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undergraduate programme
Mechanical Engineering
Welcome to Mechanical Engineering Study Program, Universitas Sebelas Maret
(UNS).
The Mechanical Engineering Studies Program is an extraordinary and transformative place that provides a unique and thrilling environment for research and for advanced study, and our students are an important and valued part of the wider UNS community. Our students and lecturers are at the forefront of research being carried out for Indonesia’s development.
The research achievements of the Mechanical Engineering Program continue to increase from year to year. To assist the development of this field of knowledge, the Ministry of Education and Culture provides various instruments for processing renewable sources as grants to UNS, especially to the Mechanical Engineering Study Program. Started in 2012, the Mechanical Engineering Study Program has become part of the MOLINA National electric car development project. Two prototype electric cars have been produced. In addition, various innovations created by lecturers and students have been produced, such as composite materials with natural fibers, natural dyes, and many more. Two international awards were won in the Shell Eco Marathon Asia (SEM) which was held in Manila, Philippines. Furthermore, in 2017, the UNS Mechanical Engineering Study Program reached position 1 in SEM. The Mechanical Engineering Study Program received an International Certification from the Asean Network University Quality Assurance (AUN QA) with a validity period of 2018-2023, accredited A by the National Accreditation Board for Higher Education (BAN PT) with a validity period of 2019-2024, and accredited by the Indonesian Accreditation Board for Engineering Education (IABEE) with a validity period of 2022-2025.
Visit our video profile HERE
You can download the prospectus of mechanical engineering below
Accreditation Certificate 2019 – 2024
Accreditation Certificate 2014 – 2019
Accreditation Certificate 2008 – 2013
Credits
144 SKS
Time to Complete
4-Year
Student activity
There are student activities provided in Mechanical Engineering Study Programme. These activities also become UNS representation in some international competitions.
KMTM (Family of mechanical engineering)
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FSAE (Formula student)
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bengawan Shell Eco Marathon
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Bengawan UAV
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Bengawan Quadcopter
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PROGRAM EDUCATIONAL OBJECTIVES (PEO)
Mechanical Engineering Graduates who are able to analyse and design mechanical system and contribute the problem solving of complex engineering problems. | |
Graduates who have expertise in the area of entrepreneurship, leadership, and management to produce innovation and/or business related to Technology | |
Graduates who have basic research skills and transferring skills, and is able to develop mechanical engineering sciences |
EXPECTED LEARNING OUTCOMES (CPL)
Students in the Bachelor Program in Mechanical Engineering are prepared to attain the program educational objectives by the time they are graduated based on the following expected learning outcomes as shown below:
| S1 | to be able to apply religious and good-fearing value as the basis of being good members of society according to Pancasila. |
| S2 | to have commitment to professional ethics and profession. |
| S3 | to be able to perform lifelong learning process. |
| S4 | to be able to work individually and work as a team. |
| K1 | to be able to apply mathematics to solve complex engineering problem. |
| K2 | to be able to find problem source of complex engineering to mechanical systems through investigating and analytical processes with regards to Engineering principle. |
| K3 | to be able to conduct research involving identification, formulation and analysis of complex engineering problems in mechanical systems. |
| K4 | to able to formulate solution for mechanical engineering problems and other factors involving economy, health and safety of public, culture, and social, environment and energy. |
| K5 | to be able to formulate mechanical systems and other components needed with analytical approach considering technical standard, performance aspects, reliability, applicability, continuity, with considering economy, health and safety of public, culture, and social, environment and energy. |
| K6 | to be able to manage sources, facilities, and cost effectively in the design project and maintenance of mechanical systems and other components. |
| P1 | to master the theory of science principle, application of engineering mathematics, engineering principles, science engineering and design engineering needed for analysis and mechanical system design as well as other components.. |
| P2 | to master principles and mechanical engineering system design and other components |
| P3 | to master current principle and issue in economics, social, and general environment. |
| P4 | to master knowledge about communication technique and development of new technology followed with design, manufacture process and operation and maintenance as well as other components needed. |
| KK | to be able to imply engineering software for design/analysis/simulation and modern concepts for measuring and testing components in the area of renewable energy and advanced materials. |
SEMESTER LEARNING PLAN
Semester learning plan is a document containing target of the subjects, contents of the subject and detailed learning plan in a semester. This should be informed by Lecturer in the beginning of class.
