Composite Materials for Mechanized Brazing

Emilia Florina Binchiciu; Traian Fleser; Ionelia Voiculescu; Tanasache Daniel Tihanov; Andra Dragomir

doi:10.4028/www.scientific.net/AMR.1138.119

Paper Titles

Proposals for the Application of the European Standard SR-EN-1090 in the Design and Execution of Steel Structures Especially Bridges
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Contributions to the Environmental Impact of the Process of Welding Work in the Environment of Protective Gases
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Contributions Regarding Working Environment Impact of Submerged Arc Welding
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Evaluation of Thermal Distribution in Friction Stir Welding on Dissimilar Materials (Cu-Al) Using Infrared Thermography and Numerical Simulation
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Composite Materials for Mechanized Brazing
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Possibilities for Application of Friction Stir Welding Process to Titanium TiGr2
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Research on the Use of Robotized Tandem MAG Welding in Steel Plates Destined for the Manufacture of Pipelines
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HVOF Thermal Spray Alternative for Hard Chrome Plating Process
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Pulsed LASER-(Micro)TIG Welding of Automotive Dissimilar Zn-Coated Advanced High Strength Steels Thin Sheets in Overlap Configuration
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1138Composite Materials for Mechanized Brazing

Composite Materials for Mechanized Brazing

Abstract:

The productivity of large scale process manufacturing, of mill cutters for removing the asphalt, is significantly influenced by the deep joint brazing process, by wolfram cable stiffeners sintered in supports made of low alloy steel with chromium. Unanimously accepted solutions of brazing in oven with controlled conditions or in CIF, requires brazing material in shape of pastille having well defined properties of deoxidiser of basic materials, of lifting and complete filling through capillarity of brazing joint and of assurance a good resistance to thermo-mechanical fatigue. The experiments made in CIF with economical materials type Ag140+Ag156+Cu-Sn-Si, in couple with boron-fluorine flows, have underlined a good behaviour to brazing and complete joints filling characteristics. These materials can easily be done by powder technology. The shape and position of the inductor, corroborate with heating-cooling parameters of the brazing assembly, ensure a good resistance to thermal shock of stiffeners made of sintered carbides. Metallographic analysis and hardness tests have revealed structures with defects like: decarburization, oxidizing corrosion and white spot, in the limit allowed by the product norms.

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Periodical:

Advanced Materials Research (Volume 1138)

Pages:

119-124

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1138.119

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Online since:

July 2016

Authors:

Emilia Florina Binchiciu*, Traian Fleser, Ionelia Voiculescu, Tanasache Daniel Tihanov, Andra Dragomir

Keywords:

Brazing, Coated Rods, Materials

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References

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