Effect of Heat Treatment on Physical and Mechanical Properties of Cemented Carbide and Carbon Steel Brazed Joints

Winardi, Yoyok

doi:10.21070/r.e.m.v4i2.812

Cited by 1 publication

(2 citation statements)

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“…The average shear strength of brazed joints increases to 200 MPa at 1210 0 C for 7.5 minutes and decreases with increasing temperature and holding time [2]. Winardi (2019) conducted research on the effect of heat treatment on the physical and mechanical properties of the connection between brazed cemented carbide and carbon steel or carbon steel. The materials used are cemented carbide with a size of 25 mm x 15mmx8.5mm, low carbon steel SS400, and a filler metal alloy of 40Ag30.5Cu29.5Zn.…”

Section: Introductionmentioning

confidence: 99%

“…The highest hardness value was 131.88 VHN at a temperature of 750 oC. The experiment without heat treatment had the lowest hardness value of 112.73 VHN [4]. Mousavi et al (2012) conducted research on the wetting, microstructure, and mechanical properties of the union of cemented carbide with brazed CK35 steel using different filler metals, namely L-Ag40Cd and L-Ag34Cd.…”

Section: Introductionmentioning

confidence: 99%

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The Effect of Welding Current on Shear Test and Microstructure TIG Brazing of Cemented Carbide and Steel

Fadelan,

Winardi,

Putra

et al. 2024

J. Phys.: Conf. Ser.

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The need for good welding results as knowledge in the process of welding different types of materials is needed in the community, and this res- earch is to determine the effect of variations in welding currents of different types of metals on cemented carbide and carbon steel using the TIG brazing method. For the base metal, YG6 cemented carbide and SS400 carbon steel with CuSi filler metal are used. The sample method is made by connecting different types of materials with the welding process using variations in current of 60 ampere; 80 ampere, and 100 ampere. The mechanical properties of this material connection were tested using the Hydraulic Universal Testing Machine, while for the microstructure examination, a microstructure test tool with a magnification of 100 x was used. The results of the tests revealed that the highest average compressive strength was 22.2 kN at a welding current variation of 60 A, and the lowest average value was 10.2 kN at a welding current variation of 100 A. Furthermore, for the average value of shear stress, the highest value at 60 A variation is 148 N/mm2 and the lowes t value is at 100 A welding current, which is 67 N/mm2. The res ults of testing the microstructure of the connection area s how that the higher the current strength, the more enriched the Cu content and will affect the size and spacing of Si grains.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%