Associate professor

  • București
  • Permanent
  • Full-time
  • Acum 13 zile
Offer DescriptionConferențiar universitar, position 18The Manufacturing Engineering Dept. (TCM), , belongs to the Faculty of Industrial Engineering and Robotics. The department is coordinating four Bachelor study programmes (Manufacturing Engineering, Industrial Economic Engineering, Applied Informatics in Industrial Engineering and Industrial Informatics) and eight Master study programmes (Products' Design and Manufacturing Engineering, Nanostructures and Nonconventional Processes Engineering, Advanced Computer Aided Engineering, Industrial Design and Innovative Products, Informatics Applications in Industrial Engineering, Engineering Economics and Business Management, Complex Projects' Engineering and Management, Quality in Engineering and Business Management).With 45 academic staff, 22 technical staff and 22 laboratories, TCM Dept. is one of the largest departments in the National University of Science and Technology POLITEHNICA Bucharest.The position implies performing didactic activities in the below mentioned courses, participating in research and development projects, advising students, developing the laboratories' infrastructure, performing administrative tasks related to the department' s activities.Technical drawing and infographicsIntroduction to the Workspace in SolidWorks:ISO drawing format and main workspace settings;Introduction to the main tool menus;Introduction to the main menus: View, Draw, Dimension, Modify.Coordinate Systems, Reference Planes and Introduction to Sketching in SolidWorks:Absolute Cartesian CoordinatesRelative Cartesian CoordinatesAbsolute Polar CoordinatesRelative Polar CoordinatesGraphic Primitives: LINE, CIRCLE, ARC, POLYLINE, RECTANGLE, POLYGON;Graphic aids, constraints, and geometric conditionsEditing Commands and Design Modifications: ERASE, COPY, MIRROR, OFFSET, MOVE, ROTATE, SCALE, TRIM, EXTEND, CHAMFER, FILLETSymmetry and taper in SolidWorksPattern duplication and surfaces of revolution in SolidWorksHousings and reinforcements in SolidWorksEditing: Repairs in SolidWorksPart configurations in SolidWorksUsing global variables and equations in SolidWorksPlotting styles and viewing stylesModel View / Paper View;Isometric views and visual styles.Material properties, scenes, and realistic renderings in SolidWorksMechanical, thermal simulations, and report generation in SolidWorksComputer-aided design techniques 2Introduction to specialized design software. Use of default commands.3D modeling of a stepped shaft and defining views, sections, and breaks corresponding to the execution drawing.3D modeling of a clamping flange for the safety belt system and extracting projection views from Model View.3D modeling of a reduction fitting and creating exploded view-type views corresponding to the 2D drawing.3D modeling of a housing and creating the necessary details within the execution drawing.3D modeling of an engine housing and completion of its execution drawing using the Standard 3 View, 2 step section view, and Broken-out Section quick commands.3D modeling of a cover for an engine housing and defining the Half-Section.Defining hatches, dimensions, and indication lines for views, sections, and details extracted from the 3D model of a stepped shaft.Defining driven, driving, and dynamic dimensions for views, sections, and details extracted from the 3D model of a component of a UAV. Automatic dimensioning with the Model items - Dimensions command for sections, views, and details of a wing profile.Inserting prescribed geometric features for a spherical joint of an industrial robot.Setting section paths, technical notes, and references within an execution drawing.Realizing the 3D assembly of a machining device and its assembly drawing. Defining the ISO indicator and the component table.Advanced modeling of a pipe fitting using multi-bodies design features. Inserting the isometric view in its execution drawing. Types of visual representations.Setting plotting styles for execution drawings related to components: pipe fitting, engine housing, and stepped shaft.Assisted design and additive manufacturingAdditive Manufacturing Technologies - IntroductionGlobal Additive Manufacturing - main industriesAdditive Manufacturing Technologies.Software applications for additive manufacturing: Cura, Z-Suite, BCN3D CuraFused Deposition Modeling (FDM): characteristics, applications, advantages/disadvantages, post-processingStereolithography (SLA): characteristics, applications, advantages/disadvantages, post-processingPhotopolymer Jetting (PJ): characteristics, applications, advantages/disadvantages, post-processingBinder Jetting (BJ): characteristics, applications, advantages/disadvantages, post-processingSelective Laser Melting (SLM): characteristics, applications, advantages/disadvantages, post-processingElectron Beam Melting (EBM): characteristics, applications, advantages/disadvantages, post-processing3D Printing (3DP): characteristics, applications, advantages/disadvantages, post-processingCAD Machines and ApplicationsMachine construction and main suppliers; Software applications according to technology typeModeling and executing a product through 3D printingModeling and manufacturing an assembly including bearings through 3D printingProcessing an image for 3D printingModeling and manufacturing an orthosis through 3D printingModeling and manufacturing a complex detachable assembly through 3D printingModeling and manufacturing a product using lithophane technologyModeling and executing a product through customized 3D printingComputer Aided Design 1Introduction to the design environment.Basic modeling of a mechanical part with geometric constraints and conditions.Complete definition of a sketch on a construction plan defined by references.Modeling a car seat support bracket using editing controls and design changes.Modeling a part with bosses, bores, and holes. Editing the definition and parameters of an operation and regenerating the created model.Modeling a quick-change bushing starting from the sketch in the vertical plane. Using the revolve command.Realization of a network card support using appropriate geometry patterns.Modeling the resistance structure of a UAV using configurations and versions.Complete automation of the process of defining a sketch.Making a step tree with four different configurations.Modeling a shell with reinforcements - Application for a water pump cover.Organizing a 3D drawing using: view ports, paper view, and visual styles - Application for a pipe adapter.Definition of material characteristics for an aluminum alloy part. Setting scenes and rendering for the modeled part.Static simulation of a part subjected to compression and variable temperatures.Generation of the simulation report.APPLICATIONBefore applying, all candidates are invited to read carefully the NUSTPB's Methodology for occupying didactic and research positions:RequirementsResearch Field Engineering Education Level PhD or equivalentSkills/QualificationsWork experience within Higher Education Engineering Teaching and Research.Skills:
  • Teamwork and collaboration in both teaching and research
  • Agility in performing working tasks
  • Good Communication within and outside of dept/ faculty/ university
  • Work ethic and university regulations responsible application
  • Open minded to novel approaches in teaching, research but also in higher educational legal national and worldwide changes
Languages ROMANIAN Level Mother TongueLanguages ENGLISH Level ExcellentResearch Field Engineering Years of Research Experience More than 10Additional InformationBenefitsAll academic staff at NUSTPB enjoy several benefits, such as training and professional development opportunities, holiday leave, accommodation in NUSTPB residences, banking facilities, access to research infrastructure, and software for remote working.Selection processApplication period and procedure
The applications can be submitted until 14/06/2024 (8.00-16.00, working days only) at National University of Science and Technology POLITEHNICA Bucharest, Rectorate Building, room 207.
The Faculty Councils approve the proposed Selection Committees until 17/05/2024, approved also by the University Senate until 24/05/2024.Examination process & Committees' reports
1 - 7 July 2024
The Faculty Councils validates the report drafted by the Selection Committee until 07/07/2024.Communication of the results
7/07/2024
The final results are published on NUSTPB's website within 2 working days upon the decision of the University Senate.
The successful candidates occupy the position starting with the 1st semester of the 2024-2025 academic year.Work Location(s)Number of offers available 1 Company/Institute Facultatea de Inginerie Industrială și Robotică Country Romania GeofieldWhere to apply E-mailfloarea.dragomir@upb.roContact CityBucharest WebsiteStreetSplaiul Independenței 313 E-Mailnicolae.ionescu@upb.ro Mobile Phone0040741114987STATUS: EXPIRED

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