flexural strength

listen to the pronunciation of flexural strength
الإنجليزية - التركية
Bükülme dayanıklılığı, bükülme mukavemeti
(Mühendislik) (veya modulus of rüptüre, bend strength, or fracture strength. Flexural strength) Eğilme mukavemeti
(Askeri) esneklik dayanımı
الإنجليزية - الإنجليزية
Flexural strength is also known as modulus of rupture, bend strength, or fracture strength. Flexural strength is measured in terms of stress, and thus is expressed in pascals (Pa) in the SI system
The stress that a specimen will withstand when subjected to a bending moment
This is also known as bending strength It describes how much of a non-moving load can be applied before a bar yields or breaks Units are normally thousands of pounds per square inch (103 psi) - Mega Pascals (mPa) Higher numbers mean that material is stronger and can withstand a heavier load
The strength of a material in bending, usually expressed in force per unit area, as the stress of a bent test sample at the instant of failure
The maximum stress in the outer fiber at the moment of crack or break In the case of plastics, this value is usually higher than the tensile strength
The strength of a material in bending
The strength of a material in bending The load is applied to a beam supported at each end
The ability of a material to withstand bending before reaching the breaking point Usually measured in psi
– The strength of a material in bending, expressed as the tensile stress of the outermost fibers of a bent samples at the instant of failure or at 5 % strain if the material does not break at the outer fiber
Maximum fiber stress developed in a specimen just before it cracks or breaks in a flexure test Flexural yield strength is reported instead of flexural strength for materials that do not crack in the flexure test An alternate term is modulus of rupture
The maximum stress (MPa) recorded during the test
The load a product is able to withstand before it brakes while bending Usually expressed as Pounds/in2
The strength of a material in bending, expressed as the tensile stress of the outermost fibers of a bent test specimen at the instant of failure
The strength of a material in bending, expressed as the tensile stress of the outermost fibers of a bent test sample at the instant of the failure With plastics, this value is usually higher than the straight tensile strength