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Fatigue of spot-weldsCooper, J. F. January 1986 (has links)
No description available.
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A comparative study of fracture in stainless steel weld metal and wrought stainless steelGoodwin, S. J. January 1987 (has links)
No description available.
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The effect of inclusions and matrix hardenability upon the microstructural development of carbon manganese steel weld metalsBannister, S. R. January 1987 (has links)
No description available.
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The application of geometric modelling to motor vehicle constructionGraham, S. L. January 1988 (has links)
No description available.
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The influence of welding parameters and parent plate metallurgical characteristics on solidification of austenitic stainless steel weld metalsHosseinioun, M. M. January 1988 (has links)
The present work reports the effect of heat input, cooling rate, parent plate deformation and restraining conditions on the formation and morphology of delta ferrite in welds on AISI 318L and 321 steels. The experiments were carried out on commercially produced plates in the following conditions: (i) as received condition (ii) further deformed by cold rolling. (iii) further deformed by hot rolling. The effect of heat input and cooling rates were examined using bead-onplate Submerged Arc welds on the same parent plate material. The parent plate condition was assessed using bead-on-plate metal Inert Gas (MIG) and Subm rged Arc butt welds. The results suggest that 1. The weld metal solidification proceeds epitaxially from the existing unmelted base metal. The weld exhibited surface marking i.e. deformation bands or close packed plane, in the austenite matrix, but not passing through delta ferrite phase. 2. The solidification substructure, the ferrite content, and morphology are influenced by tile (i) thermal stress induced during welding, (ii) parent plate chemical composition, (iii) the parent plate microstructural and deformation characteristics i.e. strain energy. 3. Rapidly cooled welds have lower ferrite content than welds produced with slower cooling rates. The randomly distributed elongeed ferrite with some lath type ferrite morphology was predominantly attributed with the welds produced with high cooling rates. 4. The ferrite is the first solidified phase to form and austenite is formed from the liquid rather than by solid phase transformation of primary ferrite to austenite. 5. The ferrite formation is a diffusion controlled phase transformation, the degree of its dendrites development depends upon the welding parameters i.e. heat input, cooling rates. 8. Two types of ferrite morphology were observed: (a) elongated type dendrites identified as vermicular by previous investigators and (b) the cellular type morphology which has not been classified in previous investigations.
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Pointing to Literature Points - Rachel by Angelina Weld GrimkéByington, Danielle 01 January 2022 (has links)
This video offers some quick questions/points that might be considered when writing about Angelina Weld Grimké's play, Rachel. / https://dc.etsu.edu/lit-outlines-complete-oer/1003/thumbnail.jpg
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Analýza způsobů modelování procesu svařování metodou konečných prvků / Analysis of methods of modeling welding process by finite element methodKrakovský, Andrej January 2019 (has links)
Presented master thesis deals with computational modelling (simulation) of welding process. Its main goal is to determine the residual stresses and deformations arising after welding. SYSWELD and ANSYS are used for simulation, both based on the finite element method. Specifically, the processes of welding fillet and butt welds are solved. Results from both software are compared with each other and verified by experimental results.
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Improved CWM platform for modelling welding procedures and their effects on structural behaviourLindström, Per January 2015 (has links)
A welding procedure specification is the document describing how a weld joint should be constructed. Arc weld processes are characterized by transient thermal behavior, leading to rapid changes in material properties and dynamic interaction between weld and base material. The objective of the project is to explore how the use of an improved CWM-platform affects representative stress and strain fields in order to assess welding procedure qualification records. Forthis project, the accumulated thermal and mechanical influences from the first run to the final run are brought forward, in one and the same meshed geometrical model. Both the thermal and mechanical material model of the platform are designed to be used for modelling of the base- and weld material,promoting the simulation of the intricate combination of the thermal, elastic,and plastic strains on the plastic strain hardening and the formation of residual stress fields. The output of the simulation is mainly weld cooling times, residual stresses, and deformations. This analysis is taken further by examining how residual stresses influence crack driving force under elastic and plastic loading. In addition, the output from the simulations can be used to assess the realism of the proposed welding parameters. The main experimental welding procedure examined comes from the IIW RSDP Round Robin Phase II benchmark project, where the main aim was to benchmark residual stress simulations. This work was found to contain many applicable challenges of a CWM-analysis project.
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Microstructural characterisation of duplex 316 weld metals : The effects on the mechanical and high temperature propertiesSmith, J. J. January 1988 (has links)
No description available.
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The structure and properties of mechanized pipeline girth weldsBoothby, Peter James January 1989 (has links)
No description available.
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