| Mechanical and Industrial Engineering |
 EDUCATIONAL GOAL BACHELOR DEGREE PROGRAM IN MECHANICAL ENGINEERING This program is designed to produce graduates with these following competencies in:
BACHELOR DEGREE IN INDUSTRIAL ENGINEERING This study program is designed to produce graduates with these following competencies in:
MASTER DEGREE PROGRAM IN MECHANICAL ENGINEERING This program aims to improve capability in thinking, research, knowledge development, and self development skills of the graduates. Graduates are expected to be able to give real contributions for mechanical engineering development in their career, either as researcher, teaching staff, or expert on industrail design and engineering. MASTER DEGREE PROGRAM IN INDUSTRIAL ENGINEERING The objectives of master degree program in industrial engineering are to improving thingking skill, research skill, and knowledge development in industrial engineering field, and also self development skills of the graduates. The graduates of the program are expected to be able to give real contributious in their career as researcher, teaching staff or expert on industrial and assingn engineering. LABORATORIES Workshop Technology Laboratory Head: Ir. Subagio, M.Sc. This lab activities are mainly giving practical training on engineering material processing and simple machine’s parts production using hand or machine, thus students can understand metal characteristics and know how to use scrape tools, cutting tools, and measuring tools. This lab emphasizes on manual mechanical material processing. It’s also equipped with lathe machines, frais machines, drilling machines, scrap machines, press machines, grindstone machines, electric welding machines, carbide welding machines, and some bench working tools. Besides for training student skill, this lab’s also used for final project/ thesis researches. It’s also a place for producing and fixing broken tools of other labs. Energy Conversion Laboratory Head: Ir. Purnomo, MSME, Ph.D. This lab is used for really showing energy conversion machines characteristics to bachelor degree students, such as cylinder machines, gas turbine, steam turbine, and so on. Students are also introduced to modern and sophisticated machinery testing tools or fuel. They can also use this lab for researches, such as air humidity effect toward combussion enginer performance, exile gas pollution on outer air, fuel efficiency, etc. this lab is equipped with diesel engine test bed, gasoline engine test bed, small engine test bed, steam power plant, gas power plant, variable compression engine test bed, fluid combustion test bed and other supporting measuring tools, scuh as: exhaust gas analyzer, indicator diagram maker, bomb calorimeter, flow calorimeter, engine process analyzer, injection pump tester, combustion analyzer, and electricity analyzer. Accoustic and Mechanical Vibration Laboratory Head: Dr. I Made Miasa, ST., M.Sc. This lab is used for learning and analyzing vibration characteristics in construction, learning the effects of noise to construction, and other phenomena in sound/ noise. Equipments available in this lab are digital event recorder, heterodyne slave filter, measuring apparatuse, multipoint selector, frequency analyzer, noise generator, 1/3 octave filter set, 1/3 octave band analyzer, strain indicator, standing wave app., piston phone, accelerometer calibrator, impulse precision spl, charge amplifier, level recorder, octave band analyzer, random noise generator, sound level meter, acoustic calibrator, oscilloscope 100 mhz, digital stroboscope, stroboscope, vibration exiter, frequency analyzer, oscilloscope, precission sound level meter, strorage oscilloscope, ect. This lab is also equipped with anechoic chamber, i.e. a semi-soundproof room for supporting many researches. Researches facilitated by this lab are absorption number of acoustic material, resounding-sound time, components which form sound, noise, components which form mechanic vibration, structure’s natural frequency, and vibration isolation. Heat and Mass Transfer Laboratory Head: Ir. Samsul Kamal, M.Sc., Ph.D. This lab is for supporting theory concerning cooling techniques, heat transfer, and solar energy. Tools available in this lab are expe-rimental device and chilling, york trainer, refrigerator and mixing unit, multi purpose air duct, heat transfer bench, refrigerator unit, forced convection, radiation heat transfer, smoke filter, pyrheliometer, epply angstrom, solar cell measurment test, solar cell, solar collector, process control equipment, water cooling tower, metal conductivity equipments, and some new tools from British Government. Experiments that can be carried out at this lab are: cooling system performance, air processing and room cooling load calculation, forced convection heat transfer, radiation heat transfer, conduction heat transfer, cooling tower performance, solar intensity measurement, and atmosphere pollution measurement. Fluid Mechanics Laboratory Head: Prof. Dr. Ir. Indarto, DEA This lab is used by student for understanding more about flow characteristic in pipes, flow amount measurement, pump characteristics, pelton turbine characteristics, boundary layer depth, pressure distribution in model, resistance on the object and aircraft’s wings model. This lab can also be used for post graduate students researches. The available equipments are flow system in pipe, surge water hammer apparatus, multi-level pums, pelton turbine, francis turbine, piston compressor, parallel serial setrifugal pump, gearing and piston pump, piston pump, sub sonic wind tunnel, and testing material model, Doppler laser, hot wire anomometer, laminar flow visualitation, cavitation phenomenon visualitation, etc. Engineering Materials