ISSN: 2689-8705
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Review Article Pages 104-116
Abstract: Rheological analyses of materials are essential/major branch of science and engineering which have received much attention. Their determinations having undergone high melting temperature materials requires specialist equipment to ascertain accurate rheological values during the processes. Although they have been an existed theoretical/semiempirical models obtained from literatures, it is imperative to develop a specific mathematical models of rheological parameters from direct experimental data that best suits the metallurgical material.
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Research Article Pages 95-103
Abstract: Biomedical titanium parts and tools required for tailored fine micro-textures to have their surface anti-bacteria. Formation of micro-grooves into a titanium plate by micro-embossing was the first step toward mass-production of titanium parts and tools with anti-bacteria surfaces. Plasma 3D-printing was proposed to fabricate a micro-punch array to transcribe the micro-groove textures into titanium plate. This material processing consisted of three steps; 1) Micro-patterning of two dimensional micro-groove model onto the AISI316 die substrate, 2) Plasma nitriding to transform this micro-pattern
Research Article Pages 81-94
Abstract: Titanium and its alloys, particularly Ti-6Al-4V, produced by conventional technologies are widely used in industries such as in aeronautical and biomedical application due to low density, high specific strength, excellent corrosion resistance and high biocompatibility. In recent years, selective laser melting (SLM), as one of the developed innovative additive Manufacturing (AM) technologies, has attracted increasing attention in the industrial manufacturing of titanium and its alloys
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