SU1370527A2 - Method of determining toughness of material destruction - Google Patents

Abstract

The invention relates to the testing of materials and structural elements, in particular, to methods for determining the fracture toughness of a material. The aim of the invention is to improve the accuracy of the method by growing an acute fatigue crack. A notched specimen placed in a container with a corrosive environment is placed in the grips of the test setup. A fatigue crack is grown with a maximum load value in the loading cycle, equal to the value of the subsequent static load, and a gradual increase in the minimum load value in the loading cycle until its development stops. Maintain at static load up to a jump (or the beginning of growth) cracks and growth. crack lengths and load values determine the stress intensity factor by which viscosity is measured by patstttry. 1 PC. i (L

Description

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The invention relates to the testing of materials and structural elements, in particular, to methods for determining the fracture toughness of a material, and is in addition to the author. St. No. 920442.

The aim of the invention is to improve the accuracy of the method by growing an acute fatigue crack.

The drawing shows a diagram of the implementation of the method.

The method is carried out as follows.

The notched sample of material is installed in the grips of the installation, which provides cyclic loading of the sample with different values of the asymmetry coefficient, in a tank with a corrosive medium. A fatigue crack is grown from the top of the notch with a maximum load value in the loading cycle equal to the value of the subsequent static load and a smooth increase in the minimum load value in the loading cycle until i stops the crack development, which ensures the growth of an acute fatigue crack. Subsequent static load is applied before the jump (or growth) of the crack. If the crack does not jump (or there is no crack growth), then the tests are repeated at a higher maximum load value.

During the tests, the increment of the crack length is measured, corresponding to each stage of static load, 3

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Example. Test samples with a notch of steel 50X (vacation 470 C). Samples in a tank with a corrosive environment were fatigably loaded on a machine with a hard loading type, and an upper crack was grown from the top of the notch at the maximum load value in the loading cycle, equal to the value of the subsequent static load, and a smooth increase in the minimum load value in the load cycle to increment it development, maintained under static load up to a jump (or the beginning of growth) of a crack and by the crack length increment and load value the coefficient of stress intensity of onset crack growth equal to 40 MPa {m. The stress intensity coefficient determined by the prototype method is 55 MPa-gm (for the same material and corrosive environment), i.e. The proposed method allows to implement more stringent test conditions and improve their accuracy.

Claims (1)

Invention Formula A method for determining the fracture toughness of a material by author. St. No. 920442, characterized in that, in order to improve accuracy, when growing a fatigue crack, the minimum value of the cyclic load is gradually increased until the crack development stops. orep Circulation 847 Subscription