•   CAD/CAM-modelling 5K00DK75-3001 16.08.2021-19.12.2021  3 cr  (19I160) +-
    Learning outcomes of the course unit
    The student understands basic principles, of modeling and utilising of models in the CAM programming. The student can supplement basic information needed in the manufacturing to the model. The student can model the part so that valmisruksen will be felt from it according to the demands to omit some of the features. The student understands the significance of the location of the zero and can place in a functional place from the point of view of its making.
    Prerequisites and co-requisites
    Tietokoneavusteinen piirtäminen ja mallintaminen 1
    Tietokoneavusteinen piirtäminen ja mallintaminen 2
    Materiaali- ja valmistustekniikan laboraatiot
    Valmistus- ja laatutekniikan perusteet (not translated)
    Course contents
    Basic principles of the solid modeling thinking of programming and manufacturing structure of the feature tree and features together joining, determination of the zero of the programming and investing in the model, fastening of the part.
    Assessment criteria
    Satisfactory

    The student recognizes and understands the importance of sustainable development in CAD / CAM modeling. The student knows how to make a 3D model with CAD software, preform and assembly into the fastener. The student understands the meaning of the structure and clarity of the model.

    Good

    The student knows well and can use different methods in modeling the features of a song. The student is able to utilize apugeometry and reference elements to avoid interrelations between features. The student is able to take into account the requirements of the manufacturing process in modeling. The student is able to make full use of the features of CAD.

    Excellent

    The student masters the modeling and assembly perfectly and creates a model that can be easily updated and edited. The student is able to construct a clearly structured model and assembly with the fasteners needed for CAM programming. Students are able to apply alternative modeling methods for modeling problem areas. Students are able to apply their skills in solving and solving various problems independently.

    Name of lecturer(s)

    Joni Nieminen

    Recommended or required reading

    Material distributed by the teacher
    Material from Siemens Learning Advantage portal

    Planned learning activities and teaching methods

    In-class and/or remote-class (lab work/exercises)
    Independent studies
    Exercises

    Assessment methods and criteria

    Grading criteria from the Study Guide

    The grade is based on:
    - attendance
    - exercises
    - exam

    Language of instruction

    Finnish

    Timing

    16.08.2021 - 19.12.2021

    Registration

    02.07.2021 - 23.08.2021

    Credits

    3 cr

    Group(s)

    19I160

    Small group

    Ryhmä 1 (Size: 14. Open university: 0.)

    Ryhmä 2 (Size: 14. Open university: 0.)

    Teacher(s)

    Tomi-Pekka Nieminen, Joni Nieminen

    Further information for students

    Teaching is based on laboratory studies where student studies and practices independently and teacher support and helps in problem situations. A student is expected to ask help from the teacher when facing problems and when they want more information of the subject matter.

    Unit, in charge

    Mechanical Engineering

    Degree programme(s)

    Degree Programme in Mechanical Engineering

    Office

    TAMK Main Campus

    Virtual proportion

    2 cr

    Evaluation scale

    0-5

    Completion alternatives

    Proof of Knowledge

    Exam schedule

    According to the schedule (November/December 2021)
    Specified at the beginning of the curse

    Students use of time and load

    Course credits: 3 credits (81 tuntia)
    Contact classes (start): 2 h
    Contact classes (group): 30 h ( 10 x 3 h )
    Exam: 3 h
    Independent studies ("own time"): 46 h