Tino Stankovic: Catalogue data in Spring Semester 2018 |
Name | Dr. Tino Stankovic |
Name variants | Tino Stankovic Tino Stanković |
Address | Chair in Engin. Design & Computing ETH Zürich, CLA F 21.2 Tannenstrasse 3 8092 Zürich SWITZERLAND |
Telephone | +41 44 632 54 06 |
tinos@ethz.ch | |
URL | http://www.edac.ethz.ch/ |
Department | Mechanical and Process Engineering |
Relationship | Lecturer |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
151-0069-10L | Engineering Tool: Design Optimization and CAD All Engineering Tool courses are for MAVT-Bachelor students only. Number of participants limited to 25. Only one course can be chosen per semester. | 0.4 credits | 1K | K. Shea, T. Stankovic | |
Abstract | Participants will learn about the Computer-Aided Engineering fundamentals and methods that are necessary for successful design of modern technical products. The focus will be placed on the simulation-driven design in the context of product development process as well as on the fundamentals of the design optimization. | ||||
Learning objective | Basic Computer-Aided Engineering (CAE) knowledge and skills will be acquired to enable students to recognize both the advantages and the limitations of current CAE tools. Examples of how to build feature-based and parametric models for simulation-driven design automation will be given along with common pitfalls. The CAE environment will be the Siemens NX 8.5 which couples the simulation modeling (e.g. structural, thermal, flow, motion, and multiphysics) with design optimization and Feature-Based Design (FBD). After taking the course students should be able to independently create effective feature-based and parametric models to suit the requirements of simulation-driven design. | ||||
Content | 1. Computer-Aided Engineering (CAE) methods and tools in context of design process (2 afternoons): * CAE in the context of the design process * Simulation-driven design * Introduction to design optimization * Features, parameterization and synchronous modeling technology * Basic design optimization examples * Introduction to Finite-Element Method (FEM) with basic examples 2. Simulation-Driven Design with application to structural design (1 afternoon): * Coupling simulation with structural design optimization and feature based-design * Simulation driven design examples (single parts and assemblies) | ||||
Lecture notes | Handouts in the lecture | ||||
Literature | 1. CAD NX: Schmid, M. 2012: CAD mit NX: NX 8, Wilburgstetten : Schlembach Fachverlag , ISBN: 978-3-935340-72-4 2. CAE NX: Reiner, A. and Peter, B. 2010: Simulationen mit NX Kinematik, FEM, CFD und Datenmanagement Mit zahlreichen Beispielen für NX 7.5, Carl Hanser Verlag GmbH & Co. KG, eISBN: 978-3-446-42611-5 | ||||
Prerequisites / Notice | Max. 25 participants | ||||
151-3202-00L | Product Development and Engineering Design Number of participants limited to 70. | 4 credits | 2G | K. Shea, T. Stankovic | |
Abstract | The course introduces students to the product development process. In a team, you will explore the early phases of conceptual development and product design, from ideation and concept generation through to hands-on prototyping. This is an opportunity to gain product development experience and improve your skills in prototyping and presenting your product ideas. The project topic changes each year. | ||||
Learning objective | The course introduces you to the product development process and methods in engineering design for: product planning, user-centered design, creating product specifications, ideation including concept generation and selection methods, material selection methods and prototyping. Further topics include product lifecycle and sustainable design as well as design for manufacture, focusing on additive manufacture. You will actively apply the process and methods learned throughout the semester in a team on a product development project including hands-on prototyping. | ||||
Content | Weekly topics accompanying the product development project include: 1 Introduction to Product Development and Engineering Design 2 Product Planning and Social-Economic-Technology (SET) Factors 3 User-Centered Design and Product Specification 4 Concept Generation and Selection Methods 5 System Design and Embodiment Design 6 Hands-On Prototyping and Prototype Planning 7 Material Selection in Engineering Design 8 Product Lifecycle and Sustainability 9 Design for Manufacture and Design for Additive Manufacture | ||||
Lecture notes | available on Moodle | ||||
Literature | Ulrich and Eppinger, Product Design and Development, 6th Edition, McGraw Hill Education, 2016. Cagan and Vogel, Creating Breakthrough Products: Revealing the Secrets that Drive Global Innovation, 2nd Edition, Pearson Education, 2013. | ||||
Prerequisites / Notice | Although the course is offered to ME (BSc and MSc) and CS (BSc and MSc) students, priority will be given to ME BSc students in the Focus Design, Mechanics, and Materials if the course is full. |