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3D Modeling and Product Lifecycle Management

Structure Type: Study unit
Code: IKTA2501
Type: Compulsory / Professional Studies
Curriculum: KT 2016 / 2016V / 2017 / 2018 / 2018V / 2019 / 2019V / 2020 / 2021 / 2021V / 2022 / 2023 / 2023V / 2024
Level: Bachelor of Engineering
Year of Study: 2 (2017-2018 / 2018-2019 / 2019-2020 / 2020-2021 / 2021-2022 / 2022-2023 / 2023-2024 / 2024-2025 / 2025-2026)
Credits: 5 cr
Responsible Teacher: Niemelä, Riitta
Language of Instruction: English

Courses

Impl.Group(s)Study TimeTeacher(s)LanguageEnrolment
1I-KT-2N2017-09-01 – 2017-12-22Juha HantulaFinnish2017-08-23 – 2017-09-18
2I-KT-2N2018-08-31 – 2018-12-21Juha HantulaFinnish2018-08-20 – 2018-09-17
3I-KT-2N2019-09-02 – 2020-02-21Juha Hantula, Jani LeppämäkiFinnish2019-08-19 – 2019-09-09
4I-KT-2V2019-09-02 – 2019-12-20Juha Hantula, Jani LeppämäkiFinnish2019-08-19 – 2019-09-09
3001KT2019-2, KT2019-2A2020-08-01 – 2020-12-31Jani LeppämäkiFinnish2020-08-17 – 2020-09-11
3002KT2019-2, KT2019-2B2020-08-01 – 2020-12-31Jani LeppämäkiFinnish2020-08-17 – 2020-09-11
3003KT2019V-2, KT2019V-2A, KT2019V-2B2020-09-01 – 2020-12-20Jani LeppämäkiFinnish2020-08-17 – 2020-09-11
3005KT2020-2A, KT2020-2B, KT2020-2C, KT2020-2D2021-08-01 – 2021-12-31Jani LeppämäkiFinnish2021-08-01 – 2021-09-06
3008KT2021-2, KT2021-2A, KT2021-2B, KT2021-2C, KT2021-2D2022-08-29 – 2022-12-31Juha HantulaEnglish2022-08-01 – 2022-09-06
3009KT2021V-2, KT2021V-2A, KT2021V-2B2022-08-19 – 2022-12-31Shekhar SatputeEnglish2022-08-01 – 2022-09-06
3010KT2022-2A, KT2022-2B, KT2022-2C, KT2022-2D2023-08-28 – 2023-12-17Jani LeppämäkiEnglish2023-08-01 – 2023-09-06
3012KT2023-2, KT2023-2A, KT2023-2B, KT2023-2C, KT2023-2D2024-09-03 – 2024-12-20Jani LeppämäkiEnglish2024-08-01 – 2024-09-06
3013KT2023V-2A, KT2023V-2B2024-08-30 – 2024-12-15Jani LeppämäkiEnglish2024-08-01 – 2024-09-06

The descriptions shown below are for the academic year: 2024-2025

Learning Outcomes

The student will be able to produce parametric 3D- solid and surface models of various components. He or she is also able to combine these models to assemblies as well as to present the designs in a form of engineering drawings. The student understands the basic concepts of a PLM system and knows the principles of its function as a part of technical information system.

Student's Workload

Total work load of the course: 135 h, of which
- scheduled studies: 55 h
- autonomous studies: 80 h
The assessment of student’s own learning 1 h is included in contact lessons.

Contents

The principle of feature-based modeling, creating features and their hierarchy. Building a part model, sketching and using constraints. Parametric dimensions and constraints. Making of the various features, copying and patterning. Assembly modelling, constraints and exploded views. Manufacturing drawings, assembly and exploded assembly drawings, part lists, rendered pictures. Basics of surface modeling. Sheet metal models.

PLM: Items, documents, Product models and structures, revisions. Configurable products. PLM standards and systems.

Recommended or Required Reading and Other Learning Resources/Tools

1. 3D-Modeling, Juha Hantula.
2. Handouts provided by the lecturer.

Mode of Delivery / Planned Learning Activities and Teaching Methods

Contact teaching.

Assessment Criteria

5: Student is able to apply course content on his/her own initiative and develop new solutions.
3: Student is able to apply course content independently.
1: Student is able to use course content to limited extent.

Assessment Methods

Numerical assessment of examination and assignments. Examination includes practical tasks at workstations.


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