Add to ORKGThe results of accurate measurements of the modern boron fiber's Young's modulus, flexural modulus, shear modulus, and Poisson's ratio are reported. Physical property data concerning fiber density, thermal expansion, and resistance obtained during the course of the mechanical studies are also given
A method of measuring the longitudinal residual stress distribution in boron fibers is presented. Th...
Factors affecting tensile strength of ductile metals reinforced with short, brittle fiber
Mechanical behavior of boron-epoxy and glass-epoxy filament-wound cylinders under various load
The flexural deformation behavior of vapor-deposited boron fibers was examined from 100 to 1100 K by...
The dynamic modulus and damping capacity for boron, silicon carbide, and silicon carbide coated boro...
A flexural vibration test and associated equipment were developed to accurately measure the low stra...
The fabrication of boron filaments and the production of composite materials consisting of boron fil...
By measuring the change in fracture stress of 203 micrometer diameter fibers of boron on tungsten (B...
The effects of high temperatures on the structural properties of fiber composite materials for use i...
The fracture strain for boron on tungsten fibers was studied for improvement by heat treatment under...
Boron filaments for use as reinforcing phase in composite materials for aerospace structure
In order to determine their strength potential, the fracture properties of different types of commer...
An investigation was conducted to measure and understand the physical and mechanical effects that oc...
Amorphous boron fiber has been widely used as a reinforcement filler in aerospace resin-matrix compo...
Experimental and theoretical studies were conducted in order to understand and predict the effects o...
A method of measuring the longitudinal residual stress distribution in boron fibers is presented. Th...
Factors affecting tensile strength of ductile metals reinforced with short, brittle fiber
Mechanical behavior of boron-epoxy and glass-epoxy filament-wound cylinders under various load
The flexural deformation behavior of vapor-deposited boron fibers was examined from 100 to 1100 K by...
The dynamic modulus and damping capacity for boron, silicon carbide, and silicon carbide coated boro...
A flexural vibration test and associated equipment were developed to accurately measure the low stra...
The fabrication of boron filaments and the production of composite materials consisting of boron fil...
By measuring the change in fracture stress of 203 micrometer diameter fibers of boron on tungsten (B...
The effects of high temperatures on the structural properties of fiber composite materials for use i...
The fracture strain for boron on tungsten fibers was studied for improvement by heat treatment under...
Boron filaments for use as reinforcing phase in composite materials for aerospace structure
In order to determine their strength potential, the fracture properties of different types of commer...
An investigation was conducted to measure and understand the physical and mechanical effects that oc...
Amorphous boron fiber has been widely used as a reinforcement filler in aerospace resin-matrix compo...
Experimental and theoretical studies were conducted in order to understand and predict the effects o...
A method of measuring the longitudinal residual stress distribution in boron fibers is presented. Th...
Factors affecting tensile strength of ductile metals reinforced with short, brittle fiber
Mechanical behavior of boron-epoxy and glass-epoxy filament-wound cylinders under various load