For lecturer, it is mandatory to upload RPS on OCW before class starts. You can download the template here.
curriculum
Curriculum is designed well to make students enjoy and understand the field of mechanical engineering comprising energy, advanced materials, manufacturing and controls. In order to get Sarjana Teknik (ST), students need to pass at least 144 SKS including undergraduate thesis and seminar. Normally, it would take 4 years or 8 semesters. The detailed curriculum can be downloaded HERE and also presented below:
Semester 1
Religion
| SKS | CPL | CPMK |
| 2 | P3 | Able to explain correct worship in accordance with the teachings / shari’a established by religion. |
| Be able to specify rights and obligations in public relations | ||
| S1 | Able to integrate theory and practice in worship as well as rights and obligations in public relations |
Materials Science
| SKS | CPL | CPMK |
| 3 | K1 | Able to explain various types, properties, and testing of engineering materials |
| P1 | Able to understand and explain material properties along with standard testing methods. |
Materials Science Lab
| SKS | CPL | CPMK |
| 1 | S2 | Able to demonstrate work in the laboratory in a disciplined and responsible manner. |
| K2 | Able to analyze test and measurement data coherently to produce feasible conclusions. | |
| K5 | Able to collect valid test and measurement data based on applicable standards. |
Calculus 1
| SKS | CPL | CPMK |
| 3 | K1 | 1. Able to graph equations and inequalities of linear, polynomial, exponential and logarithmic functions by involving cartesian and polar coordinate systems.
2. Able to solve mathematical problems using matrix and limit methods. |
| 1. Able to solve ordinary derivatives and partial derivatives,
2. Be able to apply ordinary derivatives and partial derivatives to equations tangent, maximum, minimum |
||
| P1 | Able to master the concept of numbers and the stages of making graphs of systems of equations and linear, polynomial, logarithmic and exponential functions. | |
| Able to calculate matrix and determinant operations and solve limit problems. |
Physic 1
| SKS | CPL | CPMK |
| 3 | K1 | Able to work correctly problems of motion, kinematics and dynamics of particles and rigid objects. |
| Able to use basic hydrostatics and energy formulas to solve problems relevant to the mechanical engineering field. | ||
| P1 | Able to implement the concept of quantity systems, vectors and coordinate systems to solve problems of motion of particles / rigid bodies and hydrostatics. |
Chemistry
| SKS | CPL | CPMK |
| 2 | K1 | Able to solve problems of certain chemical events (phase changes, chemical reactions, electro-chemistry) related to mechanical engineering according to scientific stages. |
| P1 | Able to master the intricacies of chemical reactions related to mechanical engineering. | |
| Able to master the concept of atomic and molecular structure as well as phase changes in chemical events related to mechanical engineering. |
Engineering Drawing
| SKS | CPL | CPMK |
| 2 | K5 | Able to make design drawings of one and / or several interrelated components in accordance with international drawing and workmanship standards. |
| P2 | Able to demonstrate in the form of technical drawings on drawing standards and workmanship standards. |
English
| SKS | CPL | CPMK |
| 2 | P4 | Able to present data (tables, graphics and process drawings) in English |
| Able to conclude ideas or ideas from several articles / literature with similar themes. | ||
| S4 | Able to form a simple scientific opinion / opinion verbally |
Statistics
| SKS | CPL | CPMK |
| 2 | K1 | Able to identify, collect and process research data properly |
| P1 | Able to process data correctly and perform analysis based on previous hypotheses |
Bahasa
| SKS | CPL | CPMK |
| 2 | S4 | Able to show teamwork attitude through discussions and presentations. |
| P4 | Able to use Indonesian correctly and effectively for verbal communication and scientific writing |
Semester 2
Physics 2
| SKS | CPL | CPMK |
| 3 | K1 | Able to solve problems of electricity, magnetism, waves and sound as well as optics |
| P1 | Able to understand and explain the concept of charge and flow of electricity and waves related to sound, electromagnets and sound. |
Physics Lab
| SKS | CPL | CPMK |
| 1 | S2 | Able to demonstrate work in the laboratory effectively by prioritizing occupational health and safety aspects. |
| K2 | Able to explain physical phenomena related to mechanical engineering. | |
| K5 | Able to process and analyze data according to the correct rules to obtain adequate conclusions. |
Calculus 2
| SKS | CPL | CPMK |
| 3 | K1 | Able to solve problems: indefinite limit, certain integral, indefinite integral, differential and its application, integral and its application. |
