Add to ORKGTensile testing of gel-spun hot-drawn ultra-high molecular weight polyethylene (UHMWPE) fibres reveal a ductile-brittle transition temperature. Ductile fracture above the transition temperature is believed to be initiated by a stress-induced orthorhombic-hexagonal phase transition, whereas at lower temperatures brittle fracture occurs in the orthorhombic phase. SEM micrographs of the fracture surfaces of UHMWPE fibres fractured below the transition temperature show fibrillar fracture and cannot be distinguished from fibres fractured in a ductile way above the transition temperature.</p
The influence of tensile deformation on gel-spun and hot-drawn ultrahigh molecular weight polyethyle...
The fracture behaviour of polypropylene was studied as a function of the molecular weight and the te...
The tensile strength of gel-spun polyethylene fibres hot-drawn to the maximum draw ratio depends on ...
In the present investigation the influence of strain rate and temperature on modulus, strength and w...
In the present investigation the influence of strain rate and temperature on modulus, strength and w...
The effects of temperature and strain-rate on the mechanical properties of Ultra High Molar Mass Pol...
The fracture behaviour of ultra-high strength polyethylene fibres has been investigated in dead load...
The tensile strength of gel-spun polyethylene fibers obtained after hot-drawing depends on spinning ...
This thesis deals with the tensile behaviour of fibres prepared from high molecular weight polymers....
Fibre strength has been determined over a temperature range -175-100 degrees C. The creep studies ha...
International audienceThe fatigue of single thermoplastic fibres has been well documented to occur i...
Tensile and creep tests have been conducted on monofilaments of gel-spun high-modulus polyethylene f...
Gel- and suspension-spun fibres of ultra-high molecular weight polyethylene have been subjected to h...
In highly oriented polymers, stress can stabilize fibers against melting by favoring the low-entropy...
The influence of tensile deformation on gel-spun and hot-drawn ultrahigh molecular weight polyethyle...
The fracture behaviour of polypropylene was studied as a function of the molecular weight and the te...
The tensile strength of gel-spun polyethylene fibres hot-drawn to the maximum draw ratio depends on ...
In the present investigation the influence of strain rate and temperature on modulus, strength and w...
In the present investigation the influence of strain rate and temperature on modulus, strength and w...
The effects of temperature and strain-rate on the mechanical properties of Ultra High Molar Mass Pol...
The fracture behaviour of ultra-high strength polyethylene fibres has been investigated in dead load...
The tensile strength of gel-spun polyethylene fibers obtained after hot-drawing depends on spinning ...
This thesis deals with the tensile behaviour of fibres prepared from high molecular weight polymers....
Fibre strength has been determined over a temperature range -175-100 degrees C. The creep studies ha...
International audienceThe fatigue of single thermoplastic fibres has been well documented to occur i...
Tensile and creep tests have been conducted on monofilaments of gel-spun high-modulus polyethylene f...
Gel- and suspension-spun fibres of ultra-high molecular weight polyethylene have been subjected to h...
In highly oriented polymers, stress can stabilize fibers against melting by favoring the low-entropy...
The influence of tensile deformation on gel-spun and hot-drawn ultrahigh molecular weight polyethyle...
The fracture behaviour of polypropylene was studied as a function of the molecular weight and the te...
The tensile strength of gel-spun polyethylene fibres hot-drawn to the maximum draw ratio depends on ...