James L. Lubkin scite author profile

James L. Lubkin

5Publications

41Citation Statements Received

0Citation Statements Given

How they've been cited

145

How they cite others

Affiliations

Michigan State University, MRIGlobal, American Foundry Society

Publications

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Stress Distribution and Design Data for Adhesive Lap Joints Between Circular Tubes

Lubkin

Reissner

1956

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This paper presents stress distributions for 48 adhesive lap joints between thin circular tubes loaded in tension. The adhesive is treated as a thin elastic layer, much more flexible than the adherends, so that the analysis applies primarily to the bonding of metals and plastics. Ordinary thin-shell theory is used for the adherends. The basic theory and the calculated adhesive shear and normal stresses are given, and the significant principal stresses are discussed. The influence of the various system parameters, notably the tube curvature, is considered in some detail, and a comparison is made with previous flat lap-joint results. The applicability of the theory in joint design also is treated.

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The Torsion of Elastic Spheres in Contact

Lubkin

1951

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A small torsional couple is applied about the axis of symmetry of a system of two elastic spheres (or solids of revolution) which have been pressed together by a force perpendicular to their common tangent plane. This problem may be reduced to a “problem of the plane,” and it has been found that in the absence of slip on the interface, the tangential traction is singular on the bounding circle. Hence the assumption of no slip is physically untenable. In the present solution allowance is made for slip by assuming that the tangential component of traction, for the area over which slip has progressed, is equal to the product of a constant friction coefficient and the normal or Hertzian distribution. A continuous expression for the traction is developed. A formula relating the radial depth of penetration of slip to the magnitude of the applied moment is given, and another relating this moment to the rotation of the contact surface of one of the bodies with respect to remote points in that body.

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Adhesive Shear Flow for an Axially-Loaded, Finite Stringer Bonded to an Infinite Sheet

Lubkin

Lewis²

1970

Q J Mechanics Appl Math

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Finite Element Dynamic Analysis of an Automotive Frame

Borowski¹,

Steury²,

Lubkin³

1973

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The Flexibility of a Tubular Welded Joint in a Vehicle Frame

Lubkin¹

1974

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James L. Lubkin

Stress Distribution and Design Data for Adhesive Lap Joints Between Circular Tubes

The Torsion of Elastic Spheres in Contact

Adhesive Shear Flow for an Axially-Loaded, Finite Stringer Bonded to an Infinite Sheet

Finite Element Dynamic Analysis of an Automotive Frame

The Flexibility of a Tubular Welded Joint in a Vehicle Frame

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