| P1 | Able to explain the concept of differentials, integrals and their applications to solve simple problems in mechanics |
Basic Thermodynamics
| SKS | CPL | CPMK |
| 3 | K1 | Able to perform energy analysis in closed systems |
| Able to perform mass and energy analysis on volume adjust | ||
| P1 | Able to understand the basic concepts of energy conversion, work, heat transfer, internal energy, kinetic energy, and potential energy | |
| Able to understand the Second Law of Thermodynamics and Entropy |
Mechanical Drawing
| SKS | CPL | CPMK |
| 2 | K5 | Able to make assembled engineering drawings from mechanical components including work codes according to internationally accepted drawing standards. |
| P2 | Able to understand the concept of handling assembled images appropriately using design software. |
Manufacturing Process
| SKS | CPL | CPMK |
| 3 | K1 | Able to develop manufacturing processes from engineering drawings to mechanical components. |
| P4 | Able to select the right type of machining and production process to produce a mechanical component |
Structural Statics
| SKS | CPL | CPMK |
| 3 | K1 | Able to analyze and solve certain static problems |
| K4 | Be able to solve simple structural cases (truss, frame, portal and beam) by analyzing the strength of the structure and / or its members. | |
| P1 | Able to understand the basic concepts of support, free body diagrams, shear force diagrams and bending moment diagrams. |
Aljabar
| SKS | CPL | CPMK |
| 3 | K1 | Able to solve problems: the equations and inequalities of fractional, exponential, logarithmic functions and arithmetic and geometric series |
| P1 | Able to analyze and count fluid mechanics problems for produce a design |
Semester 3
Citizenship
| SKS | CPL | CPMK |
| 2 | S1 | Able to show a moral, civilized and law-abiding attitude in interactions in society, nation and state. |
| P3 | Able to know and understand the rights and obligations of citizens in relation to national security |
Mathematics
| SKS | CPL | CPMK |
| 3 | K1 | Able to apply mathematical knowledge of differential equations to solve simple problems in the field of mechanical engineering. |
| P1 | Able to understand the basic mathematical concepts of order I and order II differential equations |
Kinematics
| SKS | CPL | CPMK |
| 3 | K4 | Able to calculate acceleration, velocity, displacement of particles and rigid objects at Cartesian, polar and spcherical coordinates with an analytical approach. |
| P1 | Able to understand the basic theory of kinematics for particle problems and series of rigid objects (mechanisms). | |
| P2 | Be able to explain vector images of displacement, speed and acceleration of a series of basic rigid objects, namely the piston cylinder mechanism, fourbar linkage and the scrub engine. |
Strength of Materials
| SKS | CPL | CPMK |
| 3 | K1 | Able to analyze the strength of materials or dimensions of structural parts or mechanical components by considering the stress and strain of the materials used. |
| K4 | Able to design mechanical components that are safe under static load conditions in the form of force, moment and / or torque. | |
| P1 | Able to understand the concepts of stress and strain that arise in a mechanical component due to axial loads, bending and torsion. |
Manufacturing Process Lab
| SKS | CPL | CPMK |
| 2 | S2 | Able to follow work procedures and laboratory work standards, and apply K3 aspects. |
| Able to report the progress of work carried out in writing on an ongoing basis. | ||
| K2 | Able to demonstrate and correct conventional lathe and milling machine operations to make mechanical components by considering K3 aspects and the work environment. | |
| K5 | Able to produce mechanical components using manual processes (bench work), conventional machining and CNC machines in accordance with the technical drawings created. |
Thermodynamics
| SKS | CPL | CPMK |
| 2 | K4 | Able to draw physical and process diagrams for the cycle of steam power, gas power, refrigeration and heat pumps. |
| Able to solve thermodynamic cycle problems in the form of steam power plants, gas power, refrigeration and heat pumps | ||
| KK | Able to use supporting software to solve thermodynamic problems |
Basic Fluids
| SKS | CPL | CPMK |
| 2 | K1 | Able to apply basic concepts of compressible and incompressible flow substance mechanics to solve simple problems in mechanical engineering. |
| P1 | Able to know and explain the basic concepts of simple flow substance mechanical systems |
Engineering Measurement and Data Acquisition
| SKS | CPL | CPMK |
| 2 | K6 | Able to understand and design measurement techniques to quantify physical quantities in techniques. |
