ライフサイエンスコーパス: mechanical test

1 failure load (FL) was determined by using a mechanical test.

2 which can be obtained from FEA and standard mechanical tests.

3 tings was explored using electrochemical and mechanical tests.

4 lied strain, by conducting stiffness-sensing mechanical tests.

5 ge in preparing large bulk glass samples for mechanical testing.

6 or analysis via histology, bulk RNA-seq, and mechanical testing.

7 eal nerve block administration combined with mechanical testing.

8 reliability, and no premature failure during mechanical testing.

9 ro-CT and histology, and 28 days later using mechanical testing.

10 s spanning from neutron scattering to static mechanical testing.

11 emale C57BL/6 mice for in vitro vascular and mechanical testing.

12 7-deazaguanine (DeUG) units was evaluated by mechanical testing.

13 ng anterior knee laxity as demonstrated with mechanical testing.

14 it is more flexible and confirmed by direct mechanical testing.

15 higher reliability under mouth-motion cyclic mechanical testing.

16 ing and then characterized by microscopy and mechanical testing.

17 Environmental and mechanical tests also prove the material's resilience, s

18 d collagen gel subjected to an off-axis hold mechanical test and subsequently to biaxial extension.

19 use in situ transmission electron microscopy mechanical testing and atomistic simulations to demonstr

20 Tensile mechanical testing and compositional analysis reveal tha

21 By using mechanical testing and small-angle X-ray scattering, as

22 The material was subjected to mechanical testing and was assayed for in vitro cytotoxi

23 of high-entropy alloys (HEAs) using in situ mechanical tests and atomic-resolution characterization

24 estigate the origin of the toughness through mechanical tests and microscopic observations.

25 ecific stiffness data measured using ex-vivo mechanical testing, and (ii) patient-specific estimation

26 arametric geometrical modeling, 3D printing, mechanical testing, and discrete element simulations, we

27 was evaluated by micro-computed tomography, mechanical testing, and histological characterization.

28 Finite element modeling, mechanical testing, and immunohistochemical analyses at

29 erties of PLGA have been characterized using mechanical tests, and a finite-element model has been de

30 viable tool to fabricate bone specimens for mechanical testing at the micro- and nanoscale and we pr

31 By combining mechanical testing at two length scales and magnetic res

32 Mechanical testing by sporting governing bodies ensures

33 Although mechanical tests can quantify corneal elasticity ex vivo

34 Conventional mechanical testing cannot delineate complex micromechani

35 Subsequent mechanical tests confirmed no measurable implant loading

36 Mechanical tests confirmed the durability of the patch,

37 Before mechanical testing, cytochalasin D, acrylamide, or colch

38 his presents a problem when trying to obtain mechanical test data as a function of irradiation level.

39 This study aimed to collect mechanical test data from freshly excised lung, obtained

40 lows and validated using postmortem physical mechanical test data.

41 n developing large, open-source databases of mechanical testing data to support future research.

42 Mechanical testing demonstrated significant increases in

43 d vessel mechanical properties, by combining mechanical testing (distension) of excised porcine coron

44 Ninhydrin assay, FTIR, WAXD, SEM and mechanical tests documented successful crosslinking that

45 Our data from X-ray tomography (uCT) and mechanical testing experiments are in excellent agreemen

46 ansfer, microstructure characterization, and mechanical testing extremely challenging.

47 lysis included radiographs, basic histology, mechanical testing, flow cytometry, and immunohistochemi

48 esting is a reliable alternative to physical mechanical testing for assessing intact and healing long

49 riching the data extracted from conventional mechanical tests, for potential use in data-driven const

50 Mechanical testing has revealed that each is elastomeric

51 ng to early bony fusion as shown by imaging, mechanical testing, histological analysis, and microarra

52 ples of irradiated muscle were harvested for mechanical tests, histological (Hematoxylin & Eosin, and

53 Each leg was randomly assigned for mechanical tests, histology, or gene expression.

54 By quantitative mechanical tests in an environmental transmission electr

55 gth than some commercial composite resins in mechanical tests in vitro.

56 We also carried out mechanical testing, including cyclic testing at 4% strai

57 Mechanical testing indicated dramatically altered period

58 Mechanical testing indicated inferior material propertie

59 Mechanical tests indicated significant improvements: ten

60 Mechanical tests indicated that the constructs could wit

61 Virtual mechanical testing is a promising technique for image-ba

62 These results confirm that virtual mechanical testing is a reliable alternative to physical

63 with appropriate material modeling, virtual mechanical testing is a reliable surrogate for physical

64 resin TC-85 is printed, and extensive thermo-mechanical testing is conducted, which includes evaluati

65 High-strain-rate mechanical testing is thus needed to improve the design

66 Mechanical test lung and artificial trachea simulations

67 frequency oscillatory ventilation (HFOV) and mechanical test lung models with respect to delivered ti

68 tomography, scanning electron microscopy and mechanical testing methods.

