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Integrated high-performance and accurate sha** technology of low-cost powder metallurgy titanium alloys: A comprehensive review
The practical engineering applications of powder metallurgy (PM) Ti alloys produced through cold compaction and pressure-less sintering are impeded...
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Physical and Mechanical Properties of a Tungsten-Titanium-Cobalt Alloy Produced by Spark Plasma Sintering of Hard-Alloy Electroerosive Powders Produced in Kerosene
The article considers the issues of manufacturing a tungsten-titanium-cobalt alloy produced by spark plasma sintering of hard-alloy electroerosive...
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Research Progress on Prediction Models of Plastic Deformation and Ductile Fracture of Titanium Alloy
AbstractFor further study the influence and role of yield criteria and ductile facture in the plastic deformation process of titanium alloy on...
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A New Low-Cost, Short-Flow, and Clean Preparation Process for Ti6Al4V Alloys
Ti6Al4VTi6Al4V alloy has many advantages such as high specific strength, good corrosionCorrosion resistance and biocompatibilityBiocompatibility, and... -
Hot Corrosion Resistance of TB8 Titanium Alloy after ECAP and Heat Treatment
The metastable β titanium alloy TB8 (Ti-12.76Mo-2.13Nb-2.73A1-0.16Si) was used as the original material, and the secondary processing method...
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Justification of the Production Technology Efficiency for High-Strength, Low-Alloy Steels with Improved Properties and Quality at Low Cost. Part 3. Production of Rolled Products from Transitional Slabs
We study metal samples taken from two batches of hot-rolled, semi-finished steel products and two batches of grade HC340LA cold-rolled steel,...
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Microstructure evolution and strengthening mechanism of high-performance powder metallurgy TA15 titanium alloy by hot rolling
Hot deformation of sintered billets by powder metallurgy (PM) is an effective preparation technique for titanium alloys, which is more significant...
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Solidification Microstructure and Mechanical Properties of Laser Additive Manufactured Near-α Ti-6Al-3Nb-2Zr-1Mo Titanium Alloy
A near- α Ti-6Al-3Nb-2Zr-1Mo (TA31) titanium alloy was deposited via laser additive manufacturing (LAM). The chemical component, solidification...
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Residual Stresses in Alpha Titanium Alloy Sheet after Punching at Moderate Strain Rates
Springback, buckling, and cracking are typical problems that take place during the stam** of titanium alloy sheets. Accuracy of material response...
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Corrosion Characterization of In Situ Nitrogen Reinforced Titanium Alloy Arc Cladding Layer
Titanium alloys are mostly used in high temperature and high pressure, which requires its high mechanical properties and corrosion resistance. As a...
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Microstructure and Mechanical Properties Investigations of Pure Titanium-Aluminum Alloy Composite Fabricated by Explosive Welding
This study investigated the manufacturing process and performance of bimetallic plates made from TA1 pure titanium and 6061 aluminum alloy using...
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Effect of Aluminum by Magnetron Sputtering on the Micro-Arc Oxide Film Layer of Titanium Alloy
In order to study the effect of magnetron sputtering Al coating on the performance of micro-arc oxidation film, a layer of pure aluminum coating was...
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Experimental Investigations and Surface Characteristics Analysis of Titanium Alloy Using Machine Learning Techniques
Milling difficult-to-machine metals like titanium alloys requires a precise surface finish at the nanoscale levels. This examines the surface...
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Effect of the Ion–Plasma and Vacuum Treatment Parameters on the Thickness and Properties of a Nitride Coating on a VT23 Titanium Alloy
AbstractThe effect of the vacuum ion–plasma treatment parameters on the regularities of nitride barrier coating formation on a VT23 titanium alloy...
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The Effect of Using Ferro-Alloy on the Properties of AlCoFeNiMoTi High-Entropy Alloy Produced by Arc-Melting Method: Design of Low Cost
The cost of high-entropy alloys (HEAs) is one of the most major obstacles to their widespread use. The cost of these alloys with significant amounts...
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Influence of Chemical Milling on the Mechanical and Microstructural Properties of α Cased β-Titanium Alloy
The presence of α casing in beta titanium can be detrimental to various forming applications and can be eliminated through chemical milling. The...
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Surface Engineered Titanium Alloys for Biomedical, Automotive, and Aerospace Applications
This chapter provides an overview of surface modification of titanium alloy for applications in aerospace, automotive, and biomedical field. Current... -
Thermoplastic forming of TC4 titanium alloy sheet by direct pulse current electromagnetic forming
A new electromagnetic forming method named direct pulse current electromagnetic forming (DPCEMF) is a high-speed forming method which simultaneously...
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Mechanical properties and corrosion resistance of TC4 titanium alloy joints by plasma arc welding + gas tungsten arc welding combination welding
In this paper, plasma arc welding (PAW) and plasma arc welding combined with gas tungsten arc welding (PAW + GTAW) were used to weld TC4 titanium...
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Variant selection of nanocrystalline α phase in metastable β TB8 titanium alloy via electric pulse treatment
In this paper, the metastable β TB8 titanium alloy with nanocrystalline α phase is achieved by electric pulse treatment. The morphology evolution and...