Results 301 to 310 of about 137,347 (342)
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The ultimate tensile strength of coach peel self-piercing riveting joints
Strength of Materials, 2013Due to the increased use of lightweight sheet materials, there has been a significant increase in the use of self-pierce riveting. This paper deals with the ultimate tensile strength of coach peel self-pierce riveted joints. The online window technique was introduced in the coach peel self-pierce riveting processes for evaluating the quality of joints.
He, X., Xing, B.
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Ultimate Strength of Rectangular Compression Members without Tensile Strength
Journal of the Structural Division, 1974In a 1971 paper by Yokel, he presented an analysis for the ultimate load of eccentrically loaded compression members of rectangular cross section with no tensile strength. This paper extends the range of the analysis and gives general expressions for a load-slenderness ratio relationship for the entire range of eccentricity-depth ratio e/t .
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Modeling the Ultimate Tensile Strength of Unidirectional Glass‐Matrix Composites
Journal of the American Ceramic Society, 2000The ultimate tensile strengths of a unidirectional glass‐matrix composite were measured as a function of fiber volume fraction. The results were compared with predictions, using a refined solution of the stress field generated by an axisymmetric damage model, which incorporated the effect of stress concentration in the fiber caused by the presence of a
N. J. Pagano +3 more
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A Comparative Study for the Prediction of Ultimate Tensile Strength in Flexible Pipes
Day 4 Fri, March 25, 2016, 2016Abstract A flexible pipe consists of several layers which have various materials and different functions. For a new design of flexible pipe, the structural response on external loads will vary depending on the characteristics of each layer.
Beom-Seon Jang, Ki-Ho Yim
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Tensile Strength and Ultimate Elongation of Rubber-Fibrous Compositions
International Journal of Polymeric Materials and Polymeric Biomaterials, 1980Abstract Data are presented which show that the mechanism of fracture in rubber-fiber composites is governed by the adhesion of the matrix material to the fiber as well as the strength of the matrix. Degree of orientation of the fiber is also important.
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Collective prediction of ultimate tensile strength in high-precision foundries
2012 7th IEEE Conference on Industrial Electronics and Applications (ICIEA), 2012Mechanical properties are the features that measure the ability of a metal to withstand several loads and tensions. Specifically, ultimate tensile strength is the force a material can resist until it finally breaks. This property is one of the variables controlled during the foundry process.
Javier Nieves +2 more
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Investigation into the ultimate tensile strength of laminated silage fibres
Journal of Agricultural Engineering Research, 1968Abstract In connection with investigations into the self-feeding of silage from tower silos, experiments were conducted to determine the intrinsic strength of silage in the mass with a view to assessing the flow characteristics of this material in large diameter silos (about 20 ft).
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Transition in ultimate tensile strength under load control at 4 K
Journal of Materials Science Letters, 1994신소재공학과
h.-m. lee +2 more
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The Relation Between Ultimate Tensile Strength and Carbide Size in Steel
Journal of Engineering Materials and Technology, 1976The paper demonstrates that a definite and simple relationship exists between ultimate tensile strength (or Brinell hardness) and the carbide size in steels, for a given carbide shape and volume fraction. This is explained on the basis that microvoid initiation, by decohesion at the carbide/matrix interface or by fracture of the carbide itself, is the ...
I. Le May, M.-W. Lui
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Effect of ensemble of stress concentrators on the ultimate tensile strength of material
Journal of Nuclear Materials, 2001Equilibrium of a (quasi)brittle crack in a uniaxially loaded material with an infinite linear row of stress concentrators is investigated. Dependence of the equilibrium crack length on the applied stress, internal loading, stress concentrator size, distance between neighboring concentrators etc. is found.
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