TMP220 Machine Parts and Power Systems
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Showing course contents for the educational year 2017 - 2018 .
Course responsible: Egil Stemsrud
ECTS credits: 10
Faculty: Faculty of Science and Technology
Teaching language: NO
Limits of class size:
Teaching exam periods:
This course starts in Spring parallel. This course has teaching/evaluation in Spring parallel, .
Course frequency: Annually
First time: Study year 2009-2010
1. students who have the course as mandatory in their study plan
2. students on the following study programmes: M-MF, M-IØ and M-MPP
3. students with most ECTS credits
It there are not enough slots in group one the students will be ranked by their ECTS credits.
In the first part of the course, important topics with regard to safe calculation and dimensioning of machine parts are emphasised. Key elements are as follows: Stresses due to static and dynamic loadings. Deformation of machine parts, design to avoid stress concentrations, metal fits and tolerances, power transmission, shafts and critical speed, coupling design, welding, screws fasteners design, breaks, springs, gears, bearings, belt/chain drives. Later in the course, machine parts and mechanisms are put into a larger perspective with regard to the development of mechanical and hydraulic power systems, such as transmissions and larger hydraulic systems. Key elements are as follows: Hydraulic valves, pumps, motors, pistons, electrical control units, mechanical and hydro-mechanical transmissions. In addition, an introduction to the use of standardised component symbols for planning mechanical and hydraulic systems is given, with practical examples from tractors, cranes, mass transfer machines, transport machinery and industrial installations etc. The course contains compulsory exercises, calculation exercises and planning exercises. The exercises focus on understanding, measuring and describing characteristics of single elements and the construction of complex installations and systems.
Through the course, students will learn how to apply elementary force calculations for machine parts and develop skills in the dimensioning of machine parts, power systems and machines. Also, they are to amass knowledge of the most used machine parts, their function and key mechanical and hydraulic systems. The students are to understand how external forces affect construction parts and what precautionary rules should be taken when dimensioning. Also, they are to understand and use the parameters, formulae, standards and criteria required for manual calculations and dimensioning with the needed security against deformation and fatigue. The students are to understand static and dynamic energy as well as force transfer through incompressible liquids and be able to calculate energy losses, efficiencies and outputs of mechanical, hydraulic and combined systems and transmissions. The students are to become familiar with standard symbols for transmission- and hydraulic elements and be able to use them in the design of simple and more complex mechanical and hydraulic systems. When the course has been completed, the students are to be able to calculate, dimension and specify machine parts, mechanical- and hydraulic systems key elements for modern machines that are used in agriculture, forestry, the building and construction sector as well as in industry and transportation. Energy efficient systems and solutions are emphasised in the course.
The course is given as a combination of lectures with a theoretical foundation and examples. During the course, calculation exercises are given where the students get to try out and practice their theoretical knowledge. Calculation assignments and exercises and system-planning assignments are compulsory and feedback on achievement is given along the way. The laboratory exercises are conducted in small groups of 3-4 students, and include the function and characteristics of machine parts, mechanisms and hydraulic systems (e.g. water and oil hydraulics), measuring forces, torque and power and the use of practical control engineering.
The subject teachers are available for support in connection with calculation exercises in working hours, and by e-mail and phone outside of the teaching time. Laboratory exercises are carried out under the guidance and technical assistance from other persons at the department that are easily available during the working day. In the period leading up to the examination, extraordinary assemblies/revision lectures will take place. By arrangement, there can also be exercise practice outside of the normal work hours.
Selected chapters from the following: Dahlvig, G., Christensen, S., Strømsnes, G.: Konstruksjonselementer, Yrkesopplæring,1991, ISBN 82-585-07001, 480 p., Brautaset, K.: Innføring i oljehydraulikk, Universitetsforlaget, 4. opplag 1999, ISBN 82-00-28325-9, 340 p., Johannesen, K.: Konstruksjonsteknikk, Fagbokforlaget, 2001, 352 p., ISBN 82-7674-636-5., Segveld, C., Meijer, J.: Maskinkonstruksjon I, NKI-Forlaget, 1992, ISBN 82-562-2630-7, 265 p., Segveld, C., Meijer, J.: Maskinkonstruksjon I,I NKI-Forlaget, 1992, ISBN 82-562-2632-3,376 p., Cetinkunt, S. 2007: Mechatronics, John Wiley and Sons, Inc., ISBN 978-0-471-47987-1, 615 p., Literature list with relevant chapters and texts is distributed at the first lecture.
FYS110 - Statics, TBM120 Mechanics of Materials and Structural Engineering Basics, TBM200 - Materials Science and Engineering.
FYS210 - Hydrodynamics.
Exercises and laboratory journals shall be completed and approved before the student can sit the final examination.
Written examination, 3 hours.
Lectures and assignments with homework: approx. 160 hours. Laboratory exercises with calculations and journal writing: approx 140 hours.
Special requirements in Science
Type of course:
Lectures and calculation exercises: 60 hours, (2+2) + 2 hours per week for 10 weeks. System planning and laboratory exercises: 32 hours, 2+2+2+2 hours per week for 4 weeks (intensive period in laboratory.
The course is compulsory for MPP (Machinery-, process and product development)students and IE-students (Industrial Economics) combining graduate level courses in Machinery and Product development and Business development/management. An equivalent course is also given at certain state-owned colleges, in the engineering education and can be credited by admitting students to higher year groups.
The external and internal examiner jointly prepare the exam questions and the correction manual. The external examiner reviews the internal examiner's examination results by correcting a random sample of candidate¿s exams as a calibration according to the Department's guidelines for examination markings.
Allowed examination aids: B2 Calculator handed out, other aids as specified
Examination details: One written exam: A - E / Ikke bestått