Joint interface during arc milling brazing of aluminum alloy to low carbon steel with cutter milling at various rotation speeds

Xu, Huibi; Tang, Song; Xi, Hai-Feng; Gao, Pengyu; Li, Moyang

doi:10.1007/s12598-017-0957-y

Cited by 6 publications

(3 citation statements)

References 24 publications

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“…Modelling of the rotating shaft is influenced by many factors, such as workspace of universal joints [3], vibration noise [4], flexibility of a shaft [5], increasing rotation velocity [6].…”

Section: Discussionmentioning

confidence: 99%

Modelling of Critical Velocities of the Cardan Mechanism using Transfer Matrix Method

Hrubý¹,

Náhlík²

2021

Komunikácie

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The presented paper focuses to rotating components of mechanical constructions. The problem of the spatial combined bending-gyratory vibration and calculation of the Eigen frequencies is studied. The model of Cardan Mechanism is solved by the transfer matrix method. Transfer matrices were derived for shaft, concentrated mass and elastic bearing. The physical and mechanical properties of each part of the mechanism are hidden in these matrices. A procedure for calculating Eigen frequencies was proposed.

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Section: Discussionmentioning

confidence: 99%

Modelling of Critical Velocities of the Cardan Mechanism using Transfer Matrix Method

Hrubý¹,

Náhlík²

2021

Komunikácie

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“…The mathematical model of the rotating shaft is influenced by many factors, such as vibration noise [1], flexibility of shaft [2], increasing rotation velocity [3], workspace of universal joints [4] and others [5]. A number of powerful software packages for calculation of torsional vibration already exists [6].…”

Section: Introductionmentioning

confidence: 99%

Effects of Boundary Conditions on the Modal and Spectral Properties of the Shaft

Hrubý¹,

Náhlík²,

Smetanová³

2020

Komunikácie

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Influence of boundary conditions (i.e. mounting type of shafts ends) on spectral and modal properties is studied in this paper. Cases with joints at both ends and with joint at one end and fixed end are described in detail. The vibration problem of rotating shaft is generalized to problem of vibration of the shaft in the rotating plane. The problem is illustrated on testing models. The real mounting type of shafts is presented.

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“…So, based on the arc brazing for aluminium to steel, a new joining technology ‘arc brazing with aid of milling (ABM)’ was put forward by the author. The aluminium alloy and the low carbon steel were successfully joined by the ABM joining technology, and a higher joint interfacial strength was obtained [22]. In this experiment, the 304 stainless steel with a large linear expansion coefficient and 5052 aluminium alloy was joined by the ABM joining technology.…”

Section: Introductionmentioning

confidence: 99%

Arc joining of aluminium alloy to stainless steel with the aid of milling

Gao

Wang

et al. 2019

Materials Science and Technology

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The aluminium alloy and stainless steel were successfully joined by arc brazing with the aid of milling without using flux at a low heat input. With the increase of the radial cutting depth, more and more strip steel chips appeared in the welded seam, the shear strength of welded seam increased gradually. When the radial cutting depth was 0.10 mm, a very thin and wavy θ-FeAl3 IMCs layer can be obtained at the joint interface. At this time, there was the maximum value of shear strength of the joint interface (111 MPa). The fracture of joint interface goes through by a fluctuating path.

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Joint interface during arc milling brazing of aluminum alloy to low carbon steel with cutter milling at various rotation speeds

Cited by 6 publications

References 24 publications

Modelling of Critical Velocities of the Cardan Mechanism using Transfer Matrix Method

Modelling of Critical Velocities of the Cardan Mechanism using Transfer Matrix Method

Effects of Boundary Conditions on the Modal and Spectral Properties of the Shaft

Arc joining of aluminium alloy to stainless steel with the aid of milling

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