69 ir microenvironment, the current paradigm in mechanical testing of adherent cells is mostly limited t

70 d on previous statistical measurements while mechanical testing of arteries (n = 5) were performed in

71 Mechanical testing of collagenous tissues at different l

72 Mechanical testing of degraded samples revealed hard seg

73 Mechanical testing of dorsal skin correlates these chang

74 ent with the findings of the recent in vitro mechanical testing of micropatterned neuronal cultures.

75 extensive molecular-dynamics simulations of mechanical testing of model polymer (high-density polyet

76 system for in situ electron microscopy (EM) mechanical testing of nanostructures.

77 raightforward, rapid, low-cost, and portable mechanical testing of single molecules that can be imple

78 Ex vivo mechanical testing of SIS-ECM valve tissue showed normal

79 These results, combined with findings from mechanical testing of tendons from these mice, indicate

80 Furthermore, high temperature mechanical testing of the DS alloys showed significant i

81 Mechanical testing of the femurs demonstrated that loss

82 binding, integrin activation, spreading, and mechanical testing of the surface.

83 ion of anisotropic extension are verified by mechanical tests of drawn silk fibers and justified by t

84 Virtual mechanical testing on image-based bone models (digital t

85 Mechanical testing on oxygen vacancies-rich Mn-doped Pb(

86 atures under ambient pressure, and therefore mechanical tests on (Mg,Fe)SiO3 perovskite are difficult

87 compared with data obtained previously from mechanical tests on adherent cells.

88 We describe a cell culture and mechanical testing protocol for generating freely suspen

89 The results from both the MS studies and mechanical testing provide insights into the chemical ch

90 However, tensile mechanical testing reported that the old group demonstra

91 hen compared with conventional stress-strain mechanical test results.

92 Mechanical testing results establish that patch integrit

93 and validated against both thermography and mechanical testing results.

94 g in ultrastructural loss which could affect mechanical testing results.

95 Mechanical testing revealed increased repair strength, c

96 Comprehensive mechanical testing revealed material high elasticity and

97 Our mechanical testing revealed that the compressed MT behav

98 Mechanical testing revealed that the PCL and PCL/Alg sca

99 Micro-computed tomography scans and mechanical testing revealed that trabecular bone microar

100 Multiscale mechanical testing reveals that as the size, complexity,

101 ipients, urea and shellac, and uses uniaxial mechanical testing, scanning electron microscopy (SEM),

102 Mechanical testing showed a propensity for skin to tear

103 Mechanical testing showed swine and human cervical tissu

104 Mechanical testing showed that TNF-alpha decreases the s

105 lly, the results from mechanical and dynamic mechanical tests showed that performances dramatically i

106 Mechanical testing shows that the adhesive film has stre

107 Here, we run mechanical tests simultaneously to measurements of the m

108 In a parallel study, tissue adjacent to the mechanical test specimens was apportioned for each of fi

109 ipulating these lipid vesicles for sampling, mechanical testing, spectroscopic observation, and chemi

110 Furthermore, mechanical testing such as tensile revealed 23.3 MPa for

111 Multiscale mechanical tests such as nanoindentation and three-point

112 Mechanical testing suggested that collagen XIV confers s

113 anoindentation as a broadly used small-scale mechanical testing technique that enables hardness measu

114 Although several high-strain-rate mechanical testing techniques have been developed to pro

115 astin insufficiency was also shown by aortic mechanical testing that demonstrated incrementally abnor

116 ing in situ transmission electron microscope mechanical testing, that [Formula: see text] dislocation

117 Using compressive mechanical testing, the stress-strain responses of 3D-pr

118 Here, we use in situ mechanical testing to examine how physiologically pertin

119 iscale microstructural characterization, and mechanical testing to gain insight into the solidificati

120 Muscle mechanical testing, two-photon imaging and hydroxyprolin

121 Mechanical testing using microindentation gives a Vicker

122 Phase-specific mechanical tests using nano-indentation and micro-pillar

123 Mechanical tests verify the tar's suitability for haftin

124 Mechanical testing was performed on corneal flaps from s

125 dvanced microscopy, spectroscopy and in situ mechanical testing, we identify multiscale architectural

126 Mechanical tests were conducted to characterize the phys

127 SEM, FTIR and mechanical tests were further employed to investigate th

128 ehicle and subject to pre- and posttreatment mechanical testing, which consisted of a staircase proto

129 he requisite use of conventional destructive mechanical testing, which is necessarily retrospective.

130 Here we perform in situ mechanical testing with synchrotron X-ray computed micro

131 The 80 femurs were fractured via mechanical testing, with random assignment of one femur

132 dulus and the tensile strength with a single mechanical test, without the need for other experimental