ライフサイエンスコーパス: flexural strength

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1 ce flaws does not significantly increase the flexural strength.

2 ith the coated nanoparticles showed improved flexural strength (10% to 30% higher) and work of fractu

3 The highest flexural strength (195+/-8 MPa) and fracture toughness (

4 day water-aging, NACP+QADM nanocomposite had flexural strength and elastic modulus matching those of

5 es were tested for CHX release and recharge, flexural strength and modulus (at 24 hr and 1 mo), surfa

6 Flexural strength and modulus, toughness, and fracture t

7 e stabilization of cubic leucite reduced the flexural strength and the number of crack deflections in

8 dental porcelain, evaluate its effect on the flexural strength, and characterize its microstructure.

9 ed mineralized trabecular bone volume, lower flexural strength, and histologic evidence of osteomalac

10 splays a three-fold elevation in tensile and flexural strength, as compared to pure epoxy resin, with

11 lly matched glass would increase the biaxial flexural strength (BFS).

12 s exhibited a significantly lower (p < 0.05) flexural strength compared with rapidly cooled specimens

13 The composite flexural strength, elastic modulus, hardness, and degree

14 The flexural strength first increased, then plateaued with i

15 The mean biaxial flexural strength for the group corresponding to 22.2 wt

16 nocomposites, including water-aging effects, flexural strength, fracture toughness, and three-body we

17 The flexural strength (FS) and flexural modulus (FM) were no

18 The flexural strength in MPa (mean +/- SD; n = 10) was 86 +/

19 hisker composite with 70% filler level had a flexural strength in MPa (mean +/- SD; n = 6) of 248 +/-

20 The flexural strengths in MPa (mean +/- SD; n = 6) of DCPA-w

21 ite with a filler mass fraction of 55% had a flexural strength (mean +/- SD; n = 6) of 196+/-10 MPa,

22 The flexural strength (mean+/-SD; n = 10) was 86+/-20 MPa fo

23 particulate-filled compounds (p < 0.001) for flexural strength, modulus, work of fracture, strain at

24 Flexural strength/modulus increased significantly for bo

25 crostructure, crack deflection patterns, and flexural strength of a leucite-reinforced porcelain.

26 The flexural strength of hydrated OWC samples was increased

27 The flexural strength of the aluminas was determined with th

28 Flexural strength of the compact is not only determined

29 with the control ones, the reduction of the flexural strength of the heat-treated, impregnation/heat

30 crostructure, crack deflection patterns, and flexural strength of the material.

31 The mean flexural strength of the rubidium-exchanged material was

32 The nanocomposites had flexural strengths of 70-120 MPa, after 84-day immersion

33 g with enhanced fracture toughness (KIC) and flexural strength (sigmaf) of the composites by ~75% (5.

34 d at 1150 degrees C exhibited a mean biaxial flexural strength significantly higher than that of all

35 ctate and powder:liquid ratio (p < 0.001) on flexural strength, strain-at-peak-load, work-of-fracture

36 hane to the commercial cement led to similar flexural strength, toughness, and conversion at 72h comp

37 xy) phenyl]-propane (BisGMA) were tested for flexural strength, viscosity, and water sorption.

38 The particle size, mechanical and flexural strength was also determined.

39 asured shear stress concentration factor and flexural strength with the fracture toughness of concret

40 Flexural strength, work-of-fracture, and fracture toughn

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