Laboratory Head: Dr. Ir. Viktor Malau, DEA This lab’s activities are mostly on training students about metal testing or knowing about physical, mechanics, plastics and formation characters of casting metal. Besides, this lab is also used for final project or thesis researches on material science (metal), composite, and fracture and fatigue., and also for postgraduate researches from other faculties (dentistry, forestry, agriculture, etc.). Metal industries are also taking advantages of this lab for improving their productivity and quality. This lab is equipped with induction chamber of 25 Kg in capacity, tensile strength testing (tensile, shear, bending, compression), shear stress testing, hardness testing machine (Rockwell, Brinell, Vickers), universal testing machine (tensile, shear, bending, compression), fatigue testing machine, impact testing machine, torsion testing machine, magnafluct and ultrasonic testing machine, microscope optic, sand cast testing machine, Heat Treatment Furnace, Autoclave, servopulser testing machine, surface roughness testing machine “Surfcom”, Vertikal Tube Furnace, Vaccum Tube Furnace, weathering testing machine, punching machine, polishing machine, creep testing machine, and other tools. Design Laboratory Head: Urip Agus Salim, ST., M.Sc. This lab is a place for students to finish their machine drawing technique tasks. Besides, it can be used by students to finish their final project, public service program, etc. CNC and CAD/CAM Laboratory Head: Ir. Janu Pardadi, MT. This lab gives opportunity for students to get more knowledge and skills on programming, operating milling and frais machine which can be programmed by computer, and how to handle material or tool by using computer that can be connected to CNC machines. This lab’s also equipped with laser metal cutter machine and flame cutting for students who are having special interest on laser and flame cutting. In product designing, this lab provides CAD software (Computer Aided Design) and continued by CAM (Computer Aided Manufacturing) which will directly produce programs for NC/CNC machines. And for combining those CNC machines, this lab also has FMS unit (Flexible Manufacturing System) that integrates CNC milling machine and CNC frais machine by using robot. Another facility available is wood working tools using CNC frais machine. Mechanical and industrial engineering department is given responsibility for managing “CNC and CAD-CAM machines training center” (produced by EMCO-AUSTRIA) for academic staffs and lab staffs from universities all over Indonesia. Some cooperation carried out by this lab are sudu turbine production with PT. Petro Kimia Gresik, locomotive components production with PJKA, DC-9 components production with PT. Garuda Indonesia, speciment production with PT. New Armada and PT. IPTN in producing speciments for crack and fatigue test. It also conducts some trainings. Process and Prodcution System Laboratory Head: Dr. Arief Wibisono, ST., MT. This lab provides facility for students to develop skills in production and optimation. It functions as service unit that supports learning activity especially the one concerning procution system, production process, factory layout planning, industrial transport tools planning and controlling.. This lab has machines such as wood CNC, wood milling and frais machines, flexible manufacturing system (robot), and so on. Simulation and Computation Laboratory Head: Budi Hartono, ST., MPM. This lab provides facilities for students to develop skill and ability in design, manufacturing system simulation, and automotic production. This skill development is using direct involvement in developing manufacturing and automatic production, and also their design and simulation aspects. Simulation is offline done, while modeling and programming is done by computer and online by developing prototype once the system is offline modeled. This lab helps students to understand more on product design and planning subject, system modeling, computer programming, information system, and computer model and simulation. By using this lab, students are expected to have more ability in using computer as supporting tool in modeling and designing for solving cases in industries that are dealing with designing, scheduling, system simulation, ergonomic analysis, and integration system. Skill and ability needed in design and simulation are process identification, technical specification, system modeling, production optimation, computer programming, data acquisition and control. This lab also provides facilty for students who are taking “introduction to computer” subject for practicing programming using FORTRAN, Basic, and Pascal. These following softwares are also available: PROMODEL, ARENA, ANSYS, FLUENT, MARCH, and NASTRAN. Some softwares are used for public tranining. Work Analysis and Ergonomy Laboratory Head: Andi Rahadian Wijaya, ST., M.Sc. This lab is a tool for designing comfortable, safe, and prodcutive working system. Besides being used as a place to conduct work design experiment, this lab can also be used by students for finishing their final project on design, public service, and so on. At this lab, students can learn and do real observation on how the applied sciences are close connected to work, how human and work place should be connected to produce efficient performances. Students are expected to learn to apply ergonomy on nonwork setting, as vehicles, industrial products, and industrial environment modification. Facilities available are production system simulation tools (scrap machine, working table, motion study, work variable measurement, time, physical environment, etc.) and work measurement tools, endurance test monitoring, etc. ACADEMIC INSTRUCTIONS