Prediction of process-induced microstructural changes and residual stresses in orthogonal hard machining

Ramesh, Anand

08 1900

No description available.

Machining

Metals Thermomechanical treatment

A study of the thermo-mechanical behavior of a plated through-hole under solder shock testing

Sizemore, Jorg F.

08 1900

No description available.

Strains and stresses

Metals Thermomechanical treatment

Thermo-mechanical modeling and design of micro-springs for microelectronic probing and packaging

Haemer, Joseph Michael

05 1900

No description available.

Metals Thermomechanical treatment

Grain refinement during the torsional deformation of an HSLA steel

Mavropoulos, Triantafyllos.

January 1983

No description available.

Steel, High strength.

Steel alloys.

Metals -- Thermomechanical treatment.

Metal crystals -- Growth.

Dislocations in metals.

Austenite.

Grain refinement during the torsional deformation of an HSLA steel

Mavropoulos, Triantafyllos.

January 1983

No description available.

Steel, High strength.

Austenite.

Steel alloys.

Dislocations in metals.

Metal crystals -- Growth.

Metals -- Thermomechanical treatment.

Tribocorrosion mechanisms in laser deposited titanium-based smart composite coatings

Obadele, Babatunde Abiodun

January 2014

D. Tech. Chemical, Metallurgical and Materials Engineering. / Aims to produce and improve the tribocorrosion property of Ti6Al4V by means of laser surface cladding with Ni and ZrO2. The results of this study would be useful for the design of high performance components for chemical and oil industry and potential applications in other engineering fields. The aim would be achieved through the following objectives: 1. Synthesize and characterise Ti, Ti-Ni and Ti-Ni-ZrO2 admixed powders. 2. Explore the feasibility of laser surface treatment of Ti6Al4V with Ti, Ti-Ni and Ti-Ni-ZrO2. 3. Investigate possible metallurgical interactions and phenomenon during and after laser surface cladding of the composite. 4. Evaluate the microstructural and mechanical properties of Ti based composites in terms of hardness. 5. Analyze the interaction between wear and corrosion wear as well as tribocorrosion resistance of the alloys and composites after laser surface cladding in 3.5 % NaCl and 1M H2SO4 environments.

Dissertations, Academic -- South Africa.

Coating processes.

Coatings.

Metal spraying.

Titanium alloys -- Finishing.

Titanium alloys -- Corrosion.

Composite materials.

Metals -- Thermomechanical treatment.

Tribology.

Electrolytic corrosion.

Electrochemistry.

Thermomechanical Processing, Additive Manufacturing and Alloy Design of High Strength Mg Alloys

Palanivel, Sivanesh

05 1900

The recent emphasis on magnesium alloys can be appreciated by following the research push from several agencies, universities and editorial efforts. With a density equal to two-thirds of Al and one-thirds of steel, Mg provides the best opportunity for lightweighting of metallic components. However, one key bottleneck restricting its insertion into industrial applications is low strength values. In this respect, Mg-Y-Nd alloys have been promising due to their ability to form strengthening precipitates on the prismatic plane. However, if the strength is compared to Al alloys, these alloys are not attractive. The primary reason for low structural performance in Mg is related to low alloying and microstructural efficiency. In this dissertation, these terminologies are discussed in detail. A simple calculation showed that the microstructural efficiency in Mg-4Y-3Nd alloy is 30% of its maximum potential. Guided by the definitions of alloying and microstructural efficiency, the two prime objectives of this thesis were to: (i) to use thermomechanical processing routes to tailor the microstructure and achieve high strength in an Mg-4Y-3Nd alloy, and (ii) optimize the alloy chemistry of the Mg-rare earth alloy and design a novel rare—earth free Mg alloy by Calphad approach to achieve a strength of 500 MPa. Experimental, theoretical and computational approaches have been used to establish the process-structure-property relationships in an Mg-4Y-3Nd alloy. For example, increase in strength was observed after post aging of the friction stir processed/additive manufactured microstructure. This was attributed to the dissolution of Mg2Y particles which increased the alloying and microstructural efficiency. Further quantification by numerical modeling showed that the effective diffusivity during friction stir processing and friction stir welding is 60 times faster than in the absence of concurrent deformation leading to the dissolution of thermally stable particles. In addition, the investigation on the interaction between dislocations and strengthening precipitate revealed that, specific defects like the I1 fault aid in the accelerated precipitation of the strengthening precipitate in an Mg-4Y-3Nd alloy. Also, the effect of external field (ultrasonic waves) was studied in detail and showed accelerated age hardening response in Mg-4Y-3Nd alloy by a factor of 24. As the bottleneck of low strength is addressed, the answers to the following questions are discussed in this dissertation: What are the fundamental micro-mechanisms governing second phase evolution in an Mg-4Y-3Nd alloy? What is the mechanical response of different microstructural states obtained by hot rolling, friction stir processing and friction stir additive manufacturing? Is defect engineering critical to achieve high strength Mg alloys? Can application of an external field influence the age hardening response in an Mg-4Y-3Nd alloy? Can a combination of innovative processing for tailoring microstructures and computational alloy design lead to new and effective paths for application of magnesium alloys?

Magnesium

strength

ductility

rolling

friction stir processing

friction stir additive manufacturing

dissolution

numerical modeling

dislocations

aging

precipitation

ultrasonic

Calphad

alloy design

Magnesium alloys.

Friction stir welding.

Metals -- Thermomechanical treatment.

Strength of materials.