Hardfacing of mild steel with wear-resistant Ni-based powders containing tungsten carbide particles using powder plasma transferred arc welding technology

Appiah, Augustine Nana Sekyi; Bialas, Oktawian; Żuk, Marcin; Czupryński, Artur; Sasu, David Konadu; Adamiak, M.

doi:10.2478/msp-2022-0033

Cited by 13 publications

(8 citation statements)

References 33 publications

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“…The surfacing processes using high energy density welding processes are being considered recently as well, like plasma transfer arc (PTA) [17,18] or laser cladding (LS) [19,20]. The powder-based surfacing processes show quite important advancement in terms of feedstock materials, where the complex composite materials can be applied [21,22]. The latest studies show also the attempts at using additive manufacturing approaches for local and precise die remanufacturing, mainly by directed energy deposition (DED) processes, like laser metal deposition [23][24][25] or wire arc additive manufacturing (WAAM) [26].…”

Section: Introductionmentioning

confidence: 99%

The Influence of the Hot Working Tool Steel Substrate Material on the Element Distribution, Microstructure and Hardness of Gas Metal Arc Welding Hardfaced Layers

Lachowicz,

Sokołowski,

Kaszuba

2024

Adv. Sci. Technol. Res. J.

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The paper presents the results of gas metal arc welding (GMAW) hardfacing testing performed on three grades of hot working tool steels, namely: 55NiCrMoV7, X37CrMoV5-1 and modified X38CrMoV5-3 grade. Metallographic investigations, mainly microstructural ones, were carried out and hardness profiles were analyzed. The chemical composition was investigated in each individual layer of the hardfaced deposits and the substrate material, in order to obtain a profile representation. The obtained results of profilometric evaluation of the chemical composition showed clear differences in the content of basic and alloying elements in the subsequent weld layers. The diversity of the chemical composition of the substrate material caused that the uniform chemical composition for all tested materials was achieved only in the third, upper weld layer. Despite the variable content of alloying elements and carbon, as well as slight differences in microstructure occurring for individual weld layers, a substantially stable and high hardness was maintained over the entire cross-section of the obtained hardfaced coatings. In the area of the heat-affected zone (HAZ), a decrease in hardness was observed, which is associated with the decomposition of the high-temperature tempered martensite and the spheroidization of the microstructure.

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Section: Introductionmentioning

confidence: 99%

The Influence of the Hot Working Tool Steel Substrate Material on the Element Distribution, Microstructure and Hardness of Gas Metal Arc Welding Hardfaced Layers

Lachowicz,

Sokołowski,

Kaszuba

2024

Adv. Sci. Technol. Res. J.

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“…The literature systematically describes the wear behavior and phenomena responsible for the degradation resistance of materials. Overall, wear, corrosion and erosion are the dominant types of engineering material degradation among the broad range of deterioration processes [1][2][3]. Even though the relevant literature [4,5] explains the general factors influencing the resistance of materials, the continuous development of metal-based structure fabrication, processing, treatment technology and surface engineering demands systematic reporting on the advances in the wear properties of metallic and ceramic materials.…”

Section: Introduction and Scopementioning

confidence: 99%

Metallic and Ceramic Materials Integrity—Surface Engineering for Wear, Corrosion and Erosion Prevention

Szala,

Walczak

2024

Materials

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“…Smart composite materials, due to their potential for use as alternative energy sources and in autonomous wireless sensor systems, are becoming increasingly popular. The rising adoption of composite materials across various industrial sectors is driven by their versatile applications and potential benefits [2][3][4][5][6]. One such material is Macro Fiber Composite (MFC), which combines the advantageous properties of fiber and piezoelectric materials.…”

Section: Introductionmentioning

confidence: 99%

Subzero temperatures and low-frequency impact on MFC piezoelectric transducers for wireless sensor applications

Płaczek,

Kokot,

Degefa

2024

Eksploatacja i Niezawodność – Maintenance and Reliability

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This research paper is a continuation of a prior study [12] that focused on the positive temperature range. The current work investigates the behavior of a laminated Macro Fiber Composite (MFC) piezoelectric transducer when exposed to negative temperatures. The study aims to understand the sensitivity of the transducer under varying ambient temperatures and frequencies, particularly for applications in wireless sensor networks. The integrated Macro Fiber Composite piezoelectric transducer is both theoretically modeled and empirically verified. Experimental tests involve subjecting the laminated MFC piezoelectric transducer to sinusoidal forces generated by an electro-pulse waveform generator, while a thermal chamber is used for temperature control. Controlled displacement is applied to the transducer at low-frequency (5 to 25 Hz) ranges and different moderate temperatures (0 to -40 degrees Celsius). The results highlight the significant influence of temperature and excitation frequency on the generated voltage by the MFC transducer.

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Hardfacing of mild steel with wear-resistant Ni-based powders containing tungsten carbide particles using powder plasma transferred arc welding technology

Cited by 13 publications

References 33 publications

The Influence of the Hot Working Tool Steel Substrate Material on the Element Distribution, Microstructure and Hardness of Gas Metal Arc Welding Hardfaced Layers

The Influence of the Hot Working Tool Steel Substrate Material on the Element Distribution, Microstructure and Hardness of Gas Metal Arc Welding Hardfaced Layers

Metallic and Ceramic Materials Integrity—Surface Engineering for Wear, Corrosion and Erosion Prevention

Subzero temperatures and low-frequency impact on MFC piezoelectric transducers for wireless sensor applications

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