INVBSTIGATION OF SINGLE FILLET WELD FOR BUILT-UPMEMBERS

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Nabeel K. Al-sahib
Laith Abed Sabri
Mohanned A. Al -Ani

Abstract

The main purpose of this study is to investigated the single fillet weld design for built-up members
by using ftision welding and find the effects of welding power input on that design for member. In
this work, investigation of welding metal for Low carbon steel plate type St.52-3, thickness 6-8
rnm, which is to ensure good mechanical properties under high stresses for ( Welding metal , heat
affected Zone (HAZ) and base metal ). Also it can be explain, that the effects of welding processes
on the deformation and changes in mechanical and metallurgical properties due to high thermal
energy, results from welding process. This study involved: weld design, selection of suitable
electrode, evaluation of mechanical and metallurgical properties, the maximum allowable value of
sweep of welded mamber after ( fabrication and erection ) has been calculated, also leg and through
length have been calculated for the welded Zone. The main results of this study are :
- The value of sweep which occur before the erection and tightening is ( 29 mm. ).
- The leg and through length of welding metal which welded by electrode type
( E 7018 = OKUS ), its found equal to ( 4 mm. ).
The study results can ensure good mechanical and metallurgical properties for signal filled weld
( Built-up members ).
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Article Details

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How to Cite

“INVBSTIGATION OF SINGLE FILLET WELD FOR BUILT-UPMEMBERS” (2024) Journal of Engineering, 10(1), pp. 103–116. doi:10.31026/j.eng.2004.01.09.

References

David T. Ricker, (1988), Field Welding to Existing Steel Structures, Engineering Journal, American

Inst. Of Steel Construction, First Quarter.

American welding Society welding Handbook volume lthrough 5,7th edition.

Structural welding code- steel (American Welding Society/ AWS Dl.l:2000, Miami: American

Welding S

-R. A. Higgins (1983), Engineering metallurgy, Applied Physical metallurgy, Fifth edition.

Zienkiewiczo. c., Taylor R. L., (1989), The finite element method.

Holman, J. p. (1993), heat transfer, McGraw-Hill, 7th edition.

Kaseb, S. (2002), Heat Transfer through different shape of steel structure, Journal of Engineering

and applied science, vol.49,

Kaseb, S., (2002), Conduction through L-sections with surface Radiation and free convection

Journal of Engineering and applied science, vol. 49.

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