Obtention and Characaterization of the Sn-Ni-Fe-Cu Alloys Applied in Diamond Saw Blade Production

Ana Lúcia Diegues Skury; Guerold Sergueevitch Bobrovinitchii; Marcia G. de Azevedo; Sérgio Neves Monteiro

doi:10.4028/www.scientific.net/MSF.727-728.305

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Obtention of Aluminium-Quasicrystal Composites by Mechanical Alloying
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Physicochemical Analysis of Ti-Si-B Powder Alloys
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Mechanical Properties of Composite AA2024 Matrix with Aluminium Carbide Dispersed by High Energy Milling
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Titanium Metal Matrix Composite Laser Coatings Based on Carbides
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Obtention and Characaterization of the Sn-Ni-Fe-Cu Alloys Applied in Diamond Saw Blade Production
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Hard Metal Matrix Composites Reinforced with Cubic Boron Nitride
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Mechanical and Structural Characterization of Cu-Ni-Ag/Y₂O₃ Composites Obtained by Powder Metallurgy
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Metal Matrix Composites from Powder Mixtures of Copper, Tungsten, Aluminum and Nanodiamonds
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Effect of the Milling Time and Addition of a Grinding Agent of Quasicrystalline Powder Based on AlCuFeB Alloys
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Obtention and Characaterization of the Sn-Ni-Fe-Cu Alloys Applied in Diamond Saw Blade Production

Abstract:

In the production of metallic saw blades segments impregnated with diamond particles, there are two basic functions of the metal-based matrix. First, to hold tightly the particles and, second, to display wear rate compatible with the diamond loss. The most common matrix materials are composed of either cobalt or iron, nickel, copper, bronze alloys and tungsten alloys. This paper investigated the microstructure and mechanical properties of Ni-Fe-Cu-Sn alloys as the metallic matrix of saw blade segments. It was found that the Ni content significantly influences the microstructure and mechanical properties of the alloy. Information on the diamond bonding efficiency of the Ni-Fe-Cu-Sn alloy as a cutting tool matrix were disclosed.