8 research outputs found
Pitting corrosion studies on Ti6Al4V alloy weldments in marine environment
1179-1182Titanium and its alloys are widely used owing to their high strength-to-weight ratio, good tensile strength, and resistance to corrosion. The Ti6Al4V alloy is called the workhorse among the titanium alloys owing to its wide application. Even though the Ti6Al4V alloy is immune to corrosion, improper welding conditions lead to contamination, making the weldments prone to stress corrosion cracking (SCC). These weldments are susceptible to SCC if they show sensitivity to pitting. This study examines the effect of welding conditions on the pitting corrosion behavior of 3 mm thick plates of Ti6Al4V alloy. The Ti6Al4V weldments were fabricated using fusion welding methods, namely, the gas tungsten arc welding (GTAW) and laser beam welding (LBW) techniques. The pitting corrosion studies were carried out by a potentiodynamic polarization technique, using non-deaerated 3.5% NaCl solution of pH 7, to create a marine corrosion environment. The pitting corrosion studies yielded good results as there was corrosion resistance in weldments fabricated under controlled conditions
Using Anthropogenic Waste (Steel Slag) to Enhance Mechanical and Wear Properties of a Commercial Aluminium Alloy A356
The present study addresses the utilization of induction furnace steel slag which is an anthropogenic waste, for enhancing
the mechanical properties of a commercial aluminium alloy A356. Different weight percentage (3wt%, 6wt%, 9wt%, and 12wt%) of steel slag particles in 1 to 10 μm size range were used as reinforcing particles in aluminium alloy A356 matrix. The composites
were prepared through stir casting technique. The results revealed an improvement in mechanical properties (i.e. microhardness and tensile strength) and wear resistance with an increase in weight percentage of the steel slag particles. This research work shows promising results for the utilization of the steel slag for enhancing the properties of aluminium alloy A356 at no additional cost while assisting at same time in alleviating land pollution
Microstructural Features and Mechanical Behavior of Laser Welded Magnesium Alloy Sheet
771-778Magnesium Alloy is gaining momentum now a days as it is light in weight and possess moderate strength. Automotive
and aerospace industries and electronics companies looking for light and strong and smart materials to save fuel and
emission free environments, which magnesium alloy can meet. As Tailor welded magnesium alloy sheets are in demand,
AZ31B -H24 magnesium alloy sheet with 2 mm thickness is selected in this research work. Laser welding is used to join
magnesium alloy sheets in butt configuration. The samples are analyzed, and observations and challenges are addressed with
help of micrographs for further scope of work. Effect of laser welding on grain or microstructure changes are also outlined.
Thorough micro structural analysis is carried out with an objective to capture grain structure near parent metal, left and
right-hand sides of heat affected zone and weld line. Impact and hardness tests are conducted to assess the mechanical
behavior of laser welded samples
Optimization of Coated Friction Drilling Tool for a FML Composite
10.1080/10426914.2020.1832684Materials and Manufacturing Processes363351-36