Machine Fundamental Phenomena Laboratory

Machine Fundamental Phenomena Laboratory

Support Mechanical Engineering department in teaching, research and community service relating to the fields of mechanics of material strength, statistics, experimental mechanics, kinematics, dynamics and mechanical vibrations.

1. Two Dimensional Truss

The aim of the experiment is to determine the experimental values ​​of the forces acting on a crane with a cantilever wall.

2. Three Dimensional Truss

The practicum aims to use the vertical load on the top of the rod to form experimental forces from each rod and calculate the forces on the rod using the tensile stress coefficient method and compare the experimental results with the theoretical.

3. Reaction of Indeterminate Static Support

The aim of the practicum is to understand the statically indeterminate construction of the flexural beam structure and to look for the support reaction from the statically indeterminate structure of the flexural beam which is subjected to a concentrated force.

4. Bending Beam Deflection

The aim of the practicum is to understand certain static constructions in the flexural beam structure and to find the deflection in the flexural beam structure which is supported by a simple support and is subjected to a load in the form of a concentrated force.

5. Buckling Phenomenon

The practicum aims to understand the phenomenon of buckling on the column, determine the critical load of the column with hinge-roll and roll-clamp support conditions and compare experimental results with theoretical calculations.

6. Moment of Inertia

The practicum aims to determine experimentally the mass moment of inertia of the disk, and to compare the results obtained with the theoretical results obtained from the mass and physical dimensions of the disk.

7. Balancing

The practicum aims to analyze inertial forces theoretically and experimentally on the arrangement of unbalanced masses that move in rotation on the machine, which causes vibrations in the cantilever beam.

8. Slider Crank Mechanism

The aim of the practicum is to understand the working principle of the slider crank mechanism and to find the position of the piston rod as a function of crankshaft rotation.

9. Continuous System Vibration

The aim of the practicum is to understand the free vibration and forced vibration in the flexural beam structure and to find the effective mass and natural frequency of the flexural beam structure with free vibration and forced vibration.

10. Discrete System Vibration

The aim of the practicum is to understand the free vibration and forced vibration in the flexural beam structure and to find the effective mass and natural frequency of the flexural beam structure with free vibration and forced vibration.

A. Lecturer

No. Title Year
1 Design and Build Data Logger for Experimental Data Retrieval in the Machine Fundamental Phenomena Laboratory 2019
2 Design and Build Equipment for Palm Oil Empty Fruit Bunches 2018
3 Finite Element and Experimental Study of Octagonal Ring Transducer 2017

 

B. Student Final Project

No. Title Year
1 Analysis of kinematic phenomena on the planetary gear train 2019
2 Experimental study of indeterminate static structure : clamped – clamped 2019
3 Load cell test for measuring axial force and torque of the spoke wheel type 2019
4 Equipment for analyzing the effect of the gyroscope on the balance of the tool 2019
5 Kinematic analysis of excavator arm modeling 2019
6 Excavator arm modeling design 2019
7 Design and build laboratory-scale excavator wheels 2019
8 Hollow tube drill dynamometer design 2019
9 Free and forced vibration analysis with one degree of freedom viscous damper 2019
10 Buckling on strip plate 2018
11 Designing a control system for the stability of one degree of freedom inverted pendulum (inverted pendulum) 2018
12 Design of robotic arm motion using a microcontroller 2018
13 Design of mini fresh fruit bunches for oil palm plantations in Indonesia 2018
14 Design and build a hoist model on a laboratory-scale single girder gantry crane with a capacity of 10 kg. 2018
15 Free vibration test of one degree of freedom discrete mass system 2018
16 Analysis of structural strength on flat carriages 2018
17 Analysis of the strength of the support structure of the overhead crane with a capacity of 2 x 20 tons 2018
18 Design and build tool for chopping oil palm empty fruit bunches 2018
19 Design and build a dynamometer tool with an octagonal loadcell perpendicular to the lathe 2018
20 Experimental analysis of centrifugal force 2018
21 Design and analysis of the oscillation system on the chassis of the vehicle transporting oil palm fruit bunches 2017
22 Analysis of the strength of the laboratory-scale truss type gantry crane using finite element-based software 2017
23 Design and build a laboratory-scale jib crane 2017
24 Analysis of the structural strength of the freestanding type jib crane using finite element-based software 2017
25 Design and build a hoist and drive motor on a laboratory-scale gantry crane 2017
26 Analysis of the flexural beam structure using a strain sensor 2017
27 Design and Analysis of the strength of the octagonal ring load cell 2017
No. Title Year
1 Experimental Mechanics Training 2019
2 Experimental Mechanics Training Using Strain Sensors 2018
3 Experimental Mechanics Training for Practitioners & Industry 2017
4 Experimental Mechanics Training for High School Students 2016
  1. Design of Universal Connector on Mini Transporter of Oil Palm Fresh Fruit Bunches. Scientific Journal of Mechanical Engineering, Vol 10 No.1, January 2019.
  2. One Degree of Freedom Discrete System Vibration Simulation. Scientific Journal of Mechanical Engineering, Vol 10 No.1, January 2019.
  3. Structural Strength Analysis on Flat Carriages. Scientific Journal of Mechanical Engineering, Vol 10 No.1, January 2019.
  4. Strength Analysis of Overhead Crane Support Structure 2 x 20 Tons. Scientific Journal of Mechanical Engineering, Vol 10 No.1, January 2019.
  5. Equipment Design to Enumerate Oil Palm Empty Fruit Bunch. Proceedings of SNTTM XVII, October 2018, pp. 092-098.
  6. The use of an extended octagonal ring transducer type load cell for the buckling test on the beam. Indonesian Journal of Mechanical Engineering, Vol. 12 No. 2, October 2017.
  7. Design of Mini Size Fresh Fruit Bunches Transport Equipment in Oil Palm Gardens. Proceedings of SNTTM XV, October 2016.
  • HFC 1: Rod Reaction
  • HFC 2: Rod Force
  • HFC 3: Pole Force
  • HFC 4: Slide Force
  • HFC 5: Bending Moment
  • HFC 6: Vertical Work
  • HFC 7 : Tangential Work
  • HFC 8 : Center Point
  • HFC 9 : Lever
  • HFC 10 : Flatcher Tolley
  • HFC 11 : Acceleration
  • HFC 12 : Three Wire Suspension
  • HFC 13 : Rolling Disc
  • HFC 14 : Wall Jib Crane
  • HFC 15 : Derrick Crane
  • HFC 16 : Testaric Coefficient
  • HFC 17 : Roof Frame
  • HFC 18 : Sliding Feet
  • HFC 19 : Hinged Connection
  • HFC 20 : Simple Moment
  • HFC 21 : Centrifugal Force
  • HFC 22 : Shear Force on Rubber
  • HFC 23 : Forces
  • HFC 24 : Conversion Moment
  • BSMI : Moire Drawing Pattern
  • BSM2 : Analysis with photo elasticity
  • BSLI : Bending Beam
  • BSG : Mechanical Vibration
Campus A, F & G (Hery Hartanto) Building 2nd Floor

Mechanical Engineering Department, Faculty of Industrial Technology, Trisakti University

  • Head of Laboratory : Ir. Tono Sukarnoto, M.T.
  • Practicum Coordinator : M. Ihram Maulana, S.T., M.T.
  • Head of Practicum : –
  • Laboratory Assistant : Alif Muharram Mustajab, S.Tr.T.
  • Email : lab.fdm_tm.fti@trisakti.ac.id
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