| P4 | Able to understand and explain measurement tools and data acquisition systems as well as technological developments used in measuring and testing technical quantities. |
Physical Metallurgy
| SKS | CPL | CPMK |
| 2 | K1 | able to apply basic concepts of material structure to predict properties, identify phase and design heat treatment |
| P1 | Be able to explain basic concepts of material structure and relate material structure to its properties |
Semester 4
Mathematics 2
| SKS | CPL | CPMK |
| 3 | K1 | Able to apply advanced mathematical methods in the form of number series to solve partial differential equations and complex analysis related to mechanical engineering. |
| P1 | Able to understand and explain the concept of number series, the concept of solving partial differential equations and analysis with complex numbers |
Dynamics
| SKS | CPL | CPMK |
| 2 | K5 | Be able to draw a free body diagram of a physical model of a mechanism or machine, then apply the equations of balance of forces and moments in the system to obtain all forces and moments acting on the machine / mechanism. |
| P2 | Able to analyze and calculate the magnitude and direction of static force, dynamic force on the mechanism / engine, balancing rotating mass and moving back and forth, as well as determining the size of the flywheel. |
Machine Elements
| SKS | CPL | CPMK |
| 2 | K5 | Able to understand the procedure for designing machine elements and the basic basis for designing engine elements and being able to design mechanical connections for power threads, shafts, bearings and springs. |
| P1 | Be able to demonstrate skills in reading standards used in designing machine elements | |
| P2 | Able to combine and select standard components that are suitable for the design |
Fluid Mechanics
| SKS | CPL | CPMK |
| 3 | K5 | Able to analyze and calculate fluid mechanics problems to produce designs |
| P2 | Be able to explain the pressure loss in flow agent to determine the power requirements of pump and compressor devices. |
Physical Metallurgy Laboratory
| SKS | CPL | CPMK |
| 1 | S2 | Able to follow work procedures and laboratory work standards, and apply K3 aspects. |
| K2 | Able to identify metal phases and microstructure | |
| K3 | able to practice treatment techniques to change the structure and properties of metals |
Heat Transfer 1
| SKS | CPL | CPMK |
| 3 | K5 | Able to analyze and calculate conduction and radiation heat transfer between two or more surfaces. |
| P2 | Be able to explain the basic concepts of conduction and radiation heat transfer modes |
Non Metal Machining Process
| SKS | CPL | CPMK |
| 2 | P2 | Able to explain various types of casting, welding, forming, powder metallurgy and metal surface treatment processes for product manufacturing |
| P4 | Able to explain how to check and analyze the quality of the results of the processes of casting, welding, forming, powder metallurgy, and metal surface treatment |
Industrial Management
| SKS | CPL | CPMK |
| 2 | K4 | Able to analyze and calculate basic problems of simple production processes at a production station from the manufacturing process. |
| K6 | Able to manage resources, facilities, and costs effectively for processes within an industry. | |
| P4 | Able to update industrial information and technology tools that have the potential to change the management system of a company |
Computer Programming
| SKS | CPL | CPMK |
| 2 | K2 | Students understand Computer Programming, Program Algorithms, and are able to use programming languages to solve math problems with various features. |
| KK | Able to solve mechanical problems related to program logic with the help of computer software. |
Biology
| SKS | CPL | CPMK |
| 3 | K4 | Able to apply environmental concepts in decision making from mechanical problems |
| P3 | Able to understand environmental management in order to maintain the balance of human life and their habitat. |
Semester 5
Machine Elements 2
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and select the appropriate transmission for engine power transfer |
| P1 | Be able to demonstrate skills in reading standards used in designing machine elements | |
| P2 | Able to combine and select standard components that are suitable for the design |
Electric Power and Engineering
| SKS | CPL | CPMK |
| 2 | K5 | Able to apply basic concepts of electromechanical drive theory to construct simple electromechanical drive machines |
| P4 | Able to explain the working principle, calculation and selection of various types of electromechanical machines for a mechanical system |
Pancasila Education
| SKS | CPL | CPMK |
| 2 | S1 | Able to show an attitude of behaving in accordance with the values of Pancasila in the life of society, nation and state. |
