Results 301 to 310 of about 408,318 (360)
Advanced Science, EarlyView.This research conducts an in‐depth investigation of cell‐type‐specific regulatory mechanisms underlying molecular and complex phenotypes through integrative analysis of multitissue single‐nucleus RNA sequencing, bulk RNA‐seq, and genome‐wide association study (GWAS) data in pigs.
Lijuan Chen +31 more
wiley +1 more source
Hyperelastic Starch Hydrogel Configures Edible and Biodegradable All‐Components for Soft Robots
Advanced Science, EarlyView.Hyperelastic starch hydrogel is tailored via a phase separation strategy of solvent‐antisolvent co‐modulation. The mechanical performance of starch hydrogel is widely tuned with maximum strains: 194.4–361.4%; maximum tensile stresses: 34–192 kPa; and Young's moduli: 36.0–205.8 kPa. Notably, the hydrogel achieves complete soil degradation within 24 days
Siyu Yao +7 more
wiley +1 more source
Top‐Down Fabricated Wood‐Derived Pressure and Strain Sensors: A Review
Advanced Science, EarlyView.This review focuses on wood‐derived pressure/strain sensors fabricated via top‐down strategies. It analyzes wood's structural composition, examines processing techniques, discusses sensor types and sensing mechanisms, and reviews existing research. The article concludes with future directions for enhancing performance and scalability.
Yi Ren +8 more
wiley +1 more source
Low cycle fatigue behavior of polycrystalline NiAl at 300 and 1000 K
, 1993 Bradley A. Lerch, Ronald D. Noebe
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1988
Description The symposium on Low Cycle Fatigue: Directions for the Future was held in Bolton Landing (on Lake George), New York, 30 September to 4 October 1985. It was sponsored by ASTM Committee E09 on Fatigue, with support from the Hudson-Mohawk Chapter of AIME and the Eastern New York Chapter of ASM.
HD Solomon +3 more
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Description The symposium on Low Cycle Fatigue: Directions for the Future was held in Bolton Landing (on Lake George), New York, 30 September to 4 October 1985. It was sponsored by ASTM Committee E09 on Fatigue, with support from the Hudson-Mohawk Chapter of AIME and the Eastern New York Chapter of ASM.
HD Solomon +3 more
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Modeling Very Low Cycle Fatigue
International Journal of Damage Mechanics, 1995The damage mechanics allows the formulation of a three-dimensional kinetic law of damage evolution adapted to very low cycle fatigue where the number of cycles are as low as one to twenty. Its applicability is shown by an identification on an Inconel 718 alloy at 630°C and by an application as a post processor after a finite element analysis of an ...
J. Dufailly, J. Lemaitre
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2003
A solution annealed type 316 stainless steel exhibits a uniaxial cyclic stress-strain curve at 550°C ...
J. Yates, M. W. Brown
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A solution annealed type 316 stainless steel exhibits a uniaxial cyclic stress-strain curve at 550°C ...
J. Yates, M. W. Brown
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Low cycle fatigue of superalloys
Materials Testing, 2004Abstract Low cycle fatigue (LCF) of a fourth-generation single-crystal (SC) Ni-base superalloy TMS-138 was studied by comparison with typical third-generation (TMS-75) and second-generation (CMSX-4) Ni-base SC superalloys. TMS-138 exhibits improved LCF behaviour under a condition of the R ratio of 0 at temperatures of 1073 K and 1173 K ...
Yasuhiro Aoki +4 more
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Low Cycle Fatigue of Structural Alloys
Materials Science Forum, 2021Metallurgy, mechanical engineering, energy, agriculture, food industry, energy, electronics, rocket and space technology – this is a far from complete list of areas of the national economy in which liquid cryogenic products (cryoproducts). The production volumes of such products and the scale of their use are constantly increasing.
Ivan Medved +4 more
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