

59 s on time-consuming numerical models such as finite element analysis due to the lack of effective sub

60 In conclusion, OCT-based finite-element analysis effectively assesses plaque biom

61 ation of RF heating by using two-dimensional finite-element analysis (ETherm) was performed with para

62 f theoretical skull shapes was studied using finite element analysis (FEA) and visualized as function

63 Finite element analysis (FEA) coupled with diffusion of

64 understanding of spinal biomechanics through Finite Element Analysis (FEA) is essential for clinical

65 Finite element analysis (FEA) is used by industrial desi

66 We employed a probabilistic finite element analysis (FEA) method to determine how va

67 crete (RC) beams, utilising experimental and finite element analysis (FEA) methodologies.

68 es; and (b) a palladium-hydrogen porous flow finite element analysis (FEA) model.

69 We employed finite element analysis (FEA) of abstract and realistic

70 This process starts with the Finite Element Analysis (FEA) of an existing bridge for

71 Finite element analysis (FEA) offers a powerful framewor

72 Finite element analysis (FEA) simulations demonstrate th

73 with AVF and AVG models shows agreement with finite element analysis (FEA) simulations, while human a

74 These results were used to design a finite element analysis (FEA) study for the assessment o

75 es 3D scanning, algorithmic aggregation, and finite element analysis (FEA) to assess structural viabi

76 skull, and the results were transferred to a finite element analysis (FEA) to estimate the pattern of

77 Here, we used finite element analysis (FEA) to investigate the biomech

78 d increase in the number of biologists using finite element analysis (FEA) to investigate the mechani

79 The finite element analysis (FEA) was conducted to simulate

80 Finite Element Analysis (FEA) was employed to evaluate t

81 Finite element analysis (FEA) was then used to further i

82 Finite Element Analysis (FEA) was used to optimize the d

83 Computational model using Finite Element Analysis (FEA) was used to simulate the m

84 tigation of this study. The results from the finite element analysis (FEA) were close to the experime

85 Here, we combine ML, finite element analysis (FEA), and empirical experiments

86 trabecula segmentation (ITS)-based analysis, finite element analysis (FEA), energy dispersive X-ray s

87 Using finite element analysis (FEA), we calculated the harmoni

88 pared to untreated controls, estimated using finite element analysis (FEA).

89 maging, in situ synchrotron diffraction, and finite element analysis (FEA).

90 n davisi (Late Miocene-Early Pliocene) using Finite Element Analysis (FEA).

91 ll with the simulation results obtained from finite element analysis (FEA).

92 al properties were further interpreted using finite element analysis (FEA).

93 Eight finite-element analysis (FEA) models were built from cra

94 Rayfield et al. have used finite-element analysis (FEA) to investigate such struct

95 brant-loaded extraction phase, CL-EP, with a finite-element analysis (FEA) using COMSOL Multiphysics

96 the tungsten target, was estimated based on finite-element analysis (FEA).

97 The results of our biomechanical analyses (finite element analysis [FEA]) indicate that teeth with

98 r was investigated in various analytical and Finite Element Analysis frameworks to demonstrate its re

99 Wall stress calculated using finite element analysis has been used to predict rupture

100 A greatly simplified 3D finite element analysis has made it possible to quickly

101 ned with a longitudinal imaging protocol and finite element analysis, HR-pQCT can be used to assess b

102 In this context, an Inverse Finite Element Analysis (IFEA) pipeline is developed to

103 constructed and stented computationally with finite element analysis in a well-validated computationa

104 ann), was modeled using two-dimensional (2D) finite element analysis in COMSOL Multiphysics software.

105 Here, we test this hypothesis using finite element analysis in conjunction with comparative,

106 ft ventricular wall stress was calculated by finite element analysis in three regions (infarcted, non

107 PSS was calculated by finite element analysis in whole vessels, in individual

108 hile local strain distributions estimated by finite-element analysis incorrectly predicts preferred b

109 Finite element analysis indicated high stress levels bel

110 Finite element analysis is a powerful computational tech

111 Finite element analysis is also performed to validate th

112 validity of biomechanical data obtained from finite element analysis is dependent on the quality of t

113 n in-situ optical visualization coupled with finite element analysis is utilized to mimic actual elec

114 The finite element analysis is validated by uniaxial compres

115 We couple this apparatus with a finite element analysis magnetic model that was validate

116 calculation of stress distribution with the finite element analysis method (dividing an object into

117 Purpose To describe a nonlinear finite element analysis method by using magnetic resonan

118 A nonlinear finite element analysis method was developed to estimate

119 lusion This experiment demonstrates that the finite element analysis model can consistently and relia

120 A complete 3-dimensional (3D) finite element analysis model of a minimally reduced mol

121 Finite element analysis modeling demonstrates that struc

122 A finite element analysis modelled diffusional generation

123 thickness can significantly increase PWS in finite element analysis models of thoracic aortic aneury