| P3 | Able to understand the noble values contained in Pancasila as the basis of national and state life. |
Mechanical Vibrations
| SKS | CPL | CPMK |
| 3 | K5 | Able to make free body diagrams and equations of motion based on physical models of vibrating systems using Newton, Lagrange, and Energy methods for systems of one degree of freedom. |
| P1 | Able to calculate and analyze the response of motion of a vibrating object that is harmonically excited freely or forcibly, damped or not damped; | |
| P2 | Able to calculate and analyze vibration parameters, such as damping ratio and natural frequency. |
Computational Numerical Methods
| SKS | CPL | CPMK |
| 3 | K3 | Students are able to solve root problems of polynomial functions, calculate interpolation and extrapolation, systems of linear equations (matrices), calculate integrals and derivatives and solve differential equations using numerical methods |
| P1 | Able to perform numerical calculations for analysis and design of mechanical systems | |
| KK | Able to use software to solve problems in the field of new and renewable energy and advanced materials through numerical analysis and / or simulation. |
Drive control System
| SKS | CPL | Code | CPMK |
| 2 | K5 | Students are able to evaluate the drive control system that is suitable for various applications in mechanical systems | |
| P4 | Students are able to explain the working principles, calculation and evaluation of the operation of various types of drivers for a mechanical system design | ||
| KK | Able to use supporting software to analyze the control system |
Heat Transfer 2
| SKS | CPL | CPMK |
| 2 | K5 | Able to solve problems related to the concept of convection heat transfer and change-phase heat transfer to solve problems in engineering applications. |
| P2 | Able to implement the concept of convection heat transfer and change-phase heat transfer to solve problems in engineering applications |
Fundamental of Mechanical Phenomenon Lab.
| SKS | CPL | Code | CPMK |
| 2 | S2 | Able to show a work attitude that prioritizes occupational safety and health as well as work enthusiasm and ethic. | |
| K3 | Students are able to understand, explain and analyze basic phenomena in the field of mechanical engineering |
Non-machining of Metal Lab.
| SKS | CPL | CPMK |
| 1 | S2 | Able to show a work attitude that prioritizes occupational safety and health as well as work enthusiasm and ethic. |
| K6 | Able to make products using casting and welding processes |
Semester 6
Entrepreneurship
| SKS | CPL | CPMK |
| 3 | S2 | Able to demonstrate professional attitudes and ethics in carrying out business activities. |
| S4 | Able to show cooperation in one team or between teams. | |
| P3 | Able to understand the concept of innovation and seize opportunities to build a business activity. |
Maintenance Engineering and K3
| SKS | CPL | CPMK |
| 2 | K6 | Able to plan the maintenance of engineering tools or tools with the right schedule by prioritizing the safety and health of maintenance operations. |
| P2 | Able to master maintenance stages based on data sheets on tools or mechanical system components. | |
| KK | Able to use application software to develop tooling maintenance systems. |
Material and Process Selection
| SKS | CPL | CPMK |
| 2 | K6 | Able to choose metallic, non-metallic or polymeric materials according to the loading characteristics and application environment. |
| P4 | Able to master the principle of material selection in designing mechanical systems / components in accordance with the latest technological developments. |
Engineering Design
| SKS | CPL | CPMK |
| 2 | S3 | Able to show the novelty of design by referring to the latest science and technology. |
| S4 | Able to show teamwork attitude through the design process, discussion and presentation. | |
| K5 | Able to design products in the field of mechanical engineering with the correct design method without leaving non-technical aspects in consideration. | |
| P2 | Be able to explain the design steps of a mechanical product coherently and systematically according to the correct design rules. | |
| P4 | Able to make scientific reports properly and correctly orally and in writing in open and / or limited forums. |
Energy Conversion Machine
| SKS | CPL | CPMK |
| 2 | P1 | Able to explain energy conversion machines |
| P2 | Able to determine the efficiency (performance) of energy machines |
Mechatronics
| SKS | CPL | CPMK |
| 2 | K5 | Students are able to design mechatronic systems and understand how the constituent components work |
| P4 | Students master the knowledge of sensor and actuator technology used in mechatronic systems | |
| KK | Able to use certain software for mechatronics applications. |
Mechatronics Lab.
