Synthesis of continuous silicon carbide fibre with high tensile strength and high Young's modulus. Part I: Synthesis of polycarbosilane as precursor.

Classic molecular dynamics (MD) simulation of hypothetical MoS2NT nanorings and their woven hierarchical structures shows a strong dimension-dependent structural stability, and reveals that the hierarchical structures with 4-in-1 weaves exhibit high tensile strength and Young's modulus.

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Effects of microstructure on internal friction and Young's modulus of high-tensile strength steel HT 80.

Journal of the Society of Materials Science Japan ◽

10.2472/jsms.34.1267 ◽

1985 ◽

Vol 34 (386) ◽

pp. 1267-1270

Author(s):

Manabu TANAKA ◽

Shin TOMITA ◽

Hiroshi IIZUKA ◽

Fumio ASHIHARA

Keyword(s):

Tensile Strength ◽

Internal Friction ◽

Young’S Modulus ◽

Young's Modulus ◽

High Tensile Strength

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Development of Changeable Young's Modulus with Good Mechanical Properties in β-Type Ti-Cr-O Alloys

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.575-576.453 ◽

2013 ◽

Vol 575-576 ◽

pp. 453-460

Author(s):

Hui Hong Liu ◽

Mitsuo Niinomi ◽

Masaaki Nakai ◽

Junko Hieda ◽

Ken Cho

Keyword(s):

Mechanical Properties ◽

Tensile Strength ◽

Young’S Modulus ◽

Young's Modulus ◽

Stress Shielding ◽

Shielding Effect ◽

Potential Candidate ◽

Spinal Fixation ◽

High Tensile Strength ◽

Cold Rolled

A novel β-type titanium alloy with a changeable Youngs modulus, that is, with a low Young's modulus to prevent the stress-shielding effect for patients and a high Young's modulus to suppress springback for surgeons, should be developed in order to satisfy the conflicting requirements of both the patients and surgeons in spinal fixation operations. In this study, the oxygen content in ternary Ti-11Cr-O alloys was optimized in order to achieve a large changeable Young's modulus with good mechanical properties for spinal fixation applications. The increase in Youngs moduli of all the examined alloys by cold rolling is attributed to the deformation-induced ω-phase transformation which is suppressed by oxygen. Among the examined alloys, the Ti-11Cr-0.2O alloy exhibits the largest changeable Youngs modulus and a high tensile strength with an acceptable plasticity under both solution-treated (ST) and cold-rolled (CR) conditions. Therefore, the Ti-11Cr-0.2O alloy, which shows a good balance among a changeable Youngs modulus, high tensile strength and good plasticity, is considered a potential candidate for spinal fixation applications.

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High tensile strength, high Young's modulus carbon fiber having excellent internal structure homogeneity and process for producing the same

Composites ◽

10.1016/0010-4361(79)90500-7 ◽

1979 ◽

Vol 10 (1) ◽

pp. 56

Keyword(s):

Tensile Strength ◽

Carbon Fiber ◽

Young’S Modulus ◽

Internal Structure ◽

Young's Modulus ◽

High Tensile Strength

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Development of high tensile strength silicon carbide fibre using an organosilicon polymer precursor

Nature ◽

10.1038/273525a0 ◽

1978 ◽

Vol 273 (5663) ◽

pp. 525-527 ◽

Cited By ~ 259

Author(s):

S. YAJIMA ◽

Y. HASEGAWA ◽

K. OKAMURA ◽

T. MATSUZAWA

Keyword(s):

Silicon Carbide ◽

Tensile Strength ◽

Polymer Precursor ◽

High Tensile Strength ◽

Organosilicon Polymer ◽

Silicon Carbide Fibre

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Development of a silicon carbide fibre with high tensile strength

Nature ◽

10.1038/261683a0 ◽

1976 ◽

Vol 261 (5562) ◽

pp. 683-685 ◽

Cited By ~ 379

Author(s):

S. YAJIMA ◽

J. HAYASHI ◽

M. OMORI ◽

K. OKAMURA

Keyword(s):

Silicon Carbide ◽

Tensile Strength ◽

High Tensile Strength ◽

Silicon Carbide Fibre

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Effect of Microcrystalline Cellulose from Banana Stem Fiber on Mechanical Properties and Crystallinity of PLA Composite Films

Materials Science Forum ◽

10.4028/www.scientific.net/msf.695.170 ◽

2011 ◽

Vol 695 ◽

pp. 170-173 ◽

Cited By ~ 4

Author(s):

Voravadee Suchaiya ◽

Duangdao Aht-Ong

Keyword(s):

Tensile Strength ◽

Young’S Modulus ◽

Microcrystalline Cellulose ◽

Young's Modulus ◽

Agricultural Waste ◽

Composite Films ◽

Sem Image ◽

Biocomposite Films ◽

Twin Screw ◽

Banana Stem

This work focused on the preparation of the biocomposite films of polylactic acid (PLA) reinforced with microcrystalline cellulose (MCC) prepared from agricultural waste, banana stem fiber, and commercial microcrystalline cellulose, Avicel PH 101. Banana stem microcrystalline cellulose (BS MCC) was prepared by three steps, delignification, bleaching, and acid hydrolysis. PLA and two types of MCC were processed using twin screw extruder and fabricated into film by a compression molding. The mechanical and crystalline behaviors of the biocomopsite films were investigated as a function of type and amount of MCC. The tensile strength and Young’s modulus of PLA composites were increased when concentration of MCC increased. Particularly, banana stem (BS MCC) can enhance tensile strength and Young’s modulus of PLA composites than the commercial MCC (Avicel PH 101) because BS MCC had better dispersion in PLA matrix than Avicel PH 101. This result was confirmed by SEM image of fractured surface of PLA composites. In addition, XRD patterns of BS MCC/PLA composites exhibited higher crystalline peak than that of Avicel PH 101/PLA composites

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