124 A numerical model based on finite element analysis, Monte Carlo simulations, and st

125 ation of computational biomechanical models (Finite Element Analysis, Multibody Dynamics Analysis) de

126 Herein, finite element analysis of a novel biosensor concept for

127 ccular geometry on peak wall stress (PWS) in finite element analysis of descending thoracic aortic an

128 Electromagnetic Finite Element Analysis of photonic heating is coupled t

129 The approach we use involves finite element analysis of the coupled hydrogen transpor

130 xperiments are compared with calculations by finite element analysis of the deformation of a homogene

131 This provides a target for finite element analysis of the flow of silk proteins, wi

132 Body mass, jaw mechanical advantage, finite element analysis of the jaw, and traditional morp

133 A finite element analysis of the system was performed usin

134 ing X-ray computed tomography, and performed finite-element analysis of the mechanical response withi

135 Here, we perform finite-element analysis on the skull of five early-diver

136 ondly, as a solid model, ESM's close link to finite element analysis renders it ideally suited for st

137 est results, evaluate the reliability of the finite element analysis results, and confirm the safety

138 Operando spectroscopy and finite element analysis reveal that greatly enhanced che

139 anical analyzer (DMA) results and associated finite element analysis revealed that a BioTrojan valve

140 Finite element analysis revealed the cause of increase i

141 Finite-element analysis revealed that stresses generated

142 Finite-element analysis reveals that early stiffening of

143 anical experiments, electron microscopy, and finite element analysis show that this property results

144 ized software for tissue motion-tracking and finite element-analysis showed that changes in airway si

145 Finite element analysis shows that the resolved domain w

146 Finite element analysis shows uneven heating, with the m

147 system was first considered by conducting a finite element analysis simulation, and then a demonstra

148 cal characterizations along with multidomain finite-element analysis simulation.

149 eveloped on CAD packages are imported to the finite element analysis software Abaqus, followed by pos

150 MR imaging-based micro-finite-element analysis suggests that stiffness and fail

151 Furthermore, finite element analysis supported the experimental findi

152 Cloud Finite Element Analysis technologies enable proactive da

153 ime local data analysis), and emerging Cloud Finite Element Analysis technologies yield data at unpre

154 related mechanics is further rationalized by finite element analysis, the generalized shear-lag theor

155 data, dental microwear texture analysis, and finite element analysis to clarify the functional signif

156 in silico methods of multi-body dynamics and finite element analysis to compute musculoskeletal force

157 kling resistance are mimicked and modeled by finite element analysis to create a training database.

158 ware and vibration plate were designed using finite element analysis to determine the modal and harmo

159 en three-dimensional print these and perform finite element analysis to experimentally and numericall

160 images by using phantomless calibration and finite element analysis to measure bone mineral density

161 is balloon-artery interaction, we have used finite element analysis to model how balloon-artery cont

162 onth bone remodeling algorithm subroutine in finite element analysis to optimize three parameters: im

163 We employed Finite Element Analysis to simulate biting scenarios on

164 Here, we use finite element analysis to study the mandibles of non-av

165 We apply finite-element analysis to explore the role of strain st

166 ve material model will be used in a detailed finite-element analysis to improve our understanding of

167 T), we generated plaque models and performed finite-element analysis to simulate stress distributions

168 Finite element analysis verified the seesaw mechanism.

169 ments on soft soil through three-dimensional finite element analysis via PLAXIS 3D.

170 Finite element analysis was applied to compute elastic m

171 Finite element analysis was applied to test the hypothes

172 nally, using the PLAXIS 2D software package, finite element analysis was carried out during the secon

173 Finite element analysis was conducted to evaluate the na

174 A MRI-based finite element analysis was generated to characterize th

175 ion of bone remodeling and image-based micro-finite element analysis was then used to predict local b

176 Finite element analysis was used to analyze the stress p

177 Finite element analysis was used to optimize the crucifo

178 Computational fluid dynamics based on finite element analysis was used to optimize the flow co

179 Finite element analysis was used to predict stress and s

180 Finite element analysis was used to predict the LCD and

181 Finite Element Analysis was used to predict wall stress

182 From these tests, finite-element analysis was performed to model and simul

183 t transfer and structural mechanics based on finite element analysis, we demonstrated that pore openi

184 Using finite element analysis, we estimate a remote heating pa

185 ultaneous confocal microscopy, combined with finite element analysis, we investigate how a microparti

186 Using finite element analysis, we present a three-dimensional

187 combination of micro computed tomography and finite element analysis, we then present a computational

188 on in a transmission electron microscope and finite-element analysis, we show that the mechanical pro

189 were acquired from the samples, and CTRA and finite element analysis were performed to obtain the fai

190 Experimental compaction and finite element analysis were utilized to rationalize the

191 vibration characteristics of metabeams using finite element analysis, with a subsequent comparison to