Lars Troive scite author profile

Lars Troive

5Publications

41Citation Statements Received

4Citation Statements Given

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Affiliations

SSAB (Sweden), Norsk Hydro (Slovakia), Dalarna University

Publications

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Experimental and Numerical Study of Multi-Pass Welding Process of Pipe-Flange Joints

Troive

Näsström

Jönsson

1998

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Residual deformations of pipe-flange joints due to thermal strains caused by the multi-pass welding procedure in a manufacturing process are investigated both experimentally and numerically (FEM). To avoid any risk of leakage between two mounted pipes using flange joints, geometrical distortions (twisting) of the flange must be prevented. How the flange is distorted depends both on the groove shape and the weld sequence used. However, to be spared from machine work after the welding process, the distortions have to be minimized. A casting-technique has been developed in order to measure the twisting of the flange after each weld pass. Also, measurements of the residual radial deflection of the pipe have been performed.

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Green Body Behaviour of High Velocity Pressed Metal Powder

Jonsén¹,

Häggblad²,

Troive³

et al. 2007

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High velocity compaction (HVC) is a production technique with capacity to significantly improve the mechanical properties of powder metallurgy (PM) parts. Several investigations indicate that high-density components can by obtained using HVC. Other characteristics are low ejection force and uniform density. Investigated here are green body data such as density, tensile strength, radial springback, ejection force and surface flatness. Comparisons are performed with conventional compaction using the same pressing conditions. Cylindrical samples of a pre-alloyed water atomized iron powder are used in this experimental investigation. The different behaviour of HVC-pressed green bodies compared to conventional pressed green bodies are analysed and discussed. The HVC process in this study resulted in a better compressibility curve and lower ejection force compared to conventional quasi static pressing. Vertical scanning interferometry (VSI) measurements show that the HVC process gives flatter sample surfaces.

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Springback compensation for a vehicle’s steel body panel

Troive

Bałon

Świątoniowski

et al. 2017

International Journal of Computer Integrated Manufacturing

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The effect of mechanical behavior on bendability of ultrahigh-strength steel

Arola

Kaijalainen

Kesti

et al. 2021

Materials Today Communications

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Green Body Behaviour of High Velocity Pressed Metal Powder

Jonsén

Häggblad

Troive

et al. 2007

MSF

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Lars Troive

Experimental and Numerical Study of Multi-Pass Welding Process of Pipe-Flange Joints

Green Body Behaviour of High Velocity Pressed Metal Powder

Springback compensation for a vehicle’s steel body panel

The effect of mechanical behavior on bendability of ultrahigh-strength steel

Green Body Behaviour of High Velocity Pressed Metal Powder

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