TIP200 Product Development and Product Design with 3D

Credits (ECTS):10

Course responsible:Henrik Folke Holmberg

Campus / Online:Taught campus Ås

Teaching language:Norsk

Limits of class size:40

Course frequency:Annually.

Nominal workload:Lectures with exercises and homework: approx. 60 hours. Independent project work: approx. 190 hours.

Teaching and exam period:This course starts in Autumn parallel. This course has teaching/evaluation in Autumn parallel.

About this course

The course is structured to approximate a natural sequence for a product development project:

The subject consists of 4 parts:

Part 1: Introduction and ideation

This phase lasts two weeks and requires a lot of effort on the part of the students to start the project with idea generation, analyses, mapping of competences and self-study online and other media. The phase ends with the student having a plan for the project in the course in place.

Part 2: Methods

This is the main phase of teaching in the project and contains practical exercises and at the same time work on the project from the students' side. Part 2 takes the student through different methods in the course as a basis for product development. The methods include functional analysis, design analysis, solid modelling, production methods, LCA methods and rough cost assessment.

Part 3: Selection and results

The last part of the subject involves selecting a solution for the product with associated material(s) and production techniques, as well as a physical rapid prototype (scale) to check and improve the product.

Part 4: Report writing and documentation

All assessments and findings along the way are documented in a report and a prototype and form the basis for decision-making for a real or theoretical employer about financing further realization of the product.

The project assignment with the design of the project report forms the final basis for assessing the subject as Pass/Fail.

Learning outcome

Having finished the course, the students will be able to develop and design products in 3D through all steps leading to a functional concept, including a product animation that can be used for further analysis, the production of a small scale prototype or basic production data for the production of a larger and more complex model. Furthermore they will be able to analyze and predict how the product will behave in a production process and in a consumer market, before it is put into production with regards to materials, environmental impact (Energy consumption, CO2-emissions, recycling etc.), as well as economy and user friendliness etc. Through project work the students shall have learned to work efficiently in teams, and under guidance, as well as contributing and interacting with each other creatively to bring forth a good product design and a good product concept. They shall also have learned to master product development pathways and utilise the design and graphical tools which are an integrated part of advances engineering and design software, in order to develop high quality concept descriptions and project reports.

Learning activities
The course is based on a combination of computer and software exercises and demonstrations, lectures and guided, independent activity where students carry out a more extensive project on product development based on either a case given by the teacher, a case coming from the student's own ideas or a problem presented by industry, organizations or in connection with ongoing research- and development work at the department.
Teaching support
Exercise assignments and the project are followed up with guidance of the work teams. Date, time and duration are in agreement with the teacher. During the project, the lecturers and helping teacher are accessible via e-mail and at given office hours. The students will have access to download the main software used in the course, Solidworks and CES EduPack student versions. Students are welcome to bring their own PCs to the lectures and using their own computers.
Prerequisites
TIP100 - Technical Innovation or equivalent basic training in innovation processes (See also the course description for TIP100). Some skills in CAD equivalent to TMP160 is required.
Recommended prerequisites
TIP150-Modern Workshop Technology. TMP160-Technical design, or some previous training with CAD.
TBM200 Material Science or practical knowledge of use and application of materials.
Assessment method
Project task with report, counts 100%.

Assignment Grading: Passed / Not Passed
Examiner scheme
The examiner approves the teaching method
Mandatory activity
Ther course has two mandatory delivery dates of interrim report. This report will be reviewed by fellow students for feedback.
Notes
The course overlaps partially with 200-level courses in product development and design courses given at some of the university colleges/universities that offer Bachelor in engineering or Bachelor in product development and/or design with comprehensive use of 3D-software.
Teaching hours
Computer based teaching with exercises and lectures: Week 36 to 41: 2+2 hours/week with teacher in class + 4 hours/week in parts of the period for individual training and theme lectures. Continuous: Project work with individual and project group tuition by appointment.
Preferential right
Ranking:
1. students who have the course as mandatory in their study plan
2. students on the following study programmes: M-MPP, M-RB og M-IØ.
3. students with most ECTS credits
It there are not enough slots in group one the students will be ranked by their ECTS credits.
Admission requirements
Special requirements in Science.