| SKS | CPL | CPMK |
| 1 | S2 | Able to show discipline and responsibility in the implementation of mechatronics practicum |
| K6 | Able to utilize mechanical and electronic components and devices to make mechatronic systems |
Machine Performance Lab.
| SKS | CPL | CPMK |
| 2 | S2 | Able to show discipline and build cooperation |
| K3 | Able to understand, explain and analyze the performance of machines that produce and require work |
Fundamental Culture Science
| SKS | CPL | CPMK |
| 2 | K4 | Able to understand social and cultural concepts to complete comprehensive food problem solving. |
| P3 | Able to analyze humans as cultural, individual, social, cultural beings and their relation to morals, law, science, technology and the environment. |
Semester 7
Proposal Seminar
| SKS | CPL | CPMK |
| 2 | S3 | Able to show the results of studies from up-to-date references or literature in accordance with the focus of the field of study being discussed. |
| K2 | Students are able to determine specifically the idea of the problem, limit the scope of the research correctly, plan data collection and determine the parameters to be analyzed | |
| P4 | Able to explain systematically and effectively about the focus of the study areas discussed using information technology tools. |
Internship
| SKS | CPL | CPMK |
| 2 | S2 | Able to show a professional attitude in carrying out tasks assigned by other parties. |
| S4 | Able to demonstrate mutually supportive and complementary cooperation in a team that comes from a variety of different backgrounds. | |
| K4 | Able to explain management, operation, or production systems and apply knowledge in the field of mechanical engineering to solve or analyze problems that exist in the industry or world of work. |
Engineering Project
| SKS | CPL | CPMK |
| 2 | S3 | Able to solve problems in the process of making prototypes / tools through various reference sources. |
| S4 | Able to show a teamwork attitude through the stages of the process of making prototypes / tools, discussions and presentations. | |
| K6 | Able to manage resources, facilities, and cost effectively in making prototypes / tools | |
| P2 | Be able to explain the steps for component manufacturing and prototype manufacturing. | |
| P4 | Able to demonstrate design products that are able to work in accordance with design targets |
Elective Course 1
| SKS | CPL | CPMK |
| 3 | K6 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to utilize the latest information technology and / or engineering software to solve mechanical problems. |
Elective Course 2
| SKS | CPL | CPMK |
| 3 | K6 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to utilize the latest information technology and / or engineering software to solve mechanical problems. |
Semester 8
Voluteering
| SKS | CPL | CPMK |
| 2 | S4 | Able to demonstrate the ability to work together in teams to solve problems comprehensively. |
| K1 | Able to communicate actively with the community, recognize community problems directly, apply scientific knowledge of mechanical engineering to solve these problems or find solutions with an interdisciplinary approach | |
| P3 | Able to solve problems in society with solutions based on understanding the basic sciences of mechanical engineering and using the latest methods and / or technology. |
Self-development Programme
| SKS | CPL | CPMK |
| 1 | S2 | Able to demonstrate communication engineering ethics, teamwork, lead and apply engineering knowledge in various activities |
| S3 | Able to show seriousness in obtaining the latest information related to the focus of activities carried out. | |
| S4 | Able to work together in a team with people / groups who come from different backgrounds. |
Comprehensive Test
| SKS | CPL | CPMK |
| 1 | K1 | Able to apply basic concepts of mechanical engineering to solve thematic problems that require quick resolution. |
| P1 | Able to explain logical and systematic thinking concepts based on mastery of basic mechanical engineering. |
Final Project
| SKS | CPL | CPMK |
| 4 | S2 | Able to show honest, passionate and sincere behavior in solving mechanical problems. |
| S3 | Able to show seriousness in obtaining the latest information related to the focus of mechanical problems to be resolved. | |
| K6 | Able to realize research / design / experiment, write scientific reports correctly, and summarize research results in scientific papers presented in seminars or published in journals. | |
| P2 | Able to understand the design strategy for solving mechanical problems quantitatively or qualitatively. | |
| P4 | Able to compile and present the final work report orally and in writing effectively and with dignity. |
ELECTIVE courses
MATERIAL
Failure Analisis
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Materials Characterisation
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Corosion
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Heat and Surface Treatment
