The course is included in these curricula and study modules
- Industrial management 2005 (native finnish speaking students) - Production technology
- Industrial management 2005 (native swedish speaking students) - Production technology
- Industrial management 2005 (international students) - Production technology
- Industrial management 2006 (native finnish speaking students) - Production technology
- Industrial management 2006 (native swedish speaking students) - Production technology
- Industrial management 2006 (international students) - Production technology
- Plastics technology 2008 (swedish) - Design and manufacturing
- Plastics technology 2009 (swedish) - Design and manufacturing
- Plastics technology 2010 (swedish) - Design and manufacturing
- Plastics technology 2011 (swedish) - Design and manufacturing
- Plastics technology 2012 (swedish) - Production methods and tool design
- Plastics technology 2013 (swedish) - Production methods and tool design
- Plastics technology 2008 (international students) - Design and manufacturing
- Plastics technology 2008 (native finnish speaking students) - Design and manufacturing
- Plastics technology 2008 (native swedish speaking students) - Design and manufacturing
- Plastics technology 2009 - Design and manufacturing
- Plastics technology 2010 - Design and manufacturing
- Plastics technology 2011 - Design and manufacturing
- Plastics technology 2012 - Production methods and tool design
- Plastics technology 2013 - Production methods and tool design
- Materials processing technology 2014 (swe) - Design
- Materials processing technology 2015 (swe) - Design
- Materials processing technology 2016 - Design
- Materials processing technology 2017 - Design
- Materials processing technology 2018 - Design
- Materials processing technology 2014 - Design
- Materials processing technology 2015 - Design
- Materials processing technology 2016 - Design
- Materials processing technology 2017 - Design
- Materials processing technology 2018 - Design
The course takes place in period
3 (2019-01-01 to 2019-03-17)
Level/category
Teaching language
English
Type of course
Compulsory
Cycle/level of course
First
Recommended year of study
1
Total number of ECTS
5 cr
Competency aims
-To give students the skills and understanding to produce solid models and drawings of engineering components.
-To understand and use SolidWorks design capabilities.
-To produce professional engineering reports.
Learning outcomes
-Use solid modeling software (SolidWorks) to create 3D solid models from orthographic engineering drawings.
-To create assembly models of engineering components using solid modelling software.
-To create engineering orthographic and isometric drawings from solid models of engineering components.
-To perform stress analysis of engineering components using simulation application.
Course contents
-Introduction to SolidWorks, user interface and options.
-Working with planes and sketches.
-Lofts, swepts and revolved sections.
-Patterns.
-Simulation and Analysis.
-Configurations.
-Surface Modelling and Assemblies.
Prerequisites and co-requisites
The CAD course is required. Students are assumed to be able to produce orthographic drawings using engineering software such as AutoCAD when they begin.
Course limit: 45 students due to size of computer class. If the limit is reached, students who
do not have this course as a mandatory part of their curriculum in the given period and year may take the course via independent learning using the available online resources.
Previous course names
None
Additional information
Download the SolidWorks software for home use from lab.arcada.fi or
http://www.solidworks.com/sw/education/SDL_form.html External link
All deadlines dates must be met. Students not submitting assessment work by the deadline dates will be removed from the course.
Recommended or required reading
Follow the weekly in class exercises and tutorials from the course's weekly exercises and tips folder found in itslearning.
Students may choose to watch the SolidWorks 2018 Essential Training in the first week of class. There is also an optionally SolidWorks Student Self Study Curriculum provided in itslearning that may be followed.
It is also recommended to watch "Word Creating Long Documents" at lynda.com. This will explain how to automatically insert citations, references, captions, table of contents and section numbers to your report.
Study activities
- Lectures - 10 hours
- Individual- and group instruction - 20 hours
- Project- and production work/artistic activities - 50 hours
- Individual studies - 55 hours
Workload
- Total workload of the course: 135 hours
- Of which autonomous studies: 135 hours
- Of which scheduled studies: 0 hours
Mode of Delivery
Multiform education
Assessment methods
- Essays, reports, productions and portfolio
- Assignment dates given in itslearning.
Assessment requirements
Assessment:
-Submission of the "Introduction to SolidWorks Tutorial" (10%)
-Submission of Assignment Design of a Chair (90%). Note Urkund will be used to analyze these reports for similarity. Correct scientific writing skills are a very important consideration in the assessment. It is not based on just the engineering design work.
-There is no compulsory attendance of lectures for this course. Although attendance is recommended, students may choose to complete all work entirely individually also.
-Passed assignment marks can not be improved by resubmitting marked reports.
GRADING.
50-59 Grade 1 Satisfactory
60-69 Grade 2 Satisfactory
70-79 Grade 3 Good
80-89 Grade 4 Good
90-100 Grade 5 Excellent
It is required to follow good scientific practice in studies at Arcada:
https://start.arcada.fi/sites/default/files/dokument/examensarbete/good…
Teacher
Vihtonen Mathew
Examiner
Vihtonen Mathew
Home page of the course
Group size
No limit (37 students enrolled)
Assignments valid until
Until date 2019-02-03
The timetable of the course
Week 2: Introduction to SolidWorks, user interface and options. Complete Week 1 from Weekly tips and exercises. "Introduction to SolidWorks" compulsory tutorial from the SolidWorks help menu (10%).
Week 3: Working with planes and sketches. Week 2 from Weekly tips and exercises. Idler arm tutorial.
Week 4: Lofts, swepts and revolved sections. Week 3 from Weekly tips and exercises.
Week 5: Patterns. Week 4 from Weekly tips and exercises. Modelling a dice.
Week 6: Simulation and Analysis. Week 5 from Weekly tips and exercises.
Week 7: Individual Work (no formal class)
Week 8: Surface Modelling and Assemblies. Start on Assignment
Week 9: Configurations
Week 10 and 11: Project Completion - Chair Design and Report (90%).
Course enrolment period
2018-12-25 to 2019-01-21
Assessment methods
- 2019-03-17 - Reports and productions
- 2019-02-03 - Other assignments
Date | Time | Room | Title | Description | Organizer |
---|---|---|---|---|---|
2019-01-11 | 09:15 - 13:00 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-01-18 | 09:15 - 13:00 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-01-25 | 09:15 - 12:45 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-02-01 | 09:15 - 13:15 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-02-08 | 09:15 - 13:15 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-02-15 | 09:15 - 13:15 | E383 | Solid Modelling (individual work - no lecture) | Vihtonen Mathew | |
2019-02-22 | 09:15 - 13:15 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-03-01 | 09:15 - 12:45 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-03-08 | 09:15 - 13:15 | E383 | Solid Modelling | Vihtonen Mathew | |
2019-03-14 | 09:30 - 10:00 | E383 | Thesis Presentation - "3D Printed Prostheses and Organs", Candela Torres Romero | You are kindly welcome to attend. | Andersson Mirja Herrman Rene Makkonen-Craig Stewart Vihtonen Mathew |
2019-03-15 | 09:15 - 13:15 | E383 | Solid Modelling | Vihtonen Mathew |