BACHELOR DEGREE PROGRAM Students of Mechanical Engineering Study Program and Industrial Engineering Study Program have to take 144 credits to pursue Bachelor degree. Those credits are distributed in 8 semesters. Subjects of each semester can be seen in the order part of guide book. Elective Subjects. Students have to determine their special expertise interest in each study program by attending elective subjects. They are allowed to take the elective subjects after they have completed all compulsory subjects in semester 1 to 5 with GPA ≥ 2.00. Before determining such subjects, they should consult with their academis supervisor. Industrial Field Work. It is compulsory for students to conduct industrial field work at least 1 (one month) in appropriate industry. Students are eligible to take this subject after they have completed all compulsory subjects in semester 1 to 5 with GPA ≥ 2.00. They may choose an industry where they want to do the field work and then the department will write an application letter for it. The students can go to the industry if the industry agrees to accept them and determine the realization date. Community Field Work (KKN). It is also compulsory for students to take community Field Work subject for 2 moths. This subject is arranged by university. Students from any faculty are group of around 35 personsto go to an appropriated region or community in order to implement a certain theme for 2 months. This subject can be taken if the students have already completed all subjects in semester 1 to 5 with GPA ≥ 2.00. Final Project. Final project is a compulsory integrated project that must be done by students in their final year. In this project, students are trained to implement concepts and theories in study program to solve a problem. Students in Mechanical Engineering Study Program are eligible to apply final project after they have completed 118 credits with GPA ≥ 2.00 AND have taken 3 (three) elective subjects in one module (group of elective subjects). Students in Industrial Engineering Study Program are eligible to apply final project after they have completed at least 128 credits with GPA ≥ 2.00 and have passed at least 1 (one) elective subject. In conducting the final project, each student is supervised by a lecturer who is appointed by the department. Students should complete the final project wihin 1 (one) semester. If in one semester, the students can not complete the final project, the Departemnt will evaluate and progress of the project, the students are suggested to discuss and consult eith their supervisor regularly at least twice a month. Yudisium. The bachelor graduation requirements should meet the university rules with the total credits of 144 credits. MASTER DEGREE PROGRAM IN MECHANICAL ENGINEERING There are three majors, which are: 1) Energy 2) Material Mechanics and Engineering For graduation, students must take at least 40 credits consist of 5credits of general compulsory subjects,12 credits of major Elective Courses, 15 credits of main interest subjects, and 8 credits of thesis. The 1st and 2nd subjects can be seen on the curriculum table, while the Elective Courses are available in more than 25 subjects. MASTER DEGREE PROGRAM IN INDUSTRIAL ENGINEERING This program is the deepening and development of the undergraduate program (bachelor degree of industial engineering) that consists of two majors, i.e.: 1. Working System and Industrial Ergonomy (SKEI) 2. Manufacture System and Process Engineering (RPSM) In order to complete the program, students must take at leaset 43 credits, consist of 11 credits of general compulsory subjects, 6 credits of study program’s compulsory subjects, 9 credits of major’s compulsory subjects, 9 cerdits of Elective Courses, and 8 credits of thesis. General compulsory subjects and major’s Elective Courses can be seen on the curriculum table, while the major’s subjects are available in more than 13. RESEARCHES Some fund soruces used by mechanical and industrial engineering department are from SPP/DPP, A3 competitive grants program, RUT, competitive grants. In the year of 2005-2006, researches conducted are 9 DPP SPP, 7 A3 competitive grants, 2 RUT, 1 competitive grants, 1 Hibah Pekerti, and 1 DIKTI basic research. PUBLIC SERVICE In order to accomplish one of Tri Darma perguruan tinggi, this department has been carrying out public service activities which is integrated to themed KKN. In the year of 2001 – 2006 it has about 7 programs on facilties repair in Wonobroto, Tuksono, Sentolo, Kulon Progo, Yogyakarta; road hardening on road to orphanage Pesantren in Balong, Donoharjo, Ngaglik, Sleman; tofu press machine production and kitchen design for brown sugar production in Tuksono, Kecamatan Sentolo, Kulon Progo. COLLABORATION In the last 5 years, some collaborations have been carried out with some institutions, some of them are; government institutions (Dikti, Dikmenjur), BUMN (PT. PLN Unit Suralaya, PERTAMINA UP IV Cilacap, PT. Industri Kereta Api), private (ATMI Solo, PT. GE Lighting, PT. Candra Asri Cilegon, PT. Garuda Maintenance Facility, PT. Badak NGL Bontang, PT. TOYOTA Motor Manufacturing Indonesia, PT. Kratau Steel, Exxon Mobil), and education institutions (Leeds University). At the time being, this department is actively involved in some educational activity and research with some foreign educational institutions such as Universitas Malaya Malaysia, Kyoto University, Tokyo Institute of Technology Japan some universities in ASEAN in a program called AUN-SEED Net, with Groningen University Netherland and other universities in Indonesia in Asia Link Program and with Kyushu University Japan with the support from JICA through Hi-Link Project. For furthur information, please contact mie.ugm.ac.id  |