| SKS | CPL | CPMK |
| 3 | K5 | Able to design heat and surface treatment processes to obtain certain metal properties. |
| P2 | Able to explain aspects related to the heat treatment process and surface including phase transformation, material properties, and processes. | |
| KK | Able to utilize information technology to analyze heat and surface treatment processes. |
Ceramic Technology
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively related to ceramic materials using the latest information technology. |
| P2 | Able to master the principles and techniques of mechanical system design and ceramic components. | |
| KK | Able to erapkan engineering software (software) for the design / analysis / simulation d early modern tools for p roducing / measurement / testing of components made of ceramic. |
DESAIN DAN KONTRUKSI
Transportation Technology and Design
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Sea Transport Industry and Environment
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Design for Feasibility
| SKS | CPL | Indikator Penilaian |
| 3 | K5 | Able to design manufacturing and assembly processes to get a mechanical component or machine that has a specific function at optimal cost. |
| P2 | Able m enjelaska n different types of manufacturing processes required to produce a product in a bi dang Mechanical Engineering | |
| KK | Being able to utilize Information Technology and / or software to design machined components and systems perakita n engine |
Dynamic Systems
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Piping Systems
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Vibration Control Engineering
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Empiric and Modelling Engineering
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Predictive Maintenance
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze the appropriate predictive maintenance program for a mechanical equipment. |
| P2 | Able to explain various maintenance policy strategies and various mechanical equipment damage analysis methods. | |
| KK | Able to utilize Information Technology and / or Software for diagnosis of damage to mechanical equipment |
ENERGY CONVERSION
Aero and Application
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Solar Power
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Nano Fluid
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Fluid Dynamics Computation
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Heat Transfer Computation
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Combustion Engine
| SKS | CPL | CPMK |
| 3 | K5 | Be able to explain how the main components of an internal combustion engine work. |
| P2 | Able to understand the theoretical and actual working principles of internal combustion engines. | |
| KK | Able to analyze problems with internal combustion engines |
Principles and Applications of Mass Transfer Operation
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Refrigeration Engineering
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Adsorption and Application Technology
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
MANUFAKTUR
Additive Manufacturing
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Product Design and Development
| SKS | CPL | CPMK |
| 3 | K5 | Able to carry out the process of product design and development in accordance with standard principles in product development theory |
| P2 | Able to translate customer desires and technical specifications in the form of House of Quality (HoQ) | |
| KK | Able to design products that are manufacturability according to Design for Manufacturing (DFM) rules. |
Forming Engineering
| SKS | CPL | CPMK |
| 3 | K5 | Able to analyze and calculate metal forming forces |
| P2 | Able to explain metallurgy, mechanics and metal forming process technology aspects | |
| KK | Able to utilize information technology to analyze the process of metal forming. |
Machine Process and Technology
| SKS | CPL | CPMK |
| 3 | K5 | Being able to analyze various parameters in the machining process, |
| P2 | Able to calculate force, efficiency, economization and various technical problems of the machining process | |
| KK | Being able to choose various alternative machining processes in accordance with the desired product character |
Polymer Technology
| SKS | CPL | CPMK |
| 3 | K5 | Able to design and / or analyze mechanical problems in depth and comprehensively by utilizing the latest information technology. |
| P2 | Able to understand how to solve problems by involving in-depth study in the field of mechanics. | |
| KK | Able to take advantage of the latest information technology and / or engineering software to solve mechanical problems. |
Contact Us:
Address : Ir Sutami no 36 A
Phone : +6271632163
Email: mesin@ft.uns.ac.id | unsmesin@gmail.com
© 2019 Teknik Mesin UNS.